/* * Copyright (c) 2003, 2019, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package java.lang; /** * The CharacterData00 class encapsulates the large tables once found in * java.lang.Character */ class CharacterData00 extends CharacterData { /* The character properties are currently encoded into 32 bits in the following manner: 1 bit mirrored property 4 bits directionality property 9 bits signed offset used for converting case 1 bit if 1, adding the signed offset converts the character to lowercase 1 bit if 1, subtracting the signed offset converts the character to uppercase 1 bit if 1, this character has a titlecase equivalent (possibly itself) 3 bits 0 may not be part of an identifier 1 ignorable control; may continue a Unicode identifier or Java identifier 2 may continue a Java identifier but not a Unicode identifier (unused) 3 may continue a Unicode identifier or Java identifier 4 is a Java whitespace character 5 may start or continue a Java identifier; may continue but not start a Unicode identifier (underscores) 6 may start or continue a Java identifier but not a Unicode identifier ($) 7 may start or continue a Unicode identifier or Java identifier Thus: 5, 6, 7 may start a Java identifier 1, 2, 3, 5, 6, 7 may continue a Java identifier 7 may start a Unicode identifier 1, 3, 5, 7 may continue a Unicode identifier 1 is ignorable within an identifier 4 is Java whitespace 2 bits 0 this character has no numeric property 1 adding the digit offset to the character code and then masking with 0x1F will produce the desired numeric value 2 this character has a "strange" numeric value 3 a Java supradecimal digit: adding the digit offset to the character code, then masking with 0x1F, then adding 10 will produce the desired numeric value 5 bits digit offset 5 bits character type The encoding of character properties is subject to change at any time. */ int getProperties(int ch) { char offset = (char)ch; int props = $$Lookup(offset); return props; } int getPropertiesEx(int ch) { char offset = (char)ch; int props = $$LookupEx(offset); return props; } int getType(int ch) { int props = getProperties(ch); return (props & $$maskType); } boolean isOtherLowercase(int ch) { int props = getPropertiesEx(ch); return (props & $$maskOtherLowercase) != 0; } boolean isOtherUppercase(int ch) { int props = getPropertiesEx(ch); return (props & $$maskOtherUppercase) != 0; } boolean isOtherAlphabetic(int ch) { int props = getPropertiesEx(ch); return (props & $$maskOtherAlphabetic) != 0; } boolean isIdeographic(int ch) { int props = getPropertiesEx(ch); return (props & $$maskIdeographic) != 0; } boolean isJavaIdentifierStart(int ch) { // isJavaIdentifierStart strictly conforms to code points assigned // in Unicode 6.2. Since code points {32FF} and {20BB..20BF} are not // from Unicode 6.2, return false. if(ch == 0x32FF || (ch>= 0x20BB && ch<= 0x20BF)) return false; int props = getProperties(ch); return ((props & $$maskIdentifierInfo) >= $$lowJavaStart); } boolean isJavaIdentifierPart(int ch) { // isJavaIdentifierPart strictly conforms to code points assigned // in Unicode 6.2. Since code points {32FF} and {20BB..20BF} are not // from Unicode 6.2, return false. if(ch == 0x32FF || (ch>= 0x20BB && ch<= 0x20BF)) return false; int props = getProperties(ch); return ((props & $$nonzeroJavaPart) != 0); } boolean isUnicodeIdentifierStart(int ch) { int props = getProperties(ch); return ((props & $$maskIdentifierInfo) == $$valueUnicodeStart); } boolean isUnicodeIdentifierPart(int ch) { int props = getProperties(ch); return ((props & $$maskUnicodePart) != 0); } boolean isIdentifierIgnorable(int ch) { int props = getProperties(ch); return ((props & $$maskIdentifierInfo) == $$valueIgnorable); } int toLowerCase(int ch) { int mapChar = ch; int val = getProperties(ch); if ((val & $$maskLowerCase) != 0) { if ((val & $$maskCaseOffset) == $$maskCaseOffset) { switch(ch) { // map the offset overflow chars case 0x0130 : mapChar = 0x0069; break; case 0x2126 : mapChar = 0x03C9; break; case 0x212A : mapChar = 0x006B; break; case 0x212B : mapChar = 0x00E5; break; // map the titlecase chars with both a 1:M uppercase map // and a lowercase map case 0x1F88 : mapChar = 0x1F80; break; case 0x1F89 : mapChar = 0x1F81; break; case 0x1F8A : mapChar = 0x1F82; break; case 0x1F8B : mapChar = 0x1F83; break; case 0x1F8C : mapChar = 0x1F84; break; case 0x1F8D : mapChar = 0x1F85; break; case 0x1F8E : mapChar = 0x1F86; break; case 0x1F8F : mapChar = 0x1F87; break; case 0x1F98 : mapChar = 0x1F90; break; case 0x1F99 : mapChar = 0x1F91; break; case 0x1F9A : mapChar = 0x1F92; break; case 0x1F9B : mapChar = 0x1F93; break; case 0x1F9C : mapChar = 0x1F94; break; case 0x1F9D : mapChar = 0x1F95; break; case 0x1F9E : mapChar = 0x1F96; break; case 0x1F9F : mapChar = 0x1F97; break; case 0x1FA8 : mapChar = 0x1FA0; break; case 0x1FA9 : mapChar = 0x1FA1; break; case 0x1FAA : mapChar = 0x1FA2; break; case 0x1FAB : mapChar = 0x1FA3; break; case 0x1FAC : mapChar = 0x1FA4; break; case 0x1FAD : mapChar = 0x1FA5; break; case 0x1FAE : mapChar = 0x1FA6; break; case 0x1FAF : mapChar = 0x1FA7; break; case 0x1FBC : mapChar = 0x1FB3; break; case 0x1FCC : mapChar = 0x1FC3; break; case 0x1FFC : mapChar = 0x1FF3; break; case 0x023A : mapChar = 0x2C65; break; case 0x023E : mapChar = 0x2C66; break; case 0x10A0 : mapChar = 0x2D00; break; case 0x10A1 : mapChar = 0x2D01; break; case 0x10A2 : mapChar = 0x2D02; break; case 0x10A3 : mapChar = 0x2D03; break; case 0x10A4 : mapChar = 0x2D04; break; case 0x10A5 : mapChar = 0x2D05; break; case 0x10A6 : mapChar = 0x2D06; break; case 0x10A7 : mapChar = 0x2D07; break; case 0x10A8 : mapChar = 0x2D08; break; case 0x10A9 : mapChar = 0x2D09; break; case 0x10AA : mapChar = 0x2D0A; break; case 0x10AB : mapChar = 0x2D0B; break; case 0x10AC : mapChar = 0x2D0C; break; case 0x10AD : mapChar = 0x2D0D; break; case 0x10AE : mapChar = 0x2D0E; break; case 0x10AF : mapChar = 0x2D0F; break; case 0x10B0 : mapChar = 0x2D10; break; case 0x10B1 : mapChar = 0x2D11; break; case 0x10B2 : mapChar = 0x2D12; break; case 0x10B3 : mapChar = 0x2D13; break; case 0x10B4 : mapChar = 0x2D14; break; case 0x10B5 : mapChar = 0x2D15; break; case 0x10B6 : mapChar = 0x2D16; break; case 0x10B7 : mapChar = 0x2D17; break; case 0x10B8 : mapChar = 0x2D18; break; case 0x10B9 : mapChar = 0x2D19; break; case 0x10BA : mapChar = 0x2D1A; break; case 0x10BB : mapChar = 0x2D1B; break; case 0x10BC : mapChar = 0x2D1C; break; case 0x10BD : mapChar = 0x2D1D; break; case 0x10BE : mapChar = 0x2D1E; break; case 0x10BF : mapChar = 0x2D1F; break; case 0x10C0 : mapChar = 0x2D20; break; case 0x10C1 : mapChar = 0x2D21; break; case 0x10C2 : mapChar = 0x2D22; break; case 0x10C3 : mapChar = 0x2D23; break; case 0x10C4 : mapChar = 0x2D24; break; case 0x10C5 : mapChar = 0x2D25; break; case 0x10C7 : mapChar = 0x2D27; break; case 0x10CD : mapChar = 0x2D2D; break; case 0x1E9E : mapChar = 0x00DF; break; case 0x2C62 : mapChar = 0x026B; break; case 0x2C63 : mapChar = 0x1D7D; break; case 0x2C64 : mapChar = 0x027D; break; case 0x2C6D : mapChar = 0x0251; break; case 0x2C6E : mapChar = 0x0271; break; case 0x2C6F : mapChar = 0x0250; break; case 0x2C70 : mapChar = 0x0252; break; case 0x2C7E : mapChar = 0x023F; break; case 0x2C7F : mapChar = 0x0240; break; case 0xA77D : mapChar = 0x1D79; break; case 0xA78D : mapChar = 0x0265; break; case 0xA7AA : mapChar = 0x0266; break; // default mapChar is already set, so no // need to redo it here. // default : mapChar = ch; } } else { int offset = val << $$shiftCaseOffsetSign >> ($$shiftCaseOffsetSign+$$shiftCaseOffset); mapChar = ch + offset; } } return mapChar; } int toUpperCase(int ch) { int mapChar = ch; int val = getProperties(ch); if ((val & $$maskUpperCase) != 0) { if ((val & $$maskCaseOffset) == $$maskCaseOffset) { switch(ch) { // map chars with overflow offsets case 0x00B5 : mapChar = 0x039C; break; case 0x017F : mapChar = 0x0053; break; case 0x1FBE : mapChar = 0x0399; break; // map char that have both a 1:1 and 1:M map case 0x1F80 : mapChar = 0x1F88; break; case 0x1F81 : mapChar = 0x1F89; break; case 0x1F82 : mapChar = 0x1F8A; break; case 0x1F83 : mapChar = 0x1F8B; break; case 0x1F84 : mapChar = 0x1F8C; break; case 0x1F85 : mapChar = 0x1F8D; break; case 0x1F86 : mapChar = 0x1F8E; break; case 0x1F87 : mapChar = 0x1F8F; break; case 0x1F90 : mapChar = 0x1F98; break; case 0x1F91 : mapChar = 0x1F99; break; case 0x1F92 : mapChar = 0x1F9A; break; case 0x1F93 : mapChar = 0x1F9B; break; case 0x1F94 : mapChar = 0x1F9C; break; case 0x1F95 : mapChar = 0x1F9D; break; case 0x1F96 : mapChar = 0x1F9E; break; case 0x1F97 : mapChar = 0x1F9F; break; case 0x1FA0 : mapChar = 0x1FA8; break; case 0x1FA1 : mapChar = 0x1FA9; break; case 0x1FA2 : mapChar = 0x1FAA; break; case 0x1FA3 : mapChar = 0x1FAB; break; case 0x1FA4 : mapChar = 0x1FAC; break; case 0x1FA5 : mapChar = 0x1FAD; break; case 0x1FA6 : mapChar = 0x1FAE; break; case 0x1FA7 : mapChar = 0x1FAF; break; case 0x1FB3 : mapChar = 0x1FBC; break; case 0x1FC3 : mapChar = 0x1FCC; break; case 0x1FF3 : mapChar = 0x1FFC; break; case 0x023F : mapChar = 0x2C7E; break; case 0x0240 : mapChar = 0x2C7F; break; case 0x0250 : mapChar = 0x2C6F; break; case 0x0251 : mapChar = 0x2C6D; break; case 0x0252 : mapChar = 0x2C70; break; case 0x0265 : mapChar = 0xA78D; break; case 0x0266 : mapChar = 0xA7AA; break; case 0x026B : mapChar = 0x2C62; break; case 0x0271 : mapChar = 0x2C6E; break; case 0x027D : mapChar = 0x2C64; break; case 0x1D79 : mapChar = 0xA77D; break; case 0x1D7D : mapChar = 0x2C63; break; case 0x2C65 : mapChar = 0x023A; break; case 0x2C66 : mapChar = 0x023E; break; case 0x2D00 : mapChar = 0x10A0; break; case 0x2D01 : mapChar = 0x10A1; break; case 0x2D02 : mapChar = 0x10A2; break; case 0x2D03 : mapChar = 0x10A3; break; case 0x2D04 : mapChar = 0x10A4; break; case 0x2D05 : mapChar = 0x10A5; break; case 0x2D06 : mapChar = 0x10A6; break; case 0x2D07 : mapChar = 0x10A7; break; case 0x2D08 : mapChar = 0x10A8; break; case 0x2D09 : mapChar = 0x10A9; break; case 0x2D0A : mapChar = 0x10AA; break; case 0x2D0B : mapChar = 0x10AB; break; case 0x2D0C : mapChar = 0x10AC; break; case 0x2D0D : mapChar = 0x10AD; break; case 0x2D0E : mapChar = 0x10AE; break; case 0x2D0F : mapChar = 0x10AF; break; case 0x2D10 : mapChar = 0x10B0; break; case 0x2D11 : mapChar = 0x10B1; break; case 0x2D12 : mapChar = 0x10B2; break; case 0x2D13 : mapChar = 0x10B3; break; case 0x2D14 : mapChar = 0x10B4; break; case 0x2D15 : mapChar = 0x10B5; break; case 0x2D16 : mapChar = 0x10B6; break; case 0x2D17 : mapChar = 0x10B7; break; case 0x2D18 : mapChar = 0x10B8; break; case 0x2D19 : mapChar = 0x10B9; break; case 0x2D1A : mapChar = 0x10BA; break; case 0x2D1B : mapChar = 0x10BB; break; case 0x2D1C : mapChar = 0x10BC; break; case 0x2D1D : mapChar = 0x10BD; break; case 0x2D1E : mapChar = 0x10BE; break; case 0x2D1F : mapChar = 0x10BF; break; case 0x2D20 : mapChar = 0x10C0; break; case 0x2D21 : mapChar = 0x10C1; break; case 0x2D22 : mapChar = 0x10C2; break; case 0x2D23 : mapChar = 0x10C3; break; case 0x2D24 : mapChar = 0x10C4; break; case 0x2D25 : mapChar = 0x10C5; break; case 0x2D27 : mapChar = 0x10C7; break; case 0x2D2D : mapChar = 0x10CD; break; // ch must have a 1:M case mapping, but we // can't handle it here. Return ch. // since mapChar is already set, no need // to redo it here. //default : mapChar = ch; } } else { int offset = val << $$shiftCaseOffsetSign >> ($$shiftCaseOffsetSign+$$shiftCaseOffset); mapChar = ch - offset; } } return mapChar; } int toTitleCase(int ch) { int mapChar = ch; int val = getProperties(ch); if ((val & $$maskTitleCase) != 0) { // There is a titlecase equivalent. Perform further checks: if ((val & $$maskUpperCase) == 0) { // The character does not have an uppercase equivalent, so it must // already be uppercase; so add 1 to get the titlecase form. mapChar = ch + 1; } else if ((val & $$maskLowerCase) == 0) { // The character does not have a lowercase equivalent, so it must // already be lowercase; so subtract 1 to get the titlecase form. mapChar = ch - 1; } // else { // The character has both an uppercase equivalent and a lowercase // equivalent, so it must itself be a titlecase form; return it. // return ch; //} } else if ((val & $$maskUpperCase) != 0) { // This character has no titlecase equivalent but it does have an // uppercase equivalent, so use that (subtract the signed case offset). mapChar = toUpperCase(ch); } return mapChar; } int digit(int ch, int radix) { int value = -1; if (radix >= Character.MIN_RADIX && radix <= Character.MAX_RADIX) { int val = getProperties(ch); int kind = val & $$maskType; if (kind == Character.DECIMAL_DIGIT_NUMBER) { value = ch + ((val & $$maskDigitOffset) >> $$shiftDigitOffset) & $$maskDigit; } else if ((val & $$maskNumericType) == $$valueJavaSupradecimal) { // Java supradecimal digit value = (ch + ((val & $$maskDigitOffset) >> $$shiftDigitOffset) & $$maskDigit) + 10; } } return (value < radix) ? value : -1; } int getNumericValue(int ch) { int val = getProperties(ch); int retval = -1; switch (val & $$maskNumericType) { default: // cannot occur case ($$valueNotNumeric): // not numeric retval = -1; break; case ($$valueDigit): // simple numeric retval = ch + ((val & $$maskDigitOffset) >> $$shiftDigitOffset) & $$maskDigit; break; case ($$valueStrangeNumeric) : // "strange" numeric switch (ch) { case 0x0BF1: retval = 100; break; // TAMIL NUMBER ONE HUNDRED case 0x0BF2: retval = 1000; break; // TAMIL NUMBER ONE THOUSAND case 0x1375: retval = 40; break; // ETHIOPIC NUMBER FORTY case 0x1376: retval = 50; break; // ETHIOPIC NUMBER FIFTY case 0x1377: retval = 60; break; // ETHIOPIC NUMBER SIXTY case 0x1378: retval = 70; break; // ETHIOPIC NUMBER SEVENTY case 0x1379: retval = 80; break; // ETHIOPIC NUMBER EIGHTY case 0x137A: retval = 90; break; // ETHIOPIC NUMBER NINETY case 0x137B: retval = 100; break; // ETHIOPIC NUMBER HUNDRED case 0x137C: retval = 10000; break; // ETHIOPIC NUMBER TEN THOUSAND case 0x215F: retval = 1; break; // FRACTION NUMERATOR ONE case 0x216C: retval = 50; break; // ROMAN NUMERAL FIFTY case 0x216D: retval = 100; break; // ROMAN NUMERAL ONE HUNDRED case 0x216E: retval = 500; break; // ROMAN NUMERAL FIVE HUNDRED case 0x216F: retval = 1000; break; // ROMAN NUMERAL ONE THOUSAND case 0x217C: retval = 50; break; // SMALL ROMAN NUMERAL FIFTY case 0x217D: retval = 100; break; // SMALL ROMAN NUMERAL ONE HUNDRED case 0x217E: retval = 500; break; // SMALL ROMAN NUMERAL FIVE HUNDRED case 0x217F: retval = 1000; break; // SMALL ROMAN NUMERAL ONE THOUSAND case 0x2180: retval = 1000; break; // ROMAN NUMERAL ONE THOUSAND C D case 0x2181: retval = 5000; break; // ROMAN NUMERAL FIVE THOUSAND case 0x2182: retval = 10000; break; // ROMAN NUMERAL TEN THOUSAND case 0x324B: retval = 40; break; case 0x324C: retval = 50; break; case 0x324D: retval = 60; break; case 0x324E: retval = 70; break; case 0x324F: retval = 80; break; case 0x325C: retval = 32; break; case 0x325D: retval = 33; break; // CIRCLED NUMBER THIRTY THREE case 0x325E: retval = 34; break; // CIRCLED NUMBER THIRTY FOUR case 0x325F: retval = 35; break; // CIRCLED NUMBER THIRTY FIVE case 0x32B1: retval = 36; break; // CIRCLED NUMBER THIRTY SIX case 0x32B2: retval = 37; break; // CIRCLED NUMBER THIRTY SEVEN case 0x32B3: retval = 38; break; // CIRCLED NUMBER THIRTY EIGHT case 0x32B4: retval = 39; break; // CIRCLED NUMBER THIRTY NINE case 0x32B5: retval = 40; break; // CIRCLED NUMBER FORTY case 0x32B6: retval = 41; break; // CIRCLED NUMBER FORTY ONE case 0x32B7: retval = 42; break; // CIRCLED NUMBER FORTY TWO case 0x32B8: retval = 43; break; // CIRCLED NUMBER FORTY THREE case 0x32B9: retval = 44; break; // CIRCLED NUMBER FORTY FOUR case 0x32BA: retval = 45; break; // CIRCLED NUMBER FORTY FIVE case 0x32BB: retval = 46; break; // CIRCLED NUMBER FORTY SIX case 0x32BC: retval = 47; break; // CIRCLED NUMBER FORTY SEVEN case 0x32BD: retval = 48; break; // CIRCLED NUMBER FORTY EIGHT case 0x32BE: retval = 49; break; // CIRCLED NUMBER FORTY NINE case 0x32BF: retval = 50; break; // CIRCLED NUMBER FIFTY case 0x0D71: retval = 100; break; // MALAYALAM NUMBER ONE HUNDRED case 0x0D72: retval = 1000; break; // MALAYALAM NUMBER ONE THOUSAND case 0x2186: retval = 50; break; // ROMAN NUMERAL FIFTY EARLY FORM case 0x2187: retval = 50000; break; // ROMAN NUMERAL FIFTY THOUSAND case 0x2188: retval = 100000; break; // ROMAN NUMERAL ONE HUNDRED THOUSAND default: retval = -2; break; } break; case ($$valueJavaSupradecimal): // Java supradecimal retval = (ch + ((val & $$maskDigitOffset) >> $$shiftDigitOffset) & $$maskDigit) + 10; break; } return retval; } boolean isWhitespace(int ch) { int props = getProperties(ch); return ((props & $$maskIdentifierInfo) == $$valueJavaWhitespace); } byte getDirectionality(int ch) { int val = getProperties(ch); byte directionality = (byte)((val & $$maskBidi) >> $$shiftBidi); if (directionality == 0xF ) { switch(ch) { case 0x202A : // This is the only char with LRE directionality = Character.DIRECTIONALITY_LEFT_TO_RIGHT_EMBEDDING; break; case 0x202B : // This is the only char with RLE directionality = Character.DIRECTIONALITY_RIGHT_TO_LEFT_EMBEDDING; break; case 0x202C : // This is the only char with PDF directionality = Character.DIRECTIONALITY_POP_DIRECTIONAL_FORMAT; break; case 0x202D : // This is the only char with LRO directionality = Character.DIRECTIONALITY_LEFT_TO_RIGHT_OVERRIDE; break; case 0x202E : // This is the only char with RLO directionality = Character.DIRECTIONALITY_RIGHT_TO_LEFT_OVERRIDE; break; default : directionality = Character.DIRECTIONALITY_UNDEFINED; break; } } return directionality; } boolean isMirrored(int ch) { int props = getProperties(ch); return ((props & $$maskMirrored) != 0); } int toUpperCaseEx(int ch) { int mapChar = ch; int val = getProperties(ch); if ((val & $$maskUpperCase) != 0) { if ((val & $$maskCaseOffset) != $$maskCaseOffset) { int offset = val << $$shiftCaseOffsetSign >> ($$shiftCaseOffsetSign+$$shiftCaseOffset); mapChar = ch - offset; } else { switch(ch) { // map overflow characters case 0x00B5 : mapChar = 0x039C; break; case 0x017F : mapChar = 0x0053; break; case 0x1FBE : mapChar = 0x0399; break; case 0x023F : mapChar = 0x2C7E; break; case 0x0240 : mapChar = 0x2C7F; break; case 0x0250 : mapChar = 0x2C6F; break; case 0x0251 : mapChar = 0x2C6D; break; case 0x0252 : mapChar = 0x2C70; break; case 0x0265 : mapChar = 0xA78D; break; case 0x0266 : mapChar = 0xA7AA; break; case 0x026B : mapChar = 0x2C62; break; case 0x0271 : mapChar = 0x2C6E; break; case 0x027D : mapChar = 0x2C64; break; case 0x1D79 : mapChar = 0xA77D; break; case 0x1D7D : mapChar = 0x2C63; break; case 0x2C65 : mapChar = 0x023A; break; case 0x2C66 : mapChar = 0x023E; break; case 0x2D00 : mapChar = 0x10A0; break; case 0x2D01 : mapChar = 0x10A1; break; case 0x2D02 : mapChar = 0x10A2; break; case 0x2D03 : mapChar = 0x10A3; break; case 0x2D04 : mapChar = 0x10A4; break; case 0x2D05 : mapChar = 0x10A5; break; case 0x2D06 : mapChar = 0x10A6; break; case 0x2D07 : mapChar = 0x10A7; break; case 0x2D08 : mapChar = 0x10A8; break; case 0x2D09 : mapChar = 0x10A9; break; case 0x2D0A : mapChar = 0x10AA; break; case 0x2D0B : mapChar = 0x10AB; break; case 0x2D0C : mapChar = 0x10AC; break; case 0x2D0D : mapChar = 0x10AD; break; case 0x2D0E : mapChar = 0x10AE; break; case 0x2D0F : mapChar = 0x10AF; break; case 0x2D10 : mapChar = 0x10B0; break; case 0x2D11 : mapChar = 0x10B1; break; case 0x2D12 : mapChar = 0x10B2; break; case 0x2D13 : mapChar = 0x10B3; break; case 0x2D14 : mapChar = 0x10B4; break; case 0x2D15 : mapChar = 0x10B5; break; case 0x2D16 : mapChar = 0x10B6; break; case 0x2D17 : mapChar = 0x10B7; break; case 0x2D18 : mapChar = 0x10B8; break; case 0x2D19 : mapChar = 0x10B9; break; case 0x2D1A : mapChar = 0x10BA; break; case 0x2D1B : mapChar = 0x10BB; break; case 0x2D1C : mapChar = 0x10BC; break; case 0x2D1D : mapChar = 0x10BD; break; case 0x2D1E : mapChar = 0x10BE; break; case 0x2D1F : mapChar = 0x10BF; break; case 0x2D20 : mapChar = 0x10C0; break; case 0x2D21 : mapChar = 0x10C1; break; case 0x2D22 : mapChar = 0x10C2; break; case 0x2D23 : mapChar = 0x10C3; break; case 0x2D24 : mapChar = 0x10C4; break; case 0x2D25 : mapChar = 0x10C5; break; case 0x2D27 : mapChar = 0x10C7; break; case 0x2D2D : mapChar = 0x10CD; break; default : mapChar = Character.ERROR; break; } } } return mapChar; } char[] toUpperCaseCharArray(int ch) { char[] upperMap = {(char)ch}; int location = findInCharMap(ch); if (location != -1) { upperMap = charMap[location][1]; } return upperMap; } /** * Finds the character in the uppercase mapping table. * * @param ch the char to search * @return the index location ch in the table or -1 if not found * @since 1.4 */ int findInCharMap(int ch) { if (charMap == null || charMap.length == 0) { return -1; } int top, bottom, current; bottom = 0; top = charMap.length; current = top/2; // invariant: top > current >= bottom && ch >= CharacterData.charMap[bottom][0] while (top - bottom > 1) { if (ch >= charMap[current][0][0]) { bottom = current; } else { top = current; } current = (top + bottom) / 2; } if (ch == charMap[current][0][0]) return current; else return -1; } static final CharacterData00 instance = new CharacterData00(); private CharacterData00() {}; $$Tables static { $$Initializers } }