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skia / external / github.com / unicode-org / icu / refs/tags/icu4j-release-4-4-rc1 / . / main / tests / translit / src / com / ibm / icu / dev / test / translit / RoundTripTest.java
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/**
*******************************************************************************
* Copyright (C) 2000-2009, International Business Machines Corporation and *
* others. All Rights Reserved. *
*******************************************************************************
*/
package com.ibm.icu.dev.test.translit;
import java.io.BufferedWriter;
import java.io.ByteArrayOutputStream;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.OutputStreamWriter;
import java.io.PrintWriter;
import java.io.UnsupportedEncodingException;
import java.util.MissingResourceException;
import com.ibm.icu.dev.test.TestFmwk;
import com.ibm.icu.impl.Utility;
import com.ibm.icu.lang.UCharacter;
import com.ibm.icu.lang.UProperty;
import com.ibm.icu.text.Normalizer;
import com.ibm.icu.text.Transliterator;
import com.ibm.icu.text.UTF16;
import com.ibm.icu.text.UnicodeSet;
import com.ibm.icu.text.UnicodeSetIterator;
import com.ibm.icu.util.LocaleData;
import com.ibm.icu.util.ULocale;
/**
* @test
* @summary Round trip test of Transliterator
*/
public class RoundTripTest extends TestFmwk {
static final boolean EXTRA_TESTS = true;
static final boolean PRINT_RULES = true;
public static void main(String[] args) throws Exception {
new RoundTripTest().run(args);
}
/*
public void TestSingle() throws IOException, ParseException {
Transliterator t = Transliterator.getInstance("Latin-Greek");
String s = t.transliterate("\u0101\u0069");
}
*/
/*
Note: Unicode 3.2 added new Hiragana/Katakana characters:
3095..3096 ; 3.2 # [2] HIRAGANA LETTER SMALL KA..HIRAGANA LETTER SMALL KE
309F..30A0 ; 3.2 # [2] HIRAGANA DIGRAPH YORI..KATAKANA-HIRAGANA DOUBLE HYPHEN
30FF ; 3.2 # KATAKANA DIGRAPH KOTO
31F0..31FF ; 3.2 # [16] KATAKANA LETTER SMALL KU..KATAKANA LETTER SMALL RO
Unicode 5.2 added another Hiragana character:
1F200 ; 5.2 # SQUARE HIRAGANA HOKA
We will not add them to the rules until they are more supported (e.g. in fonts on Windows)
A bug has been filed to remind us to do this: #1979.
*/
static String KATAKANA = "[[[:katakana:][\u30A1-\u30FA\u30FC]]-[\u30FF\u31F0-\u31FF]]";
static String HIRAGANA = "[[[:hiragana:][\u3040-\u3094]]-[\u3095-\u3096\u309F-\u30A0\\U0001F200-\\U0001F2FF]]";
static String LENGTH = "[\u30FC]";
static String HALFWIDTH_KATAKANA = "[\uFF65-\uFF9D]";
static String KATAKANA_ITERATION = "[\u30FD\u30FE]";
static String HIRAGANA_ITERATION = "[\u309D\u309E]";
//------------------------------------------------------------------
// AbbreviatedUnicodeSetIterator
//------------------------------------------------------------------
static class AbbreviatedUnicodeSetIterator extends UnicodeSetIterator {
private boolean abbreviated;
private int perRange;
public AbbreviatedUnicodeSetIterator() {
super();
abbreviated = false;
}
public void reset(UnicodeSet newSet) {
reset(newSet, false);
}
public void reset(UnicodeSet newSet, boolean abb) {
reset(newSet, abb, 100);
}
public void reset(UnicodeSet newSet, boolean abb, int density) {
super.reset(newSet);
abbreviated = abb;
perRange = newSet.getRangeCount();
if (perRange != 0) {
perRange = density / perRange;
}
}
protected void loadRange(int myRange) {
super.loadRange(myRange);
if (abbreviated && (endElement > nextElement + perRange)) {
endElement = nextElement + perRange;
}
}
}
//--------------------------------------------------------------------
public void showElapsed(long start, String name) {
double dur = (System.currentTimeMillis() - start) / 1000.0;
logln(name + " took " + dur + " seconds");
}
public void TestKana() throws IOException {
long start = System.currentTimeMillis();
new Test("Katakana-Hiragana")
.test(KATAKANA, "[" + HIRAGANA + LENGTH + "]", "[" + HALFWIDTH_KATAKANA + LENGTH + "]", this, new Legal());
showElapsed(start, "TestKana");
}
public void TestHiragana() throws IOException {
long start = System.currentTimeMillis();
new Test("Latin-Hiragana")
.test("[a-zA-Z]", HIRAGANA, HIRAGANA_ITERATION, this, new Legal());
showElapsed(start, "TestHiragana");
}
public void TestKatakana() throws IOException {
long start = System.currentTimeMillis();
new Test("Latin-Katakana")
.test("[a-zA-Z]", KATAKANA, "[" + KATAKANA_ITERATION + HALFWIDTH_KATAKANA + "]", this, new Legal());
showElapsed(start, "TestKatakana");
}
public void TestJamo() throws IOException {
long start = System.currentTimeMillis();
new Test("Latin-Jamo")
.test("[a-zA-Z]", "[\u1100-\u1112 \u1161-\u1175 \u11A8-\u11C2]", "", this, new LegalJamo());
showElapsed(start, "TestJamo");
}
/*
SBase = 0xAC00, LBase = 0x1100, VBase = 0x1161, TBase = 0x11A7,
LCount = 19, VCount = 21, TCount = 28,
NCount = VCount * TCount, // 588
SCount = LCount * NCount, // 11172
LLimit = LBase + LCount, // 1113
VLimit = VBase + VCount, // 1176
TLimit = TBase + TCount, // 11C3
SLimit = SBase + SCount; // D7A4
*/
public void TestHangul() throws IOException {
long start = System.currentTimeMillis();
Test t = new Test("Latin-Hangul", 5);
boolean TEST_ALL = "true".equalsIgnoreCase(getProperty("HangulRoundTripAll"));
if (TEST_ALL && getInclusion() == 10) {
t.setPairLimit(Integer.MAX_VALUE); // only go to the limit if we have TEST_ALL and getInclusion
}
t.test("[a-zA-Z]", "[\uAC00-\uD7A4]", "", this, new Legal());
showElapsed(start, "TestHangul");
}
/**
* This is a shorter version of the test for doubles, that allows us to skip lots of cases, but
* does check the ones that should cause problems (if any do).
*/
public void TestHangul2() {
Transliterator lh = Transliterator.getInstance("Latin-Hangul");
Transliterator hl = lh.getInverse();
final UnicodeSet representativeHangul = getRepresentativeHangul();
for (UnicodeSetIterator it = new UnicodeSetIterator(representativeHangul); it.next();) {
assertRoundTripTransform("Transform", it.getString(), lh, hl);
}
}
private void assertRoundTripTransform(String message, String source, Transliterator lh, Transliterator hl) {
String to = hl.transform(source);
String back = lh.transform(to);
if (!source.equals(back)) {
String to2 = hl.transform(source.replaceAll("(.)", "$1 ").trim());
String to3 = hl.transform(back.replaceAll("(.)", "$1 ").trim());
assertEquals(message + " " + source + " [" + to + "/"+ to2 + "/"+ to3 + "]", source, back);
}
}
public static UnicodeSet getRepresentativeHangul() {
UnicodeSet extraSamples = new UnicodeSet("[\uCE20{\uAD6C\uB514}{\uAD73\uC774}{\uBB34\uB837}{\uBB3C\uC5FF}{\uC544\uAE4C}{\uC544\uB530}{\uC544\uBE60}{\uC544\uC2F8}{\uC544\uC9DC}{\uC544\uCC28}{\uC545\uC0AC}{\uC545\uC2F8}{\uC546\uCE74}{\uC548\uAC00}{\uC548\uC790}{\uC548\uC9DC}{\uC548\uD558}{\uC54C\uAC00}{\uC54C\uB530}{\uC54C\uB9C8}{\uC54C\uBC14}{\uC54C\uBE60}{\uC54C\uC0AC}{\uC54C\uC2F8}{\uC54C\uD0C0}{\uC54C\uD30C}{\uC54C\uD558}{\uC555\uC0AC}{\uC555\uC2F8}{\uC558\uC0AC}{\uC5C5\uC12F\uC501}{\uC5C6\uC5C8\uC2B5}]");
UnicodeSet sourceSet = new UnicodeSet();
addRepresentativeHangul(sourceSet, 2, false);
addRepresentativeHangul(sourceSet, 3, false);
addRepresentativeHangul(sourceSet, 2, true);
addRepresentativeHangul(sourceSet, 3, true);
// add the boundary cases; we want an example of each case of V + L and one example of each case of T+L
UnicodeSet more = getRepresentativeBoundaryHangul();
sourceSet.addAll(more);
sourceSet.addAll(extraSamples);
return sourceSet;
}
private static UnicodeSet getRepresentativeBoundaryHangul() {
UnicodeSet resultToAddTo = new UnicodeSet();
// U+1100 HANGUL CHOSEONG KIYEOK
// U+1161 HANGUL JUNGSEONG A
UnicodeSet L = new UnicodeSet("[:hst=L:]");
UnicodeSet V = new UnicodeSet("[:hst=V:]");
UnicodeSet T = new UnicodeSet("[:hst=T:]");
String prefixLV = "\u1100\u1161";
String prefixL = "\u1100";
String suffixV = "\u1161";
String nullL = "\u110B"; // HANGUL CHOSEONG IEUNG
UnicodeSet L0 = new UnicodeSet("[\u1100\u110B]");
// do all combinations of L0 + V + nullL + V
for (UnicodeSetIterator iL0 = new UnicodeSetIterator(L0); iL0.next();) {
for (UnicodeSetIterator iV = new UnicodeSetIterator(V); iV.next();) {
for (UnicodeSetIterator iV2 = new UnicodeSetIterator(V); iV2.next();) {
String sample = iL0.getString() + iV.getString() + nullL + iV2.getString();
String trial = Normalizer.compose(sample, false);
if (trial.length() == 2) {
resultToAddTo.add(trial);
}
}
}
}
for (UnicodeSetIterator iL = new UnicodeSetIterator(L); iL.next();) {
// do all combinations of "g" + V + L + "a"
final String suffix = iL.getString() + suffixV;
for (UnicodeSetIterator iV = new UnicodeSetIterator(V); iV.next();) {
String sample = prefixL + iV.getString() + suffix;
String trial = Normalizer.compose(sample, false);
if (trial.length() == 2) {
resultToAddTo.add(trial);
}
}
// do all combinations of "ga" + T + L + "a"
for (UnicodeSetIterator iT = new UnicodeSetIterator(T); iT.next();) {
String sample = prefixLV + iT.getString() + suffix;
String trial = Normalizer.compose(sample, false);
if (trial.length() == 2) {
resultToAddTo.add(trial);
}
}
}
return resultToAddTo;
}
private static void addRepresentativeHangul(UnicodeSet resultToAddTo, int leng, boolean noFirstConsonant) {
UnicodeSet notYetSeen = new UnicodeSet();
for (char c = '\uAC00'; c < '\uD7AF'; ++c) {
String charStr = String.valueOf(c);
String decomp = Normalizer.decompose(charStr, false);
if (decomp.length() != leng) {
continue; // only take one length at a time
}
if (decomp.startsWith("\u110B ") != noFirstConsonant) {
continue;
}
if (!notYetSeen.containsAll(decomp)) {
resultToAddTo.add(c);
notYetSeen.addAll(decomp);
}
}
}
public void TestHan() throws UnsupportedEncodingException, FileNotFoundException {
try{
UnicodeSet exemplars = LocaleData.getExemplarSet(new ULocale("zh"),0);
// create string with all chars
StringBuffer b = new StringBuffer();
for (UnicodeSetIterator it = new UnicodeSetIterator(exemplars); it.next();) {
UTF16.append(b,it.codepoint);
}
String source = b.toString();
// transform with Han translit
Transliterator han = Transliterator.getInstance("Han-Latin");
String target = han.transliterate(source);
// now verify that there are no Han characters left
UnicodeSet allHan = new UnicodeSet("[:han:]");
assertFalse("No Han must be left after Han-Latin transliteration",allHan.containsSome(target));
// check the pinyin translit
Transliterator pn = Transliterator.getInstance("Latin-NumericPinyin");
String target2 = pn.transliterate(target);
// verify that there are no marks
Transliterator nfc = Transliterator.getInstance("nfc");
String nfced = nfc.transliterate(target2);
UnicodeSet allMarks = new UnicodeSet("[:mark:]");
assertFalse("NumericPinyin must contain no marks", allMarks.containsSome(nfced));
// verify roundtrip
Transliterator np = pn.getInverse();
String target3 = np.transliterate(target);
boolean roundtripOK = target3.equals(target);
assertTrue("NumericPinyin must roundtrip", roundtripOK);
if (!roundtripOK) {
String filename = "numeric-pinyin.log.txt";
PrintWriter out = new PrintWriter(
new BufferedWriter(
new OutputStreamWriter(
new FileOutputStream(filename), "UTF8"), 4*1024));
errln("Creating log file " + new File(filename).getAbsoluteFile());
out.println("Pinyin: " + target);
out.println("Pinyin-Numeric-Pinyin: " + target2);
out.close();
}
}catch(MissingResourceException ex){
warnln("Could not load the locale data for fetching the exemplar characters.");
}
}
public void TestSingle() {
Transliterator t = Transliterator.getInstance("Latin-Greek");
t.transliterate("\u0061\u0101\u0069");
}
String getGreekSet() {
// Time bomb
if (skipIfBeforeICU(4,5,0)) {
// We temporarily filter against Unicode 4.1, but we only do this
// before version 3.5.
logln("TestGreek needs to be updated to remove delete the section marked [:Age=4.0:] filter");
} else {
errln("TestGreek needs to be updated to remove delete the [:Age=4.0:] filter ");
}
return
// isICU28() ? "[[\u003B\u00B7[:Greek:]-[\u03D7-\u03EF]]&[:Age=3.2:]]" :
"[\u003B\u00B7[[:Greek:]&[:Letter:]]-[" +
"\u1D26-\u1D2A" + // L& [5] GREEK LETTER SMALL CAPITAL GAMMA..GREEK LETTER SMALL CAPITAL PSI
"\u1D5D-\u1D61" + // Lm [5] MODIFIER LETTER SMALL BETA..MODIFIER LETTER SMALL CHI
"\u1D66-\u1D6A" + // L& [5] GREEK SUBSCRIPT SMALL LETTER BETA..GREEK SUBSCRIPT SMALL LETTER CHI
"\u03D7-\u03EF" + // \N{GREEK KAI SYMBOL}..\N{COPTIC SMALL LETTER DEI}
"] & [:Age=4.0:]]";
}
public void TestGreek() throws IOException {
long start = System.currentTimeMillis();
new Test("Latin-Greek", 50)
.test("[a-zA-Z]", getGreekSet(),
"[\u00B5\u037A\u03D0-\u03F5\u03F9]", /* roundtrip exclusions */
this, new LegalGreek(true));
showElapsed(start, "TestGreek");
}
public void TestGreekUNGEGN() throws IOException {
long start = System.currentTimeMillis();
new Test("Latin-Greek/UNGEGN")
.test("[a-zA-Z]", getGreekSet(),
"[\u00B5\u037A\u03D0-\uFFFF{\u039C\u03C0}]", /* roundtrip exclusions */
this, new LegalGreek(false));
showElapsed(start, "TestGreekUNGEGN");
}
public void Testel() throws IOException {
long start = System.currentTimeMillis();
new Test("Latin-el")
.test("[a-zA-Z]", getGreekSet(),
"[\u00B5\u037A\u03D0-\uFFFF{\u039C\u03C0}]", /* roundtrip exclusions */
this, new LegalGreek(false));
showElapsed(start, "Testel");
}
public void TestCyrillic() throws IOException {
long start = System.currentTimeMillis();
new Test("Latin-Cyrillic")
.test("[a-zA-Z\u0110\u0111\u02BA\u02B9]", "[\u0400-\u045F]", null, this, new Legal());
showElapsed(start, "TestCyrillic");
}
static final String ARABIC = "[\u06A9\u060C\u061B\u061F\u0621\u0627-\u063A\u0641-\u0655\u0660-\u066C\u067E\u0686\u0698\u06A4\u06AD\u06AF\u06CB-\u06CC\u06F0-\u06F9]";
public void TestArabic() throws IOException {
long start = System.currentTimeMillis();
new Test("Latin-Arabic")
.test("[a-zA-Z\u02BE\u02BF]", ARABIC, "[a-zA-Z\u02BE\u02BF\u207F]", null, this, new Legal()); //
showElapsed(start, "TestArabic");
}
public void TestHebrew() throws IOException {
// Time bomb
if (skipIfBeforeICU(4,5,0)) {
// We temporarily filter against Unicode 4.1, but we only do this
// before version 3.5.
logln("TestHebrew needs to be updated to remove delete the section marked [:Age=4.0:] filter");
} else {
errln("TestHebrew needs to be updated to remove delete the [:Age=4.0:] filter ");
}
long start = System.currentTimeMillis();
new Test("Latin-Hebrew")
.test("[a-zA-Z\u02BC\u02BB]", "[[[:hebrew:]-[\u05BD\uFB00-\uFBFF]]& [:Age=4.0:]]", "[\u05F0\u05F1\u05F2]", this, new LegalHebrew());
showElapsed(start, "TestHebrew");
}
public void TestThai() throws IOException {
long start = System.currentTimeMillis();
if(skipIfBeforeICU(4,5,0)){
new Test("Latin-Thai")
.test("[a-zA-Z\u0142\u1ECD\u00E6\u0131\u0268\u02CC]",
"[\u0E01-\u0E3A\u0E40-\u0E5B]",
"[a-zA-Z\u0142\u1ECD\u00E6\u0131\u0268\u02B9\u02CC]",
"[\u0E4F]", this, new LegalThai());
}else{
new Test("Latin-Thai")
.test("[a-zA-Z\u0142\u1ECD\u00E6\u0131\u0268\u02CC]",
"[\u0E01-\u0E3A\u0E40-\u0E5B]",
"[a-zA-Z\u0142\u1ECD\u00E6\u0131\u0268\u02B9\u02CC]",
null, this, new LegalThai());
}
showElapsed(start, "TestThai");
}
//----------------------------------
// Inter-Indic Tests
//----------------------------------
public static class LegalIndic extends Legal{
UnicodeSet vowelSignSet = new UnicodeSet();
public LegalIndic(){
vowelSignSet.addAll(new UnicodeSet("[\u0901\u0902\u0903\u0904\u093e-\u094c\u0962\u0963]")); /* Devanagari */
vowelSignSet.addAll(new UnicodeSet("[\u0981\u0982\u0983\u09be-\u09cc\u09e2\u09e3\u09D7]")); /* Bengali */
vowelSignSet.addAll(new UnicodeSet("[\u0a01\u0a02\u0a03\u0a3e-\u0a4c\u0a62\u0a63\u0a70\u0a71]")); /* Gurmukhi */
vowelSignSet.addAll(new UnicodeSet("[\u0a81\u0a82\u0a83\u0abe-\u0acc\u0ae2\u0ae3]")); /* Gujarati */
vowelSignSet.addAll(new UnicodeSet("[\u0b01\u0b02\u0b03\u0b3e-\u0b4c\u0b62\u0b63\u0b56\u0b57]")); /* Oriya */
vowelSignSet.addAll(new UnicodeSet("[\u0b81\u0b82\u0b83\u0bbe-\u0bcc\u0be2\u0be3\u0bd7]")); /* Tamil */
vowelSignSet.addAll(new UnicodeSet("[\u0c01\u0c02\u0c03\u0c3e-\u0c4c\u0c62\u0c63\u0c55\u0c56]")); /* Telugu */
vowelSignSet.addAll(new UnicodeSet("[\u0c81\u0c82\u0c83\u0cbe-\u0ccc\u0ce2\u0ce3\u0cd5\u0cd6]")); /* Kannada */
vowelSignSet.addAll(new UnicodeSet("[\u0d01\u0d02\u0d03\u0d3e-\u0d4c\u0d62\u0d63\u0d57]")); /* Malayalam */
}
String avagraha = "\u093d\u09bd\u0abd\u0b3d\u0cbd";
String nukta = "\u093c\u09bc\u0a3c\u0abc\u0b3c\u0cbc";
String virama = "\u094d\u09cd\u0a4d\u0acd\u0b4d\u0bcd\u0c4d\u0ccd\u0d4d";
String sanskritStressSigns = "\u0951\u0952\u0953\u0954\u097d";
String chandrabindu = "\u0901\u0981\u0A81\u0b01\u0c01";
public boolean is(String sourceString){
int cp=sourceString.charAt(0);
// A vowel sign cannot be the first char
if(vowelSignSet.contains(cp)){
return false;
}else if(avagraha.indexOf(cp)!=-1){
return false;
}else if(virama.indexOf(cp)!=-1){
return false;
}else if(nukta.indexOf(cp)!=-1){
return false;
}else if(sanskritStressSigns.indexOf(cp)!=-1){
return false;
}else if((chandrabindu.indexOf(cp)!=-1) &&
(sourceString.length() >1 &&
vowelSignSet.contains(sourceString.charAt(1)))){
return false;
}
return true;
}
}
static String latinForIndic = "[['.0-9A-Za-z~\u00C0-\u00C5\u00C7-\u00CF\u00D1-\u00D6\u00D9-\u00DD"+
"\u00E0-\u00E5\u00E7-\u00EF\u00F1-\u00F6\u00F9-\u00FD\u00FF-\u010F"+
"\u0112-\u0125\u0128-\u0130\u0134-\u0137\u0139-\u013E\u0143-\u0148"+
"\u014C-\u0151\u0154-\u0165\u0168-\u017E\u01A0-\u01A1\u01AF-\u01B0"+
"\u01CD-\u01DC\u01DE-\u01E3\u01E6-\u01ED\u01F0\u01F4-\u01F5\u01F8-\u01FB"+
"\u0200-\u021B\u021E-\u021F\u0226-\u0233\u0294\u0303-\u0304\u0306\u0314-\u0315"+
"\u0325\u040E\u0419\u0439\u045E\u04C1-\u04C2\u04D0-\u04D1\u04D6-\u04D7"+
"\u04E2-\u04E3\u04EE-\u04EF\u1E00-\u1E99\u1EA0-\u1EF9\u1F01\u1F03\u1F05"+
"\u1F07\u1F09\u1F0B\u1F0D\u1F0F\u1F11\u1F13\u1F15\u1F19\u1F1B\u1F1D\u1F21"+
"\u1F23\u1F25\u1F27\u1F29\u1F2B\u1F2D\u1F2F\u1F31\u1F33\u1F35\u1F37\u1F39"+
"\u1F3B\u1F3D\u1F3F\u1F41\u1F43\u1F45\u1F49\u1F4B\u1F4D\u1F51\u1F53\u1F55"+
"\u1F57\u1F59\u1F5B\u1F5D\u1F5F\u1F61\u1F63\u1F65\u1F67\u1F69\u1F6B\u1F6D"+
"\u1F6F\u1F81\u1F83\u1F85\u1F87\u1F89\u1F8B\u1F8D\u1F8F\u1F91\u1F93\u1F95"+
"\u1F97\u1F99\u1F9B\u1F9D\u1F9F\u1FA1\u1FA3\u1FA5\u1FA7\u1FA9\u1FAB\u1FAD"+
"\u1FAF-\u1FB1\u1FB8-\u1FB9\u1FD0-\u1FD1\u1FD8-\u1FD9\u1FE0-\u1FE1\u1FE5"+
"\u1FE8-\u1FE9\u1FEC\u212A-\u212B\uE04D\uE064]"+
"-[\uE000-\uE080 \u01E2\u01E3]& [[:latin:][:mark:]]]";
public void TestDevanagariLatin() throws IOException {
long start = System.currentTimeMillis();
if (skipIfBeforeICU(4,5,0)) {
logln("Warning: TestDevanagariLatin needs to be updated to remove delete the section marked [:Age=4.1:] filter");
} else {
// We temporarily filter against Unicode 4.1, but we only do this
// before version 3.4.
errln("FAIL: TestDevanagariLatin needs to be updated to remove delete the [:Age=4.1:] filter ");
return;
}
new Test("Latin-DEVANAGARI", 50)
.test(latinForIndic, "[[[:Devanagari:][\u094d][\u0964\u0965]]&[:Age=4.1:]]", "[\u0965\u0904]", this, new LegalIndic());
showElapsed(start, "TestDevanagariLatin");
}
private static final String [][] interIndicArray= new String[][]{
new String [] { "BENGALI-DEVANAGARI",
"[:BENGALI:]", "[:Devanagari:]",
"[\u0904\u0951-\u0954\u0943-\u0949\u094a\u0962\u0963\u090D\u090e\u0911\u0912\u0929\u0933\u0934\u0935\u0950\u0958\u0959\u095a\u095b\u095e\u097d]", /*roundtrip exclusions*/
},
new String [] { "DEVANAGARI-BENGALI",
"[:Devanagari:]", "[:BENGALI:]",
"[\u09D7\u090D\u090e\u0911\u0912\u0929\u0933\u0934\u0935\u0950\u0958\u0959\u095a\u095b\u095e\u09f0\u09f1\u09f2-\u09fa\u09ce]", /*roundtrip exclusions*/
},
new String [] { "GURMUKHI-DEVANAGARI",
"[:GURMUKHI:]", "[:Devanagari:]",
"[\u0904\u0902\u0936\u0933\u0951-\u0954\u0902\u0903\u0943-\u0949\u094a\u0962\u0963\u090B\u090C\u090D\u090e\u0911\u0912\u0934\u0937\u093D\u0950\u0960\u0961\u097d]", /*roundtrip exclusions*/
},
new String [] { "DEVANAGARI-GURMUKHI",
"[:Devanagari:]", "[:GURMUKHI:]",
"[\u0A02\u0946\u0A5C\u0951-\u0954\u0A70\u0A71\u090B\u090C\u090D\u090e\u0911\u0912\u0934\u0937\u093D\u0950\u0960\u0961\u0a72\u0a73\u0a74]", /*roundtrip exclusions*/
},
new String [] { "GUJARATI-DEVANAGARI",
"[:GUJARATI:]", "[:Devanagari:]",
"[\u0904\u0946\u094A\u0962\u0963\u0951-\u0954\u0961\u090c\u090e\u0912\u097d]", /*roundtrip exclusions*/
},
new String [] { "DEVANAGARI-GUJARATI",
"[:Devanagari:]", "[:GUJARATI:]",
"[\u0951-\u0954\u0961\u090c\u090e\u0912]", /*roundtrip exclusions*/
},
new String [] { "ORIYA-DEVANAGARI",
"[:ORIYA:]", "[:Devanagari:]",
"[\u0904\u0912\u0911\u090D\u090e\u0931\u0943-\u094a\u0962\u0963\u0951-\u0954\u0950\u097d]", /*roundtrip exclusions*/
},
new String [] { "DEVANAGARI-ORIYA",
"[:Devanagari:]", "[:ORIYA:]",
"[\u0b5f\u0b56\u0b57\u0b70\u0b71\u0950\u090D\u090e\u0912\u0911\u0931]", /*roundtrip exclusions*/
},
new String [] { "Tamil-DEVANAGARI",
"[:tamil:]", "[:Devanagari:]",
"[\u0901\u0904\u093c\u0943-\u094a\u0951-\u0954\u0962\u0963\u090B\u090C\u090D\u0911\u0916\u0917\u0918\u091B\u091D\u0920\u0921\u0922\u0925\u0926\u0927\u092B\u092C\u092D\u0936\u093d\u0950[\u0958-\u0961]\u097d]", /*roundtrip exclusions*/
},
new String [] { "DEVANAGARI-Tamil",
"[:Devanagari:]", "[:tamil:]",
"[\u0bd7\u0BF0\u0BF1\u0BF2]", /*roundtrip exclusions*/
},
new String [] { "Telugu-DEVANAGARI",
"[:telugu:]", "[:Devanagari:]",
"[\u0904\u093c\u0950\u0945\u0949\u0951-\u0954\u0962\u0963\u090D\u0911\u093d\u0929\u0934[\u0958-\u095f]\u097d]", /*roundtrip exclusions*/
},
new String [] { "DEVANAGARI-TELUGU",
"[:Devanagari:]", "[:TELUGU:]",
"[\u0c55\u0c56\u0950\u090D\u0911\u093d\u0929\u0934[\u0958-\u095f]]", /*roundtrip exclusions*/
},
new String [] { "KANNADA-DEVANAGARI",
"[:KANNADA:]", "[:Devanagari:]",
"[\u0901\u0904\u0946\u0950\u0945\u0949\u0951-\u0954\u0962\u0963\u0950\u090D\u0911\u093d\u0929\u0934[\u0958-\u095f]\u097d]", /*roundtrip exclusions*/
},
new String [] { "DEVANAGARI-KANNADA",
"[:Devanagari:]", "[:KANNADA:]",
"[{\u0cb0\u0cbc}{\u0cb3\u0cbc}\u0cde\u0cd5\u0cd6\u0950\u090D\u0911\u093d\u0929\u0934[\u0958-\u095f]]", /*roundtrip exclusions*/
},
new String [] { "MALAYALAM-DEVANAGARI",
"[:MALAYALAM:]", "[:Devanagari:]",
"[\u0901\u0904\u094a\u094b\u094c\u093c\u0950\u0944\u0945\u0949\u0951-\u0954\u0962\u0963\u090D\u0911\u093d\u0929\u0934[\u0958-\u095f]\u097d]", /*roundtrip exclusions*/
},
new String [] { "DEVANAGARI-MALAYALAM",
"[:Devanagari:]", "[:MALAYALAM:]",
"[\u0d4c\u0d57\u0950\u090D\u0911\u093d\u0929\u0934[\u0958-\u095f]]", /*roundtrip exclusions*/
},
new String [] { "GURMUKHI-BENGALI",
"[:GURMUKHI:]", "[:BENGALI:]",
"[\u0982\u09b6\u09e2\u09e3\u09c3\u09c4\u09d7\u098B\u098C\u09B7\u09E0\u09E1\u09F0\u09F1\u09f2-\u09fa\u09ce]", /*roundtrip exclusions*/
},
new String [] { "BENGALI-GURMUKHI",
"[:BENGALI:]", "[:GURMUKHI:]",
"[\u0A02\u0a5c\u0a47\u0a70\u0a71\u0A33\u0A35\u0A59\u0A5A\u0A5B\u0A5E\u0A72\u0A73\u0A74]", /*roundtrip exclusions*/
},
new String [] { "GUJARATI-BENGALI",
"[:GUJARATI:]", "[:BENGALI:]",
"[\u09d7\u09e2\u09e3\u098c\u09e1\u09f0\u09f1\u09f2-\u09fa\u09ce]", /*roundtrip exclusions*/
},
new String [] { "BENGALI-GUJARATI",
"[:BENGALI:]", "[:GUJARATI:]",
"[\u0A82\u0a83\u0Ac9\u0Ac5\u0ac7\u0A8D\u0A91\u0AB3\u0AB5\u0ABD\u0AD0]", /*roundtrip exclusions*/
},
new String [] { "ORIYA-BENGALI",
"[:ORIYA:]", "[:BENGALI:]",
"[\u09c4\u09e2\u09e3\u09f0\u09f1\u09f2-\u09fa\u09ce]", /*roundtrip exclusions*/
},
new String [] { "BENGALI-ORIYA",
"[:BENGALI:]", "[:ORIYA:]",
"[\u0b35\u0b71\u0b5f\u0b56\u0b33\u0b3d]", /*roundtrip exclusions*/
},
new String [] { "Tamil-BENGALI",
"[:tamil:]", "[:BENGALI:]",
"[\u0981\u09bc\u09c3\u09c4\u09e2\u09e3\u09f0\u09f1\u098B\u098C\u0996\u0997\u0998\u099B\u099D\u09A0\u09A1\u09A2\u09A5\u09A6\u09A7\u09AB\u09AC\u09AD\u09B6\u09DC\u09DD\u09DF\u09E0\u09E1\u09f2-\u09fa\u09ce]", /*roundtrip exclusions*/
},
new String [] { "BENGALI-Tamil",
"[:BENGALI:]", "[:tamil:]",
"[\u0bc6\u0bc7\u0bca\u0B8E\u0B92\u0BA9\u0BB1\u0BB3\u0BB4\u0BB5\u0BF0\u0BF1\u0BF2]", /*roundtrip exclusions*/
},
new String [] { "Telugu-BENGALI",
"[:telugu:]", "[:BENGALI:]",
"[\u09e2\u09e3\u09bc\u09d7\u09f0\u09f1\u09dc\u09dd\u09df\u09f2-\u09fa\u09ce]", /*roundtrip exclusions*/
},
new String [] { "BENGALI-TELUGU",
"[:BENGALI:]", "[:TELUGU:]",
"[\u0c55\u0c56\u0c47\u0c46\u0c4a\u0C0E\u0C12\u0C31\u0C33\u0C35]", /*roundtrip exclusions*/
},
new String [] { "KANNADA-BENGALI",
"[:KANNADA:]", "[:BENGALI:]",
"[\u0981\u09e2\u09e3\u09bc\u09d7\u09f0\u09f1\u09dc\u09dd\u09df\u09f2-\u09fa\u09ce]", /*roundtrip exclusions*/
},
new String [] { "BENGALI-KANNADA",
"[:BENGALI:]", "[:KANNADA:]",
"[{\u0cb0\u0cbc}{\u0cb3\u0cbc}\u0cc6\u0cca\u0cd5\u0cd6\u0cc7\u0C8E\u0C92\u0CB1\u0cb3\u0cb5\u0cde]", /*roundtrip exclusions*/
},
new String [] { "MALAYALAM-BENGALI",
"[:MALAYALAM:]", "[:BENGALI:]",
"[\u0981\u09e2\u09e3\u09bc\u09c4\u09f0\u09f1\u09dc\u09dd\u09df\u09f2-\u09fa\u09ce]", /*roundtrip exclusions*/
},
new String [] { "BENGALI-MALAYALAM",
"[:BENGALI:]", "[:MALAYALAM:]",
"[\u0d46\u0d4a\u0d47\u0d31-\u0d35\u0d0e\u0d12]", /*roundtrip exclusions*/
},
new String [] { "GUJARATI-GURMUKHI",
"[:GUJARATI:]", "[:GURMUKHI:]",
"[\u0A02\u0ab3\u0ab6\u0A70\u0a71\u0a82\u0a83\u0ac3\u0ac4\u0ac5\u0ac9\u0a5c\u0a72\u0a73\u0a74\u0a8b\u0a8d\u0a91\u0abd]", /*roundtrip exclusions*/
},
new String [] { "GURMUKHI-GUJARATI",
"[:GURMUKHI:]", "[:GUJARATI:]",
"[\u0a5c\u0A70\u0a71\u0a72\u0a73\u0a74\u0a82\u0a83\u0a8b\u0a8c\u0a8d\u0a91\u0ab3\u0ab6\u0ab7\u0abd\u0ac3\u0ac4\u0ac5\u0ac9\u0ad0\u0ae0\u0ae1]", /*roundtrip exclusions*/
},
new String [] { "ORIYA-GURMUKHI",
"[:ORIYA:]", "[:GURMUKHI:]",
"[\u0A02\u0a5c\u0a21\u0a47\u0a71\u0b02\u0b03\u0b33\u0b36\u0b43\u0b56\u0b57\u0B0B\u0B0C\u0B37\u0B3D\u0B5F\u0B60\u0B61\u0a35\u0a72\u0a73\u0a74]", /*roundtrip exclusions*/
},
new String [] { "GURMUKHI-ORIYA",
"[:GURMUKHI:]", "[:ORIYA:]",
"[\u0a71\u0b02\u0b03\u0b33\u0b36\u0b43\u0b56\u0b57\u0B0B\u0B0C\u0B37\u0B3D\u0B5F\u0B60\u0B61\u0b70\u0b71]", /*roundtrip exclusions*/
},
new String [] { "TAMIL-GURMUKHI",
"[:TAMIL:]", "[:GURMUKHI:]",
"[\u0A01\u0A02\u0a33\u0a36\u0a3c\u0a70\u0a71\u0a47\u0A16\u0A17\u0A18\u0A1B\u0A1D\u0A20\u0A21\u0A22\u0A25\u0A26\u0A27\u0A2B\u0A2C\u0A2D\u0A59\u0A5A\u0A5B\u0A5C\u0A5E\u0A72\u0A73\u0A74]", /*roundtrip exclusions*/
},
new String [] { "GURMUKHI-TAMIL",
"[:GURMUKHI:]", "[:TAMIL:]",
"[\u0b82\u0bc6\u0bca\u0bd7\u0bb7\u0bb3\u0b83\u0B8E\u0B92\u0BA9\u0BB1\u0BB4\u0bb6\u0BF0\u0BF1\u0BF2]", /*roundtrip exclusions*/
},
new String [] { "TELUGU-GURMUKHI",
"[:TELUGU:]", "[:GURMUKHI:]",
"[\u0A02\u0a33\u0a36\u0a3c\u0a70\u0a71\u0A59\u0A5A\u0A5B\u0A5C\u0A5E\u0A72\u0A73\u0A74]", /*roundtrip exclusions*/
},
new String [] { "GURMUKHI-TELUGU",
"[:GURMUKHI:]", "[:TELUGU:]",
"[\u0c02\u0c03\u0c33\u0c36\u0c44\u0c43\u0c46\u0c4a\u0c56\u0c55\u0C0B\u0C0C\u0C0E\u0C12\u0C31\u0C37\u0C60\u0C61]", /*roundtrip exclusions*/
},
new String [] { "KANNADA-GURMUKHI",
"[:KANNADA:]", "[:GURMUKHI:]",
"[\u0A01\u0A02\u0a33\u0a36\u0a3c\u0a70\u0a71\u0A59\u0A5A\u0A5B\u0A5C\u0A5E\u0A72\u0A73\u0A74]", /*roundtrip exclusions*/
},
new String [] { "GURMUKHI-KANNADA",
"[:GURMUKHI:]", "[:KANNADA:]",
"[{\u0cb0\u0cbc}{\u0cb3\u0cbc}\u0c82\u0c83\u0cb3\u0cb6\u0cc4\u0cc3\u0cc6\u0cca\u0cd5\u0cd6\u0C8B\u0C8C\u0C8E\u0C92\u0CB1\u0CB7\u0cbd\u0CE0\u0CE1\u0cde]", /*roundtrip exclusions*/
},
new String [] { "MALAYALAM-GURMUKHI",
"[:MALAYALAM:]", "[:GURMUKHI:]",
"[\u0A01\u0A02\u0a4b\u0a4c\u0a33\u0a36\u0a3c\u0a70\u0a71\u0A59\u0A5A\u0A5B\u0A5C\u0A5E\u0A72\u0A73\u0A74]", /*roundtrip exclusions*/
},
new String [] { "GURMUKHI-MALAYALAM",
"[:GURMUKHI:]", "[:MALAYALAM:]",
"[\u0d02\u0d03\u0d33\u0d36\u0d43\u0d46\u0d4a\u0d4c\u0d57\u0D0B\u0D0C\u0D0E\u0D12\u0D31\u0D34\u0D37\u0D60\u0D61]", /*roundtrip exclusions*/
},
new String [] { "GUJARATI-ORIYA",
"[:GUJARATI:]", "[:ORIYA:]",
"[\u0b56\u0b57\u0B0C\u0B5F\u0B61\u0b70\u0b71]", /*roundtrip exclusions*/
},
new String [] { "ORIYA-GUJARATI",
"[:ORIYA:]", "[:GUJARATI:]",
"[\u0Ac4\u0Ac5\u0Ac9\u0Ac7\u0A8D\u0A91\u0AB5\u0Ad0]", /*roundtrip exclusions*/
},
new String [] { "TAMIL-GUJARATI",
"[:TAMIL:]", "[:GUJARATI:]",
"[\u0A81\u0a8c\u0abc\u0ac3\u0Ac4\u0Ac5\u0Ac9\u0Ac7\u0A8B\u0A8D\u0A91\u0A96\u0A97\u0A98\u0A9B\u0A9D\u0AA0\u0AA1\u0AA2\u0AA5\u0AA6\u0AA7\u0AAB\u0AAC\u0AAD\u0AB6\u0ABD\u0AD0\u0AE0\u0AE1]", /*roundtrip exclusions*/
},
new String [] { "GUJARATI-TAMIL",
"[:GUJARATI:]", "[:TAMIL:]",
"[\u0Bc6\u0Bca\u0Bd7\u0B8E\u0B92\u0BA9\u0BB1\u0BB4\u0BF0\u0BF1\u0BF2]", /*roundtrip exclusions*/
},
new String [] { "TELUGU-GUJARATI",
"[:TELUGU:]", "[:GUJARATI:]",
"[\u0abc\u0Ac5\u0Ac9\u0A8D\u0A91\u0ABD\u0Ad0]", /*roundtrip exclusions*/
},
new String [] { "GUJARATI-TELUGU",
"[:GUJARATI:]", "[:TELUGU:]",
"[\u0c46\u0c4a\u0c55\u0c56\u0C0C\u0C0E\u0C12\u0C31\u0C61]", /*roundtrip exclusions*/
},
new String [] { "KANNADA-GUJARATI",
"[:KANNADA:]", "[:GUJARATI:]",
"[\u0A81\u0abc\u0Ac5\u0Ac9\u0A8D\u0A91\u0ABD\u0Ad0]", /*roundtrip exclusions*/
},
new String [] { "GUJARATI-KANNADA",
"[:GUJARATI:]", "[:KANNADA:]",
"[{\u0cb0\u0cbc}{\u0cb3\u0cbc}\u0cc6\u0cca\u0cd5\u0cd6\u0C8C\u0C8E\u0C92\u0CB1\u0CDE\u0CE1]", /*roundtrip exclusions*/
},
new String [] { "MALAYALAM-GUJARATI",
"[:MALAYALAM:]", "[:GUJARATI:]",
"[\u0A81\u0ac4\u0acb\u0acc\u0abc\u0Ac5\u0Ac9\u0A8D\u0A91\u0ABD\u0Ad0]", /*roundtrip exclusions*/
},
new String [] { "GUJARATI-MALAYALAM",
"[:GUJARATI:]", "[:MALAYALAM:]",
"[\u0d46\u0d4a\u0d4c\u0d55\u0d57\u0D0C\u0D0E\u0D12\u0D31\u0D34\u0D61]", /*roundtrip exclusions*/
},
new String [] { "TAMIL-ORIYA",
"[:TAMIL:]", "[:ORIYA:]",
"[\u0B01\u0b3c\u0b43\u0b56\u0B0B\u0B0C\u0B16\u0B17\u0B18\u0B1B\u0B1D\u0B20\u0B21\u0B22\u0B25\u0B26\u0B27\u0B2B\u0B2C\u0B2D\u0B36\u0B3D\u0B5C\u0B5D\u0B5F\u0B60\u0B61\u0b70\u0b71]", /*roundtrip exclusions*/
},
new String [] { "ORIYA-TAMIL",
"[:ORIYA:]", "[:TAMIL:]",
"[\u0bc6\u0bca\u0bc7\u0B8E\u0B92\u0BA9\u0BB1\u0BB4\u0BB5\u0BF0\u0BF1\u0BF2]", /*roundtrip exclusions*/
},
new String [] { "TELUGU-ORIYA",
"[:TELUGU:]", "[:ORIYA:]",
"[\u0b3c\u0b57\u0b56\u0B3D\u0B5C\u0B5D\u0B5F\u0b70\u0b71]", /*roundtrip exclusions*/
},
new String [] { "ORIYA-TELUGU",
"[:ORIYA:]", "[:TELUGU:]",
"[\u0c44\u0c46\u0c4a\u0c55\u0c47\u0C0E\u0C12\u0C31\u0C35]", /*roundtrip exclusions*/
},
new String [] { "KANNADA-ORIYA",
"[:KANNADA:]", "[:ORIYA:]",
"[\u0B01\u0b3c\u0b57\u0B3D\u0B5C\u0B5D\u0B5F\u0b70\u0b71]", /*roundtrip exclusions*/
},
new String [] { "ORIYA-KANNADA",
"[:ORIYA:]", "[:KANNADA:]",
"[{\u0cb0\u0cbc}{\u0cb3\u0cbc}\u0cc4\u0cc6\u0cca\u0cd5\u0cc7\u0C8E\u0C92\u0CB1\u0CB5\u0CDE]", /*roundtrip exclusions*/
},
new String [] { "MALAYALAM-ORIYA",
"[:MALAYALAM:]", "[:ORIYA:]",
"[\u0B01\u0b3c\u0b56\u0B3D\u0B5C\u0B5D\u0B5F\u0b70\u0b71]", /*roundtrip exclusions*/
},
new String [] { "ORIYA-MALAYALAM",
"[:ORIYA:]", "[:MALAYALAM:]",
"[\u0D47\u0D46\u0D4a\u0D0E\u0D12\u0D31\u0D34\u0D35]", /*roundtrip exclusions*/
},
new String [] { "TELUGU-TAMIL",
"[:TELUGU:]", "[:TAMIL:]",
"[\u0bd7\u0ba9\u0bb4\u0BF0\u0BF1\u0BF2\u0BF0\u0BF1\u0BF2]", /*roundtrip exclusions*/
},
new String [] { "TAMIL-TELUGU",
"[:TAMIL:]", "[:TELUGU:]",
"[\u0C01\u0c43\u0c44\u0c46\u0c47\u0c55\u0c56\u0c66\u0C0B\u0C0C\u0C16\u0C17\u0C18\u0C1B\u0C1D\u0C20\u0C21\u0C22\u0C25\u0C26\u0C27\u0C2B\u0C2C\u0C2D\u0C36\u0C60\u0C61]", /*roundtrip exclusions*/
},
new String [] { "KANNADA-TAMIL",
"[:KANNADA:]", "[:TAMIL:]",
"[\u0bd7\u0bc6\u0ba9\u0bb4\u0BF0\u0BF1\u0BF2]", /*roundtrip exclusions*/
},
new String [] { "TAMIL-KANNADA",
"[:TAMIL:]", "[:KANNADA:]",
"[\u0cc3\u0cc4\u0cc6\u0cc7\u0cd5\u0cd6\u0C8B\u0C8C\u0C96\u0C97\u0C98\u0C9B\u0C9D\u0CA0\u0CA1\u0CA2\u0CA5\u0CA6\u0CA7\u0CAB\u0CAC\u0CAD\u0CB6\u0cbc\u0cbd\u0CDE\u0CE0\u0CE1]", /*roundtrip exclusions*/
},
new String [] { "MALAYALAM-TAMIL",
"[:MALAYALAM:]", "[:TAMIL:]",
"[\u0ba9\u0BF0\u0BF1\u0BF2]", /*roundtrip exclusions*/
},
new String [] { "TAMIL-MALAYALAM",
"[:TAMIL:]", "[:MALAYALAM:]",
"[\u0d43\u0d12\u0D0B\u0D0C\u0D16\u0D17\u0D18\u0D1B\u0D1D\u0D20\u0D21\u0D22\u0D25\u0D26\u0D27\u0D2B\u0D2C\u0D2D\u0D36\u0D60\u0D61]", /*roundtrip exclusions*/
},
new String [] { "KANNADA-TELUGU",
"[:KANNADA:]", "[:TELUGU:]",
"[\u0C01\u0c3f\u0c46\u0c48\u0c4a]", /*roundtrip exclusions*/
},
new String [] { "TELUGU-KANNADA",
"[:TELUGU:]", "[:KANNADA:]",
"[\u0cc8\u0cd5\u0cd6\u0CDE\u0cbc\u0cbd]", /*roundtrip exclusions*/
},
new String [] { "MALAYALAM-TELUGU",
"[:MALAYALAM:]", "[:TELUGU:]",
"[\u0C01\u0c44\u0c4a\u0c4c\u0c4b\u0c55\u0c56]", /*roundtrip exclusions*/
},
new String [] { "TELUGU-MALAYALAM",
"[:TELUGU:]", "[:MALAYALAM:]",
"[\u0d4c\u0d57\u0D34]", /*roundtrip exclusions*/
},
new String [] { "MALAYALAM-KANNADA",
"[:MALAYALAM:]", "[:KANNADA:]",
"[\u0cbc\u0cbd\u0cc4\u0cc6\u0cca\u0ccc\u0ccb\u0cd5\u0cd6\u0cDe]", /*roundtrip exclusions*/
},
new String [] { "Latin-Bengali",
latinForIndic, "[[:Bengali:][\u0964\u0965]]",
"[\u0965\u09f0-\u09fa\u09ce]", /*roundtrip exclusions*/
},
new String [] { "Latin-Gurmukhi",
latinForIndic, "[[:Gurmukhi:][\u0964\u0965]]",
"[\u0a01\u0a02\u0965\u0a72\u0a73\u0a74]", /*roundtrip exclusions*/
},
new String [] { "Latin-Gujarati",
latinForIndic, "[[:Gujarati:][\u0964\u0965]]",
"[\u0965]", /*roundtrip exclusions*/
},
new String [] { "Latin-Oriya",
latinForIndic, "[[:Oriya:][\u0964\u0965]]",
"[\u0965\u0b70]", /*roundtrip exclusions*/
},
new String [] { "Latin-Tamil",
latinForIndic, "[:Tamil:]",
"[\u0BF0\u0BF1\u0BF2]", /*roundtrip exclusions*/
},
new String [] { "Latin-Telugu",
latinForIndic, "[:Telugu:]",
null, /*roundtrip exclusions*/
},
new String [] { "Latin-Kannada",
latinForIndic, "[:Kannada:]",
null, /*roundtrip exclusions*/
},
new String [] { "Latin-Malayalam",
latinForIndic, "[:Malayalam:]",
null, /*roundtrip exclusions*/
},
};
public void TestInterIndic() throws Exception{
long start = System.currentTimeMillis();
int num = interIndicArray.length;
if (isQuick()) {
logln("Testing only 5 of "+ interIndicArray.length+" Skipping rest (use -e for exhaustive)");
num = 5;
}
if (skipIfBeforeICU(4,5,0)) {
logln("Warning: TestInterIndic needs to be updated to remove delete the section marked [:Age=4.1:] filter");
} else {
// We temporarily filter against Unicode 4.1, but we only do this
// before version 3.4.
errln("FAIL: TestInterIndic needs to be updated to remove delete the [:Age=4.1:] filter ");
return;
}
for(int i=0; i<num;i++){
logln("Testing " + interIndicArray[i][0] + " at index " + i );
/*TODO: uncomment the line below when the transliterator is fixed
new Test(interIndicArray[i][0], 50)
.test(interIndicArray[i][1],
interIndicArray[i][2],
interIndicArray[i][3],
this, new LegalIndic());
*/
/* comment lines below when transliterator is fixed */
// start
new Test(interIndicArray[i][0], 50)
.test("["+interIndicArray[i][1]+" &[:Age=4.1:]]",
"["+interIndicArray[i][2]+" &[:Age=4.1:]]",
interIndicArray[i][3],
this, new LegalIndic());
//end
}
showElapsed(start, "TestInterIndic");
}
//---------------
// End Indic
//---------------
public static class Legal {
public boolean is(String sourceString) {return true;}
}
public static class LegalJamo extends Legal {
// any initial must be followed by a medial (or initial)
// any medial must follow an initial (or medial)
// any final must follow a medial (or final)
public boolean is(String sourceString) {
try {
int t;
String decomp = Normalizer.normalize(sourceString, Normalizer.NFD);
for (int i = 0; i < decomp.length(); ++i) { // don't worry about surrogates
switch (getType(decomp.charAt(i))) {
case 0:
t = getType(decomp.charAt(i+1));
if (t != 0 && t != 1) return false;
break;
case 1:
t = getType(decomp.charAt(i-1));
if (t != 0 && t != 1) return false;
break;
case 2:
t = getType(decomp.charAt(i-1));
if (t != 1 && t != 2) return false;
break;
}
}
return true;
} catch (StringIndexOutOfBoundsException e) {
return false;
}
}
public int getType(char c) {
if ('\u1100' <= c && c <= '\u1112') return 0;
else if ('\u1161' <= c && c <= '\u1175') return 1;
else if ('\u11A8' <= c && c <= '\u11C2') return 2;
return -1; // other
}
}
//static BreakIterator thaiBreak = BreakIterator.getWordInstance(new Locale("th", "TH"));
// anything is legal except word ending with Logical-order-exception
public static class LegalThai extends Legal {
public boolean is(String sourceString) {
if (sourceString.length() == 0) return true;
char ch = sourceString.charAt(sourceString.length() - 1); // don't worry about surrogates.
if (UCharacter.hasBinaryProperty(ch, UProperty.LOGICAL_ORDER_EXCEPTION)) return false;
// disallow anything with a wordbreak between
/*
if (UTF16.countCodePoint(sourceString) <= 1) return true;
thaiBreak.setText(sourceString);
for (int pos = thaiBreak.first(); pos != BreakIterator.DONE; pos = thaiBreak.next()) {
if (pos > 0 && pos < sourceString.length()) {
System.out.println("Skipping " + Utility.escape(sourceString));
return false;
}
}
*/
return true;
}
}
// anything is legal except that Final letters can't be followed by letter; NonFinal must be
public static class LegalHebrew extends Legal {
static UnicodeSet FINAL = new UnicodeSet("[\u05DA\u05DD\u05DF\u05E3\u05E5]");
static UnicodeSet NON_FINAL = new UnicodeSet("[\u05DB\u05DE\u05E0\u05E4\u05E6]");
static UnicodeSet LETTER = new UnicodeSet("[:letter:]");
public boolean is(String sourceString) {
if (sourceString.length() == 0) return true;
// don't worry about surrogates.
for (int i = 0; i < sourceString.length(); ++i) {
char ch = sourceString.charAt(i);
char next = i+1 == sourceString.length() ? '\u0000' : sourceString.charAt(i);
if (FINAL.contains(ch)) {
if (LETTER.contains(next)) return false;
} else if (NON_FINAL.contains(ch)) {
if (!LETTER.contains(next)) return false;
}
}
return true;
}
}
public static class LegalGreek extends Legal {
boolean full;
public LegalGreek(boolean full) {
this.full = full;
}
static final char IOTA_SUBSCRIPT = '\u0345';
static final UnicodeSet breathing = new UnicodeSet("[\\u0313\\u0314']");
static final UnicodeSet validSecondVowel = new UnicodeSet("[\\u03C5\\u03B9\\u03A5\\u0399]");
public static boolean isVowel(char c) {
return "\u03B1\u03B5\u03B7\u03B9\u03BF\u03C5\u03C9\u0391\u0395\u0397\u0399\u039F\u03A5\u03A9".indexOf(c) >= 0;
}
public static boolean isRho(char c) {
return "\u03C1\u03A1".indexOf(c) >= 0;
}
public boolean is(String sourceString) {
try {
String decomp = Normalizer.normalize(sourceString, Normalizer.NFD);
// modern is simpler: don't care about anything but a grave
if (!full) {
//if (sourceString.equals("\u039C\u03C0")) return false;
for (int i = 0; i < decomp.length(); ++i) {
char c = decomp.charAt(i);
// exclude all the accents
if (c == '\u0313' || c == '\u0314' || c == '\u0300' || c == '\u0302'
|| c == '\u0342' || c == '\u0345'
) return false;
}
return true;
}
// Legal full Greek has breathing marks IFF there is a vowel or RHO at the start
// IF it has them, it has exactly one.
// IF it starts with a RHO, then the breathing mark must come before the second letter.
// IF it starts with a vowel, then it must before the third letter.
// it will only come after the second if of the format [vowel] [no iota subscript!] [upsilon or iota]
// Since there are no surrogates in greek, don't worry about them
boolean firstIsVowel = false;
boolean firstIsRho = false;
boolean noLetterYet = true;
int breathingCount = 0;
int letterCount = 0;
//int breathingPosition = -1;
for (int i = 0; i < decomp.length(); ++i) {
char c = decomp.charAt(i);
if (UCharacter.isLetter(c)) {
++letterCount;
if (firstIsVowel && !validSecondVowel.contains(c) && breathingCount == 0) return false;
if (noLetterYet) {
noLetterYet = false;
firstIsVowel = isVowel(c);
firstIsRho = isRho(c);
}
if (firstIsRho && letterCount == 2 && breathingCount == 0) return false;
}
if (c == IOTA_SUBSCRIPT && firstIsVowel && breathingCount == 0) return false;
if (breathing.contains(c)) {
// breathingPosition = i;
++breathingCount;
}
}
if (firstIsVowel || firstIsRho) return breathingCount == 1;
return breathingCount == 0;
} catch (Throwable t) {
System.out.println(t.getClass().getName() + " " + t.getMessage());
return true;
}
}
}
static class Test {
PrintWriter out;
private String transliteratorID;
private int errorLimit = 500;
private int errorCount = 0;
private long pairLimit = 1000000; // make default be 1M.
private int density = 100;
UnicodeSet sourceRange;
UnicodeSet targetRange;
UnicodeSet toSource;
UnicodeSet toTarget;
UnicodeSet roundtripExclusions;
RoundTripTest log;
Legal legalSource;
UnicodeSet badCharacters;
/*
* create a test for the given script transliterator.
*/
Test(String transliteratorID) {
this(transliteratorID, 100);
}
Test(String transliteratorID, int dens) {
this.transliteratorID = transliteratorID;
this.density = dens;
}
public void setErrorLimit(int limit) {
errorLimit = limit;
}
public void setPairLimit(int limit) {
pairLimit = limit;
}
// Added to do better equality check.
public static boolean isSame(String a, String b) {
if (a.equals(b)) return true;
if (a.equalsIgnoreCase(b) && isCamel(a)) return true;
a = Normalizer.normalize(a, Normalizer.NFD);
b = Normalizer.normalize(b, Normalizer.NFD);
if (a.equals(b)) return true;
if (a.equalsIgnoreCase(b) && isCamel(a)) return true;
return false;
}
/*
public boolean includesSome(UnicodeSet set, String a) {
int cp;
for (int i = 0; i < a.length(); i += UTF16.getCharCount(cp)) {
cp = UTF16.charAt(a, i);
if (set.contains(cp)) return true;
}
return false;
}
*/
public static boolean isCamel(String a) {
//System.out.println("CamelTest");
// see if string is of the form aB; e.g. lower, then upper or title
int cp;
boolean haveLower = false;
for (int i = 0; i < a.length(); i += UTF16.getCharCount(cp)) {
cp = UTF16.charAt(a, i);
int t = UCharacter.getType(cp);
//System.out.println("\t" + t + " " + Integer.toString(cp,16) + " " + UCharacter.getName(cp));
switch (t) {
case Character.UPPERCASE_LETTER:
if (haveLower) return true;
break;
case Character.TITLECASE_LETTER:
if (haveLower) return true;
// drop through, since second letter is lower.
case Character.LOWERCASE_LETTER:
haveLower = true;
break;
}
}
//System.out.println("FALSE");
return false;
}
static final UnicodeSet okAnyway = new UnicodeSet("[^[:Letter:]]");
static final UnicodeSet neverOk = new UnicodeSet("[:Other:]");
public void test(String srcRange, String trgtRange,
String rdtripExclusions, RoundTripTest logger, Legal legalSrc)
throws java.io.IOException {
test(srcRange, trgtRange, srcRange, rdtripExclusions, logger, legalSrc);
}
/**
* Will test
* that everything in sourceRange maps to targetRange,
* that everything in targetRange maps to backtoSourceRange
* that everything roundtrips from target -> source -> target, except roundtripExceptions
*/
public void test(String srcRange, String trgtRange, String backtoSourceRange,
String rdtripExclusions, RoundTripTest logger, Legal legalSrc)
throws java.io.IOException {
legalSource = legalSrc;
sourceRange = new UnicodeSet(srcRange);
sourceRange.removeAll(neverOk);
targetRange = new UnicodeSet(trgtRange);
targetRange.removeAll(neverOk);
toSource = new UnicodeSet(backtoSourceRange);
toSource.addAll(okAnyway);
toTarget = new UnicodeSet(trgtRange);
toTarget.addAll(okAnyway);
if (rdtripExclusions != null && rdtripExclusions.length() > 0) {
roundtripExclusions = new UnicodeSet(rdtripExclusions);
}else{
roundtripExclusions = new UnicodeSet(); // empty
}
log = logger;
log.logln(Utility.escape("Source: " + sourceRange));
log.logln(Utility.escape("Target: " + targetRange));
log.logln(Utility.escape("Exclude: " + roundtripExclusions));
if (log.isQuick()) log.logln("Abbreviated Test");
badCharacters = new UnicodeSet("[:other:]");
// make a UTF-8 output file we can read with a browser
// note: check that every transliterator transliterates the null string correctly!
// {dlf} reorganize so can run test in protected security environment
// String logFileName = "test_" + transliteratorID.replace('/', '_') + ".html";
// File lf = new File(logFileName);
// log.logln("Creating log file " + lf.getAbsoluteFile());
// out = new PrintWriter(new BufferedWriter(new OutputStreamWriter(
// new FileOutputStream(logFileName), "UTF8"), 4*1024));
ByteArrayOutputStream bast = new ByteArrayOutputStream();
out = new PrintWriter(new BufferedWriter(new OutputStreamWriter(
bast, "UTF8"), 4*1024));
//out.write('\uFFEF'); // BOM
out.println("<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 4.0 Transitional//EN\">");
out.println("<HTML><HEAD>");
out.println("<META content=\"text/html; charset=utf-8\" http-equiv=Content-Type></HEAD>");
out.println("<BODY bgcolor='#FFFFFF' style='font-family: Arial Unicode MS'>");
try {
test2();
} catch (TestTruncated e) {
out.println(e.getMessage());
}
out.println("</BODY></HTML>");
out.close();
if (errorCount > 0) {
try {
File translitErrorDirectory = new File("translitErrorLogs");
if (!translitErrorDirectory.exists()) {
translitErrorDirectory.mkdir();
}
String logFileName = "translitErrorLogs/test_" + transliteratorID.replace('/', '_') + ".html";
File lf = new File(logFileName);
logger.logln("Creating log file " + lf.getAbsoluteFile());
FileOutputStream fos = new FileOutputStream(lf);
fos.write(bast.toByteArray());
fos.close();
logger.errln(transliteratorID + " errors: "
+ errorCount + (errorCount > errorLimit ? " (at least!)" : "")
+ ", see " + lf.getAbsoluteFile());
}
catch (SecurityException e) {
logger.errln(transliteratorID + " errors: "
+ errorCount + (errorCount > errorLimit ? " (at least!)" : "")
+ ", no log provided due to protected test domain");
}
} else {
logger.logln(transliteratorID + " ok");
// new File(logFileName).delete();
}
}
// ok if at least one is not equal
public boolean checkIrrelevants(Transliterator t, String irrelevants) {
for (int i = 0; i < irrelevants.length(); ++i) {
char c = irrelevants.charAt(i);
String cs = UTF16.valueOf(c);
String targ = t.transliterate(cs);
if (cs.equals(targ)) return true;
}
return false;
}
AbbreviatedUnicodeSetIterator usi = new AbbreviatedUnicodeSetIterator();
AbbreviatedUnicodeSetIterator usi2 = new AbbreviatedUnicodeSetIterator();
Transliterator sourceToTarget;
Transliterator targetToSource;
public void test2() {
sourceToTarget = Transliterator.getInstance(transliteratorID);
targetToSource = sourceToTarget.getInverse();
log.logln("Checking that at least one irrevant characters is not NFC'ed");
out.println("<h3>Checking that at least one irrevant characters is not NFC'ed</h3>");
String irrelevants = "\u2000\u2001\u2126\u212A\u212B\u2329"; // string is from NFC_NO in the UCD
if (!checkIrrelevants(sourceToTarget, irrelevants)) {
logFails("" + getSourceTarget(transliteratorID) + ", Must not NFC everything");
}
if (!checkIrrelevants(targetToSource, irrelevants)) {
logFails("" + getTargetSource(transliteratorID) + ", irrelevants");
}
if (EXTRA_TESTS) {
log.logln("Checking that toRules works");
String rules = "";
Transliterator sourceToTarget2;
Transliterator targetToSource2;
try {
rules = sourceToTarget.toRules(false);
sourceToTarget2 = Transliterator.createFromRules("s2t2", rules, Transliterator.FORWARD);
if (PRINT_RULES) {
out.println("<h3>Forward Rules:</h3><p>");
out.println(TestUtility.replace(rules, "\n", "\u200E<br>\n\u200E"));
out.println("</p>");
}
rules = targetToSource.toRules(false);
targetToSource2 = Transliterator.createFromRules("t2s2", rules, Transliterator.FORWARD);
if (PRINT_RULES) {
out.println("<h3>Backward Rules:</h3><p>");
out.println(TestUtility.replace(rules, "\n", "\u200E<br>\n\u200E"));
out.println("</p>");
}
} catch (RuntimeException e) {
out.println("<h3>Broken Rules:</h3><p>");
out.println(TestUtility.replace(rules, "\n", "<br>\n"));
out.println("</p>");
out.flush();
throw e;
}
out.println("<h3>Roundtrip Exclusions: " + new UnicodeSet(roundtripExclusions) + "</h3>");
out.flush();
checkSourceTargetSource(sourceToTarget2);
checkTargetSourceTarget(targetToSource2);
}
UnicodeSet failSourceTarg = new UnicodeSet();
checkSourceTargetSingles(failSourceTarg);
boolean quickRt = checkSourceTargetDoubles(failSourceTarg);
UnicodeSet failTargSource = new UnicodeSet();
UnicodeSet failRound = new UnicodeSet();
checkTargetSourceSingles(failTargSource, failRound);
checkTargetSourceDoubles(quickRt, failTargSource, failRound);
}
private void checkSourceTargetSource(Transliterator sourceToTarget2) {
log.logln("Checking that source -> target -> source");
out.println("<h3>Checking that source -> target -> source</h3>");
usi.reset(sourceRange);
while (usi.next()) {
int c = usi.codepoint;
String cs = UTF16.valueOf(c);
String targ = sourceToTarget.transliterate(cs);
String targ2 = sourceToTarget2.transliterate(cs);
if (!targ.equals(targ2)) {
logToRulesFails("" + getSourceTarget(transliteratorID) + ", toRules", cs, targ, targ2);
}
}
}
private void checkTargetSourceTarget(Transliterator targetToSource2) {
log.logln("Checking that target -> source -> target");
out.println("<h3>Checking that target -> source -> target</h3>");
usi.reset(targetRange);
while (usi.next()) {
int c = usi.codepoint;
String cs = UTF16.valueOf(c);
String targ = targetToSource.transliterate(cs);
String targ2 = targetToSource2.transliterate(cs);
if (!targ.equals(targ2)) {
logToRulesFails("" + getTargetSource(transliteratorID) + ", toRules", cs, targ, targ2);
}
}
}
private void checkSourceTargetSingles(UnicodeSet failSourceTarg) {
log.logln("Checking that source characters convert to target - Singles");
out.println("<h3>Checking that source characters convert to target - Singles</h3>");
/*
for (char c = 0; c < 0xFFFF; ++c) {
if (!sourceRange.contains(c)) continue;
*/
usi.reset(sourceRange);
while (usi.next()) {
int c = usi.codepoint;
String cs = UTF16.valueOf(c);
String targ = sourceToTarget.transliterate(cs);
if (!toTarget.containsAll(targ)
|| badCharacters.containsSome(targ)) {
String targD = Normalizer.normalize(targ, Normalizer.NFD);
if (!toTarget.containsAll(targD)
|| badCharacters.containsSome(targD)) {
logWrongScript("" + getSourceTarget(transliteratorID) + "", cs, targ, toTarget, badCharacters);
failSourceTarg.add(c);
continue;
}
}
String cs2 = Normalizer.normalize(cs, Normalizer.NFD);
String targ2 = sourceToTarget.transliterate(cs2);
if (!targ.equals(targ2)) {
logNotCanonical("" + getSourceTarget(transliteratorID) + "", cs, targ, cs2, targ2);
}
}
}
private boolean checkSourceTargetDoubles(UnicodeSet failSourceTarg) {
log.logln("Checking that source characters convert to target - Doubles");
out.println("<h3>Checking that source characters convert to target - Doubles</h3>");
long count = 0;
/*
for (char c = 0; c < 0xFFFF; ++c) {
if (TestUtility.isUnassigned(c) ||
!sourceRange.contains(c)) continue;
if (failSourceTarg.get(c)) continue;
*/
UnicodeSet sourceRangeMinusFailures = new UnicodeSet(sourceRange);
sourceRangeMinusFailures.removeAll(failSourceTarg);
boolean quickRt = log.getInclusion() < 10;
usi.reset(sourceRangeMinusFailures, quickRt, density);
while (usi.next()) {
int c = usi.codepoint;
/*
for (char d = 0; d < 0xFFFF; ++d) {
if (TestUtility.isUnassigned(d) ||
!sourceRange.contains(d)) continue;
if (failSourceTarg.get(d)) continue;
*/
log.logln(count + "/" + pairLimit + " Checking starting with " + UTF16.valueOf(c));
usi2.reset(sourceRangeMinusFailures, quickRt, density);
while (usi2.next()) {
int d = usi2.codepoint;
++count;
String cs = UTF16.valueOf(c) + UTF16.valueOf(d);
String targ = sourceToTarget.transliterate(cs);
if (!toTarget.containsAll(targ)
|| badCharacters.containsSome(targ)) {
String targD = Normalizer.normalize(targ, Normalizer.NFD);
if (!toTarget.containsAll(targD)
|| badCharacters.containsSome(targD)) {
logWrongScript("" + getSourceTarget(transliteratorID) + "", cs, targ, toTarget, badCharacters);
continue;
}
}
String cs2 = Normalizer.normalize(cs, Normalizer.NFD);
String targ2 = sourceToTarget.transliterate(cs2);
if (!targ.equals(targ2)) {
logNotCanonical("" + getSourceTarget(transliteratorID) + "", cs, targ, cs2, targ2);
}
}
}
return quickRt;
}
void checkTargetSourceSingles(UnicodeSet failTargSource, UnicodeSet failRound) {
log.logln("Checking that target characters convert to source and back - Singles");
out.println("<h3>Checking that target characters convert to source and back - Singles</h3>");
/*for (char c = 0; c < 0xFFFF; ++c) {
if (TestUtility.isUnassigned(c) ||
!targetRange.contains(c)) continue;
*/
usi.reset(targetRange);
while (usi.next()) {
String cs;
int c;
if(usi.codepoint == UnicodeSetIterator.IS_STRING){
cs = usi.string;
c = UTF16.charAt(cs,0);
}else{
c = usi.codepoint;
cs =UTF16.valueOf(c);
}
String targ = targetToSource.transliterate(cs);
String reverse = sourceToTarget.transliterate(targ);
if (!toSource.containsAll(targ)
|| badCharacters.containsSome(targ)) {
String targD = Normalizer.normalize(targ, Normalizer.NFD);
if (!toSource.containsAll(targD)
|| badCharacters.containsSome(targD)) {
/*UnicodeSet temp = */new UnicodeSet().addAll(targD);
logWrongScript("" + getTargetSource(transliteratorID) + "", cs, targ, toSource, badCharacters);
failTargSource.add(cs);
continue;
}
}
if (!isSame(cs, reverse) && !roundtripExclusions.contains(c)
&& !roundtripExclusions.contains(cs)) {
logRoundTripFailure(cs,targetToSource.getID(), targ,sourceToTarget.getID(), reverse);
failRound.add(c);
continue;
}
String targ2 = Normalizer.normalize(targ, Normalizer.NFD);
String reverse2 = sourceToTarget.transliterate(targ2);
if (!reverse.equals(reverse2)) {
logNotCanonical("" + getTargetSource(transliteratorID) + "", targ, reverse, targ2, reverse2);
}
}
}
private void checkTargetSourceDoubles(boolean quickRt, UnicodeSet failTargSource,
UnicodeSet failRound) {
log.logln("Checking that target characters convert to source and back - Doubles");
out.println("<h3>Checking that target characters convert to source and back - Doubles</h3>");
long count = 0;
UnicodeSet targetRangeMinusFailures = new UnicodeSet(targetRange);
targetRangeMinusFailures.removeAll(failTargSource);
targetRangeMinusFailures.removeAll(failRound);
//char[] buf = new char[4]; // maximum we can have with 2 code points
/*
for (char c = 0; c < 0xFFFF; ++c) {
if (TestUtility.isUnassigned(c) ||
!targetRange.contains(c)) continue;
*/
usi.reset(targetRangeMinusFailures, quickRt, density);
while (usi.next()) {
int c = usi.codepoint;
//log.log(TestUtility.hex(c));
/*
for (char d = 0; d < 0xFFFF; ++d) {
if (TestUtility.isUnassigned(d) ||
!targetRange.contains(d)) continue;
*/
log.logln(count + "/" + pairLimit + " Checking starting with " + UTF16.valueOf(c));
usi2.reset(targetRangeMinusFailures, quickRt, density);
while (usi2.next()) {
int d = usi2.codepoint;
if (d < 0) break;
if (++count > pairLimit) {
throw new TestTruncated("Test truncated at " + pairLimit);
}
String cs = UTF16.valueOf(c) + UTF16.valueOf(d);
String targ = targetToSource.transliterate(cs);
String reverse = sourceToTarget.transliterate(targ);
if (!toSource.containsAll(targ) /*&& !failTargSource.contains(c) && !failTargSource.contains(d)*/
|| badCharacters.containsSome(targ)) {
String targD = Normalizer.normalize(targ, Normalizer.NFD);
if (!toSource.containsAll(targD) /*&& !failTargSource.contains(c) && !failTargSource.contains(d)*/
|| badCharacters.containsSome(targD)) {
logWrongScript("" + getTargetSource(transliteratorID) + "", cs, targ, toSource, badCharacters);
continue;
}
}
if (!isSame(cs, reverse) /*&& !failRound.contains(c) && !failRound.contains(d)*/
&& !roundtripExclusions.contains(c)
&& !roundtripExclusions.contains(d)
&& !roundtripExclusions.contains(cs)) {
logRoundTripFailure(cs,targetToSource.getID(), targ,sourceToTarget.getID(), reverse);
continue;
}
String targ2 = Normalizer.normalize(targ, Normalizer.NFD);
String reverse2 = sourceToTarget.transliterate(targ2);
if (!reverse.equals(reverse2)) {
logNotCanonical("" + getTargetSource(transliteratorID) + "", targ, reverse, targ2, reverse2);
}
}
}
log.logln("");
}
/**
* @param transliteratorID2
* @return
*/
private String getTargetSource(String transliteratorID2) {
return "Target-Source [" + transliteratorID2 + "]";
}
/**
* @param transliteratorID2
* @return
*/
private String getSourceTarget(String transliteratorID2) {
return "Source-Target [" + transliteratorID2 + "]";
}
final String info(String s) {
StringBuffer result = new StringBuffer();
result.append("\u200E").append(s).append("\u200E (").append(TestUtility.hex(s)).append("/");
if (false) { // append age, as a check
int cp = 0;
for (int i = 0; i < s.length(); i += UTF16.getCharCount(cp)) {
cp = UTF16.charAt(s, i);
if (i > 0) result.append(", ");
result.append(UCharacter.getAge(cp));
}
}
result.append(")");
return result.toString();
}
final void logWrongScript(String label, String from, String to,
UnicodeSet shouldContainAll, UnicodeSet shouldNotContainAny) {
if (++errorCount > errorLimit) {
throw new TestTruncated("Test truncated; too many failures");
}
String toD = Normalizer.normalize(to, Normalizer.NFD);
UnicodeSet temp = new UnicodeSet().addAll(toD);
UnicodeSet bad = new UnicodeSet(shouldNotContainAny).retainAll(temp)
.addAll(new UnicodeSet(temp).removeAll(shouldContainAll));
out.println("<br>Fail " + label + ": " +
info(from) + " => " + info(to) + " " + bad
);
}
final void logNotCanonical(String label, String from, String to, String fromCan, String toCan) {
if (++errorCount > errorLimit) {
throw new TestTruncated("Test truncated; too many failures");
}
out.println("<br>Fail (can.equiv) " + label + ": " +
info(from) + " => " + info(to) +
" -- " +
info(fromCan) + " => " + info(toCan) + ")"
);
}
final void logFails(String label) {
if (++errorCount > errorLimit) {
throw new TestTruncated("Test truncated; too many failures");
}
out.println("<br>Fail (can.equiv)" + label);
}
final void logToRulesFails(String label, String from, String to, String toCan) {
if (++errorCount > errorLimit) {
throw new TestTruncated("Test truncated; too many failures");
}
out.println("<br>Fail " + label + ": " +
info(from) + " => " + info(to) + ", " + info(toCan)
);
}
final void logRoundTripFailure(String from,String toID, String to,String backID, String back) {
if (!legalSource.is(from)) return; // skip illegals
if (++errorCount > errorLimit) {
throw new TestTruncated("Test truncated; too many failures");
}
out.println("<br>Fail Roundtrip: " +
info(from) + " "+toID+" => " + info(to) + " " + backID+" => " + info(back)
);
}
/*
* Characters to filter for source-target mapping completeness
* Typically is base alphabet, minus extended characters
* Default is ASCII letters for Latin
*/
/*
public boolean isSource(char c) {
if (!sourceRange.contains(c)) return false;
return true;
}
*/
/*
* Characters to check for target back to source mapping.
* Typically the same as the target script, plus punctuation
*/
/*
public boolean isReceivingSource(char c) {
if (!targetRange.contains(c)) return false;
return true;
}
*/
/*
* Characters to filter for target-source mapping
* Typically is base alphabet, minus extended characters
*/
/*
public boolean isTarget(char c) {
byte script = TestUtility.getScript(c);
if (script != targetScript) return false;
if (!TestUtility.isLetter(c)) return false;
if (targetRange != null && !targetRange.contains(c)) return false;
return true;
}
*/
/*
* Characters to check for target-source mapping
* Typically the same as the source script, plus punctuation
*/
/*
public boolean isReceivingTarget(char c) {
byte script = TestUtility.getScript(c);
return (script == targetScript || script == TestUtility.COMMON_SCRIPT);
}
final boolean isSource(String s) {
for (int i = 0; i < s.length(); ++i) {
if (!isSource(s.charAt(i))) return false;
}
return true;
}
final boolean isTarget(String s) {
for (int i = 0; i < s.length(); ++i) {
if (!isTarget(s.charAt(i))) return false;
}
return true;
}
final boolean isReceivingSource(String s) {
for (int i = 0; i < s.length(); ++i) {
if (!isReceivingSource(s.charAt(i))) return false;
}
return true;
}
final boolean isReceivingTarget(String s) {
for (int i = 0; i < s.length(); ++i) {
if (!isReceivingTarget(s.charAt(i))) return false;
}
return true;
}
*/
static class TestTruncated extends RuntimeException {
/**
* For serialization
*/
private static final long serialVersionUID = 3361828190488168323L;
TestTruncated(String msg) {
super(msg);
}
}
}
// static class TestHangul extends Test {
// TestHangul () {
// super("Jamo-Hangul", TestUtility.JAMO_SCRIPT, TestUtility.HANGUL_SCRIPT);
// }
//
// public boolean isSource(char c) {
// if (0x1113 <= c && c <= 0x1160) return false;
// if (0x1176 <= c && c <= 0x11F9) return false;
// if (0x3131 <= c && c <= 0x318E) return false;
// return super.isSource(c);
// }
// }
}