blob: 66336ad754f164acc49877929ba00ff8c8a7da28 [file] [log] [blame]
/*
**********************************************************************
* Copyright (C) 2000-2014, International Business Machines
* Corporation and others. All Rights Reserved.
**********************************************************************
* Date Name Description
* 05/23/00 aliu Creation.
**********************************************************************
*/
#include "unicode/utypes.h"
#if !UCONFIG_NO_TRANSLITERATION
#include "unicode/translit.h"
#include "rbt.h"
#include "unicode/calendar.h"
#include "unicode/uniset.h"
#include "unicode/uchar.h"
#include "unicode/normlzr.h"
#include "unicode/uchar.h"
#include "unicode/parseerr.h"
#include "unicode/usetiter.h"
#include "unicode/putil.h"
#include "unicode/uversion.h"
#include "unicode/locid.h"
#include "unicode/ulocdata.h"
#include "unicode/utf8.h"
#include "unicode/utf16.h"
#include "putilimp.h"
#include "cmemory.h"
#include "transrt.h"
#include "testutil.h"
#include <string.h>
#include <stdio.h>
#define CASE(id,test) case id: \
name = #test; \
if (exec) { \
logln(#test "---"); \
logln((UnicodeString)""); \
UDate t = uprv_getUTCtime(); \
test(); \
t = uprv_getUTCtime() - t; \
logln((UnicodeString)#test " took " + t/U_MILLIS_PER_DAY + " seconds"); \
} \
break
#define EXHAUSTIVE(id,test) case id: \
if(quick==FALSE){ \
name = #test; \
if (exec){ \
logln(#test "---"); \
logln((UnicodeString)""); \
test(); \
} \
}else{ \
name=""; \
} \
break
void
TransliteratorRoundTripTest::runIndexedTest(int32_t index, UBool exec,
const char* &name, char* /*par*/) {
switch (index) {
CASE(0, TestCyrillic);
// CASE(0,TestKana);
CASE(1,TestHiragana);
CASE(2,TestKatakana);
CASE(3,TestJamo);
CASE(4,TestHangul);
CASE(5,TestGreek);
CASE(6,TestGreekUNGEGN);
CASE(7,Testel);
CASE(8,TestDevanagariLatin);
CASE(9,TestInterIndic);
CASE(10, TestHebrew);
CASE(11, TestArabic);
CASE(12, TestHan);
default: name = ""; break;
}
}
//--------------------------------------------------------------------
// TransliteratorPointer
//--------------------------------------------------------------------
/**
* A transliterator pointer wrapper that deletes the contained
* pointer automatically when the wrapper goes out of scope.
* Sometimes called a "janitor" or "smart pointer".
*/
class TransliteratorPointer {
Transliterator* t;
// disallowed:
TransliteratorPointer(const TransliteratorPointer& rhs);
TransliteratorPointer& operator=(const TransliteratorPointer& rhs);
public:
TransliteratorPointer(Transliterator* adopted) {
t = adopted;
}
~TransliteratorPointer() {
delete t;
}
inline Transliterator* operator->() { return t; }
inline operator const Transliterator*() const { return t; }
inline operator Transliterator*() { return t; }
};
//--------------------------------------------------------------------
// Legal
//--------------------------------------------------------------------
class Legal {
public:
Legal() {}
virtual ~Legal() {}
virtual UBool is(const UnicodeString& /*sourceString*/) const {return TRUE;}
};
class LegalJamo : public 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:
LegalJamo() {}
virtual ~LegalJamo() {}
virtual UBool is(const UnicodeString& sourceString) const;
int getType(UChar c) const;
};
UBool LegalJamo::is(const UnicodeString& sourceString) const {
int t;
UnicodeString decomp;
UErrorCode ec = U_ZERO_ERROR;
Normalizer::decompose(sourceString, FALSE, 0, decomp, ec);
if (U_FAILURE(ec)) {
return FALSE;
}
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;
}
int LegalJamo::getType(UChar c) const {
if (0x1100 <= c && c <= 0x1112)
return 0;
else if (0x1161 <= c && c <= 0x1175)
return 1;
else if (0x11A8 <= c && c <= 0x11C2)
return 2;
return -1; // other
}
class LegalGreek : public Legal {
UBool full;
public:
LegalGreek(UBool _full) { full = _full; }
virtual ~LegalGreek() {}
virtual UBool is(const UnicodeString& sourceString) const;
static UBool isVowel(UChar c);
static UBool isRho(UChar c);
};
UBool LegalGreek::is(const UnicodeString& sourceString) const {
UnicodeString decomp;
UErrorCode ec = U_ZERO_ERROR;
Normalizer::decompose(sourceString, FALSE, 0, decomp, ec);
// modern is simpler: don't care about anything but a grave
if (full == FALSE) {
// A special case which is legal but should be
// excluded from round trip
// if (sourceString == UnicodeString("\\u039C\\u03C0", "")) {
// return FALSE;
// }
for (int32_t i = 0; i < decomp.length(); ++i) {
UChar c = decomp.charAt(i);
// exclude all the accents
if (c == 0x0313 || c == 0x0314 || c == 0x0300 || c == 0x0302
|| c == 0x0342 || c == 0x0345
) return FALSE;
}
return TRUE;
}
// Legal 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.
// Since there are no surrogates in greek, don't worry about them
UBool firstIsVowel = FALSE;
UBool firstIsRho = FALSE;
UBool noLetterYet = TRUE;
int32_t breathingCount = 0;
int32_t letterCount = 0;
for (int32_t i = 0; i < decomp.length(); ++i) {
UChar c = decomp.charAt(i);
if (u_isalpha(c)) {
++letterCount;
if (noLetterYet) {
noLetterYet = FALSE;
firstIsVowel = isVowel(c);
firstIsRho = isRho(c);
}
if (firstIsRho && letterCount == 2 && breathingCount == 0) {
return FALSE;
}
}
if (c == 0x0313 || c == 0x0314) {
++breathingCount;
}
}
if (firstIsVowel || firstIsRho) return breathingCount == 1;
return breathingCount == 0;
}
UBool LegalGreek::isVowel(UChar c) {
switch (c) {
case 0x03B1:
case 0x03B5:
case 0x03B7:
case 0x03B9:
case 0x03BF:
case 0x03C5:
case 0x03C9:
case 0x0391:
case 0x0395:
case 0x0397:
case 0x0399:
case 0x039F:
case 0x03A5:
case 0x03A9:
return TRUE;
}
return FALSE;
}
UBool LegalGreek::isRho(UChar c) {
switch (c) {
case 0x03C1:
case 0x03A1:
return TRUE;
}
return FALSE;
}
// AbbreviatedUnicodeSetIterator Interface ---------------------------------------------
//
// Iterate over a UnicodeSet, only returning a sampling of the contained code points.
// density is the approximate total number of code points to returned for the entire set.
//
class AbbreviatedUnicodeSetIterator : public UnicodeSetIterator {
public :
AbbreviatedUnicodeSetIterator();
virtual ~AbbreviatedUnicodeSetIterator();
void reset(UnicodeSet& set, UBool abb = FALSE, int32_t density = 100);
/**
* ICU "poor man's RTTI", returns a UClassID for this class.
*/
static inline UClassID getStaticClassID() { return (UClassID)&fgClassID; }
/**
* ICU "poor man's RTTI", returns a UClassID for the actual class.
*/
virtual inline UClassID getDynamicClassID() const { return getStaticClassID(); }
private :
UBool abbreviated;
int32_t perRange; // The maximum number of code points to be returned from each range
virtual void loadRange(int32_t range);
/**
* The address of this static class variable serves as this class's ID
* for ICU "poor man's RTTI".
*/
static const char fgClassID;
};
// AbbreviatedUnicodeSetIterator Implementation ---------------------------------------
const char AbbreviatedUnicodeSetIterator::fgClassID=0;
AbbreviatedUnicodeSetIterator::AbbreviatedUnicodeSetIterator() :
UnicodeSetIterator(), abbreviated(FALSE) {
}
AbbreviatedUnicodeSetIterator::~AbbreviatedUnicodeSetIterator() {
}
void AbbreviatedUnicodeSetIterator::reset(UnicodeSet& newSet, UBool abb, int32_t density) {
UnicodeSetIterator::reset(newSet);
abbreviated = abb;
perRange = newSet.getRangeCount();
if (perRange != 0) {
perRange = density / perRange;
}
}
void AbbreviatedUnicodeSetIterator::loadRange(int32_t myRange) {
UnicodeSetIterator::loadRange(myRange);
if (abbreviated && (endElement > nextElement + perRange)) {
endElement = nextElement + perRange;
}
}
//--------------------------------------------------------------------
// RTTest Interface
//--------------------------------------------------------------------
class RTTest : public IntlTest {
// PrintWriter out;
UnicodeString transliteratorID;
int32_t errorLimit;
int32_t errorCount;
int32_t pairLimit;
UnicodeSet sourceRange;
UnicodeSet targetRange;
UnicodeSet toSource;
UnicodeSet toTarget;
UnicodeSet roundtripExclusionsSet;
IntlTest* parent;
Legal* legalSource; // NOT owned
UnicodeSet badCharacters;
public:
/*
* create a test for the given script transliterator.
*/
RTTest(const UnicodeString& transliteratorIDStr);
virtual ~RTTest();
void setErrorLimit(int32_t limit);
void setPairLimit(int32_t limit);
void test(const UnicodeString& sourceRange,
const UnicodeString& targetRange,
const char* roundtripExclusions,
IntlTest* parent,
UBool quick,
Legal* adoptedLegal,
int32_t density = 100);
private:
// Added to do better equality check.
static UBool isSame(const UnicodeString& a, const UnicodeString& b);
static UBool isCamel(const UnicodeString& a);
UBool checkIrrelevants(Transliterator *t, const UnicodeString& irrelevants);
void test2(UBool quick, int32_t density);
void logWrongScript(const UnicodeString& label,
const UnicodeString& from,
const UnicodeString& to);
void logNotCanonical(const UnicodeString& label,
const UnicodeString& from,
const UnicodeString& to,
const UnicodeString& fromCan,
const UnicodeString& toCan);
void logFails(const UnicodeString& label);
void logToRulesFails(const UnicodeString& label,
const UnicodeString& from,
const UnicodeString& to,
const UnicodeString& toCan);
void logRoundTripFailure(const UnicodeString& from,
const UnicodeString& toID,
const UnicodeString& to,
const UnicodeString& backID,
const UnicodeString& back);
};
//--------------------------------------------------------------------
// RTTest Implementation
//--------------------------------------------------------------------
/*
* create a test for the given script transliterator.
*/
RTTest::RTTest(const UnicodeString& transliteratorIDStr) {
transliteratorID = transliteratorIDStr;
errorLimit = 500;
errorCount = 0;
pairLimit = 0x10000;
}
RTTest::~RTTest() {
}
void RTTest::setErrorLimit(int32_t limit) {
errorLimit = limit;
}
void RTTest::setPairLimit(int32_t limit) {
pairLimit = limit;
}
UBool RTTest::isSame(const UnicodeString& a, const UnicodeString& b) {
if (a == b) return TRUE;
if (a.caseCompare(b, U_FOLD_CASE_DEFAULT)==0 && isCamel(a)) return TRUE;
UnicodeString aa, bb;
UErrorCode ec = U_ZERO_ERROR;
Normalizer::decompose(a, FALSE, 0, aa, ec);
Normalizer::decompose(b, FALSE, 0, bb, ec);
if (aa == bb) return TRUE;
if (aa.caseCompare(bb, U_FOLD_CASE_DEFAULT)==0 && isCamel(aa)) return TRUE;
return FALSE;
}
UBool RTTest::isCamel(const UnicodeString& a) {
// see if string is of the form aB; e.g. lower, then upper or title
UChar32 cp;
UBool haveLower = FALSE;
for (int32_t i = 0; i < a.length(); i += U16_LENGTH(cp)) {
cp = a.char32At(i);
int8_t t = u_charType(cp);
switch (t) {
case U_UPPERCASE_LETTER:
if (haveLower) return TRUE;
break;
case U_TITLECASE_LETTER:
if (haveLower) return TRUE;
// drop through, since second letter is lower.
case U_LOWERCASE_LETTER:
haveLower = TRUE;
break;
}
}
return FALSE;
}
void RTTest::test(const UnicodeString& sourceRangeVal,
const UnicodeString& targetRangeVal,
const char* roundtripExclusions,
IntlTest* logVal, UBool quickRt,
Legal* adoptedLegal,
int32_t density)
{
UErrorCode status = U_ZERO_ERROR;
this->parent = logVal;
this->legalSource = adoptedLegal;
UnicodeSet neverOk("[:Other:]", status);
UnicodeSet okAnyway("[^[:Letter:]]", status);
if (U_FAILURE(status)) {
parent->dataerrln("FAIL: Initializing UnicodeSet with [:Other:] or [^[:Letter:]] - Error: %s", u_errorName(status));
return;
}
this->sourceRange.clear();
this->sourceRange.applyPattern(sourceRangeVal, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: UnicodeSet::applyPattern(" +
sourceRangeVal + ")");
return;
}
this->sourceRange.removeAll(neverOk);
this->targetRange.clear();
this->targetRange.applyPattern(targetRangeVal, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: UnicodeSet::applyPattern(" +
targetRangeVal + ")");
return;
}
this->targetRange.removeAll(neverOk);
this->toSource.clear();
this->toSource.applyPattern(sourceRangeVal, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: UnicodeSet::applyPattern(" +
sourceRangeVal + ")");
return;
}
this->toSource.addAll(okAnyway);
this->toTarget.clear();
this->toTarget.applyPattern(targetRangeVal, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: UnicodeSet::applyPattern(" +
targetRangeVal + ")");
return;
}
this->toTarget.addAll(okAnyway);
this->roundtripExclusionsSet.clear();
if (roundtripExclusions != NULL && strlen(roundtripExclusions) > 0) {
this->roundtripExclusionsSet.applyPattern(UnicodeString(roundtripExclusions, -1, US_INV), status);
if (U_FAILURE(status)) {
parent->errln("FAIL: UnicodeSet::applyPattern(%s)", roundtripExclusions);
return;
}
}
badCharacters.clear();
badCharacters.applyPattern("[:Other:]", status);
if (U_FAILURE(status)) {
parent->errln("FAIL: UnicodeSet::applyPattern([:Other:])");
return;
}
test2(quickRt, density);
if (errorCount > 0) {
char str[100];
int32_t length = transliteratorID.extract(str, 100, NULL, status);
str[length] = 0;
parent->errln("FAIL: %s errors: %d %s", str, errorCount, (errorCount > errorLimit ? " (at least!)" : " ")); // + ", see " + logFileName);
} else {
char str[100];
int32_t length = transliteratorID.extract(str, 100, NULL, status);
str[length] = 0;
parent->logln("%s ok", str);
}
}
UBool RTTest::checkIrrelevants(Transliterator *t,
const UnicodeString& irrelevants) {
for (int i = 0; i < irrelevants.length(); ++i) {
UChar c = irrelevants.charAt(i);
UnicodeString srcStr(c);
UnicodeString targ = srcStr;
t->transliterate(targ);
if (srcStr == targ) return TRUE;
}
return FALSE;
}
void RTTest::test2(UBool quickRt, int32_t density) {
UnicodeString srcStr, targ, reverse;
UErrorCode status = U_ZERO_ERROR;
UParseError parseError ;
TransliteratorPointer sourceToTarget(
Transliterator::createInstance(transliteratorID, UTRANS_FORWARD, parseError,
status));
if ((Transliterator *)sourceToTarget == NULL) {
parent->dataerrln("FAIL: createInstance(" + transliteratorID +
") returned NULL. Error: " + u_errorName(status)
+ "\n\tpreContext : " + prettify(parseError.preContext)
+ "\n\tpostContext : " + prettify(parseError.postContext));
return;
}
TransliteratorPointer targetToSource(sourceToTarget->createInverse(status));
if ((Transliterator *)targetToSource == NULL) {
parent->errln("FAIL: " + transliteratorID +
".createInverse() returned NULL. Error:" + u_errorName(status)
+ "\n\tpreContext : " + prettify(parseError.preContext)
+ "\n\tpostContext : " + prettify(parseError.postContext));
return;
}
AbbreviatedUnicodeSetIterator usi;
AbbreviatedUnicodeSetIterator usi2;
parent->logln("Checking that at least one irrelevant character is not NFC'ed");
// string is from NFC_NO in the UCD
UnicodeString irrelevants = CharsToUnicodeString("\\u2000\\u2001\\u2126\\u212A\\u212B\\u2329");
if (checkIrrelevants(sourceToTarget, irrelevants) == FALSE) {
logFails("Source-Target, irrelevants");
}
if (checkIrrelevants(targetToSource, irrelevants) == FALSE) {
logFails("Target-Source, irrelevants");
}
if (!quickRt){
parent->logln("Checking that toRules works");
UnicodeString rules = "";
UParseError parseError;
rules = sourceToTarget->toRules(rules, TRUE);
// parent->logln((UnicodeString)"toRules => " + rules);
TransliteratorPointer sourceToTarget2(Transliterator::createFromRules(
"s2t2", rules,
UTRANS_FORWARD,
parseError, status));
if (U_FAILURE(status)) {
parent->errln("FAIL: createFromRules %s\n", u_errorName(status));
return;
}
rules = targetToSource->toRules(rules, FALSE);
TransliteratorPointer targetToSource2(Transliterator::createFromRules(
"t2s2", rules,
UTRANS_FORWARD,
parseError, status));
if (U_FAILURE(status)) {
parent->errln("FAIL: createFromRules %s\n", u_errorName(status));
return;
}
usi.reset(sourceRange);
for (;;) {
if (!usi.next() || usi.isString()) break;
UChar32 c = usi.getCodepoint();
UnicodeString srcStr((UChar32)c);
UnicodeString targ = srcStr;
sourceToTarget->transliterate(targ);
UnicodeString targ2 = srcStr;
sourceToTarget2->transliterate(targ2);
if (targ != targ2) {
logToRulesFails("Source-Target, toRules", srcStr, targ, targ2);
}
}
usi.reset(targetRange);
for (;;) {
if (!usi.next() || usi.isString()) break;
UChar32 c = usi.getCodepoint();
UnicodeString srcStr((UChar32)c);
UnicodeString targ = srcStr;
targetToSource->transliterate(targ);
UnicodeString targ2 = srcStr;
targetToSource2->transliterate(targ2);
if (targ != targ2) {
logToRulesFails("Target-Source, toRules", srcStr, targ, targ2);
}
}
}
parent->logln("Checking that all source characters convert to target - Singles");
UnicodeSet failSourceTarg;
usi.reset(sourceRange);
for (;;) {
if (!usi.next() || usi.isString()) break;
UChar32 c = usi.getCodepoint();
UnicodeString srcStr((UChar32)c);
UnicodeString targ = srcStr;
sourceToTarget->transliterate(targ);
if (toTarget.containsAll(targ) == FALSE
|| badCharacters.containsSome(targ) == TRUE) {
UnicodeString targD;
Normalizer::decompose(targ, FALSE, 0, targD, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: Internal error during decomposition %s\n", u_errorName(status));
return;
}
if (toTarget.containsAll(targD) == FALSE ||
badCharacters.containsSome(targD) == TRUE) {
logWrongScript("Source-Target", srcStr, targ);
failSourceTarg.add(c);
continue;
}
}
UnicodeString cs2;
Normalizer::decompose(srcStr, FALSE, 0, cs2, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: Internal error during decomposition %s\n", u_errorName(status));
return;
}
UnicodeString targ2 = cs2;
sourceToTarget->transliterate(targ2);
if (targ != targ2) {
logNotCanonical("Source-Target", srcStr, targ,cs2, targ2);
}
}
parent->logln("Checking that all source characters convert to target - Doubles");
UnicodeSet sourceRangeMinusFailures(sourceRange);
sourceRangeMinusFailures.removeAll(failSourceTarg);
usi.reset(sourceRangeMinusFailures, quickRt, density);
for (;;) {
if (!usi.next() || usi.isString()) break;
UChar32 c = usi.getCodepoint();
usi2.reset(sourceRangeMinusFailures, quickRt, density);
for (;;) {
if (!usi2.next() || usi2.isString()) break;
UChar32 d = usi2.getCodepoint();
UnicodeString srcStr;
srcStr += (UChar32)c;
srcStr += (UChar32)d;
UnicodeString targ = srcStr;
sourceToTarget->transliterate(targ);
if (toTarget.containsAll(targ) == FALSE ||
badCharacters.containsSome(targ) == TRUE)
{
UnicodeString targD;
Normalizer::decompose(targ, FALSE, 0, targD, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: Internal error during decomposition %s\n", u_errorName(status));
return;
}
if (toTarget.containsAll(targD) == FALSE ||
badCharacters.containsSome(targD) == TRUE) {
logWrongScript("Source-Target", srcStr, targ);
continue;
}
}
UnicodeString cs2;
Normalizer::decompose(srcStr, FALSE, 0, cs2, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: Internal error during decomposition %s\n", u_errorName(status));
return;
}
UnicodeString targ2 = cs2;
sourceToTarget->transliterate(targ2);
if (targ != targ2) {
logNotCanonical("Source-Target", srcStr, targ, cs2,targ2);
}
}
}
parent->logln("Checking that target characters convert to source and back - Singles");
UnicodeSet failTargSource;
UnicodeSet failRound;
usi.reset(targetRange);
for (;;) {
if (!usi.next()) break;
if(usi.isString()){
srcStr = usi.getString();
}else{
srcStr = (UnicodeString)usi.getCodepoint();
}
UChar32 c = srcStr.char32At(0);
targ = srcStr;
targetToSource->transliterate(targ);
reverse = targ;
sourceToTarget->transliterate(reverse);
if (toSource.containsAll(targ) == FALSE ||
badCharacters.containsSome(targ) == TRUE) {
UnicodeString targD;
Normalizer::decompose(targ, FALSE, 0, targD, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: Internal error during decomposition%s\n", u_errorName(status));
return;
}
if (toSource.containsAll(targD) == FALSE) {
logWrongScript("Target-Source", srcStr, targ);
failTargSource.add(c);
continue;
}
if (badCharacters.containsSome(targD) == TRUE) {
logWrongScript("Target-Source*", srcStr, targ);
failTargSource.add(c);
continue;
}
}
if (isSame(srcStr, reverse) == FALSE &&
roundtripExclusionsSet.contains(c) == FALSE
&& roundtripExclusionsSet.contains(srcStr)==FALSE) {
logRoundTripFailure(srcStr,targetToSource->getID(), targ,sourceToTarget->getID(), reverse);
failRound.add(c);
continue;
}
UnicodeString targ2;
Normalizer::decompose(targ, FALSE, 0, targ2, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: Internal error during decomposition%s\n", u_errorName(status));
return;
}
UnicodeString reverse2 = targ2;
sourceToTarget->transliterate(reverse2);
if (reverse != reverse2) {
logNotCanonical("Target-Source", targ, reverse, targ2, reverse2);
}
}
parent->logln("Checking that target characters convert to source and back - Doubles");
int32_t count = 0;
UnicodeSet targetRangeMinusFailures(targetRange);
targetRangeMinusFailures.removeAll(failTargSource);
targetRangeMinusFailures.removeAll(failRound);
usi.reset(targetRangeMinusFailures, quickRt, density);
UnicodeString targ2;
UnicodeString reverse2;
UnicodeString targD;
for (;;) {
if (!usi.next() || usi.isString()) break;
UChar32 c = usi.getCodepoint();
if (++count > pairLimit) {
//throw new TestTruncated("Test truncated at " + pairLimit + " x 64k pairs");
parent->logln("");
parent->logln((UnicodeString)"Test truncated at " + pairLimit + " x 64k pairs");
return;
}
usi2.reset(targetRangeMinusFailures, quickRt, density);
for (;;) {
if (!usi2.next() || usi2.isString())
break;
UChar32 d = usi2.getCodepoint();
srcStr.truncate(0); // empty the variable without construction/destruction
srcStr += c;
srcStr += d;
targ = srcStr;
targetToSource->transliterate(targ);
reverse = targ;
sourceToTarget->transliterate(reverse);
if (toSource.containsAll(targ) == FALSE ||
badCharacters.containsSome(targ) == TRUE)
{
targD.truncate(0); // empty the variable without construction/destruction
Normalizer::decompose(targ, FALSE, 0, targD, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: Internal error during decomposition%s\n",
u_errorName(status));
return;
}
if (toSource.containsAll(targD) == FALSE
|| badCharacters.containsSome(targD) == TRUE)
{
logWrongScript("Target-Source", srcStr, targ);
continue;
}
}
if (isSame(srcStr, reverse) == FALSE &&
roundtripExclusionsSet.contains(c) == FALSE&&
roundtripExclusionsSet.contains(d) == FALSE &&
roundtripExclusionsSet.contains(srcStr)== FALSE)
{
logRoundTripFailure(srcStr,targetToSource->getID(), targ, sourceToTarget->getID(),reverse);
continue;
}
targ2.truncate(0); // empty the variable without construction/destruction
Normalizer::decompose(targ, FALSE, 0, targ2, status);
if (U_FAILURE(status)) {
parent->errln("FAIL: Internal error during decomposition%s\n", u_errorName(status));
return;
}
reverse2 = targ2;
sourceToTarget->transliterate(reverse2);
if (reverse != reverse2) {
logNotCanonical("Target-Source", targ,reverse, targ2, reverse2);
}
}
}
parent->logln("");
}
void RTTest::logWrongScript(const UnicodeString& label,
const UnicodeString& from,
const UnicodeString& to) {
parent->errln((UnicodeString)"FAIL " +
label + ": " +
from + "(" + TestUtility::hex(from) + ") => " +
to + "(" + TestUtility::hex(to) + ")");
++errorCount;
}
void RTTest::logNotCanonical(const UnicodeString& label,
const UnicodeString& from,
const UnicodeString& to,
const UnicodeString& fromCan,
const UnicodeString& toCan) {
parent->errln((UnicodeString)"FAIL (can.equiv)" +
label + ": " +
from + "(" + TestUtility::hex(from) + ") => " +
to + "(" + TestUtility::hex(to) + ")" +
fromCan + "(" + TestUtility::hex(fromCan) + ") => " +
toCan + " (" +
TestUtility::hex(toCan) + ")"
);
++errorCount;
}
void RTTest::logFails(const UnicodeString& label) {
parent->errln((UnicodeString)"<br>FAIL " + label);
++errorCount;
}
void RTTest::logToRulesFails(const UnicodeString& label,
const UnicodeString& from,
const UnicodeString& to,
const UnicodeString& otherTo)
{
parent->errln((UnicodeString)"FAIL: " +
label + ": " +
from + "(" + TestUtility::hex(from) + ") => " +
to + "(" + TestUtility::hex(to) + ")" +
"!=" +
otherTo + " (" +
TestUtility::hex(otherTo) + ")"
);
++errorCount;
}
void RTTest::logRoundTripFailure(const UnicodeString& from,
const UnicodeString& toID,
const UnicodeString& to,
const UnicodeString& backID,
const UnicodeString& back) {
if (legalSource->is(from) == FALSE) return; // skip illegals
parent->errln((UnicodeString)"FAIL Roundtrip: " +
from + "(" + TestUtility::hex(from) + ") => " +
to + "(" + TestUtility::hex(to) + ") "+toID+" => " +
back + "(" + TestUtility::hex(back) + ") "+backID+" => ");
++errorCount;
}
//--------------------------------------------------------------------
// Specific Tests
//--------------------------------------------------------------------
/*
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 const char KATAKANA[] = "[[[:katakana:][\\u30A1-\\u30FA\\u30FC]]-[\\u30FF\\u31F0-\\u31FF]-[:^age=5.2:]]";
static const char HIRAGANA[] = "[[[:hiragana:][\\u3040-\\u3094]]-[\\u3095-\\u3096\\u309F-\\u30A0\\U0001F200-\\U0001F2FF]-[:^age=5.2:]]";
static const char LENGTH[] = "[\\u30FC]";
static const char HALFWIDTH_KATAKANA[] = "[\\uFF65-\\uFF9D]";
static const char KATAKANA_ITERATION[] = "[\\u30FD\\u30FE]";
static const char HIRAGANA_ITERATION[] = "[\\u309D\\u309E]";
static const int32_t TEMP_MAX=256;
void TransliteratorRoundTripTest::TestKana() {
RTTest test("Katakana-Hiragana");
Legal *legal = new Legal();
char temp[TEMP_MAX];
strcpy(temp, "[");
strcat(temp, HALFWIDTH_KATAKANA);
strcat(temp, LENGTH);
strcat(temp, "]");
test.test(KATAKANA, UnicodeString("[") + HIRAGANA + LENGTH + UnicodeString("]"),
temp,
this, quick, legal);
delete legal;
}
void TransliteratorRoundTripTest::TestHiragana() {
RTTest test("Latin-Hiragana");
Legal *legal = new Legal();
test.test(UnicodeString("[a-zA-Z]", ""),
UnicodeString(HIRAGANA, -1, US_INV),
HIRAGANA_ITERATION, this, quick, legal);
delete legal;
}
void TransliteratorRoundTripTest::TestKatakana() {
RTTest test("Latin-Katakana");
Legal *legal = new Legal();
char temp[TEMP_MAX];
strcpy(temp, "[");
strcat(temp, KATAKANA_ITERATION);
strcat(temp, HALFWIDTH_KATAKANA);
strcat(temp, "]");
test.test(UnicodeString("[a-zA-Z]", ""),
UnicodeString(KATAKANA, -1, US_INV),
temp,
this, quick, legal);
delete legal;
}
void TransliteratorRoundTripTest::TestJamo() {
RTTest t("Latin-Jamo");
Legal *legal = new LegalJamo();
t.test(UnicodeString("[a-zA-Z]", ""),
UnicodeString("[\\u1100-\\u1112 \\u1161-\\u1175 \\u11A8-\\u11C2]",
""),
NULL, this, quick, legal);
delete legal;
}
void TransliteratorRoundTripTest::TestHangul() {
RTTest t("Latin-Hangul");
Legal *legal = new Legal();
if (quick) t.setPairLimit(1000);
t.test(UnicodeString("[a-zA-Z]", ""),
UnicodeString("[\\uAC00-\\uD7A4]", ""),
NULL, this, quick, legal, 1);
delete legal;
}
#define ASSERT_SUCCESS(status) {if (U_FAILURE(status)) { \
errcheckln(status, "error at file %s, line %d, status = %s", __FILE__, __LINE__, \
u_errorName(status)); \
return;}}
static void writeStringInU8(FILE *out, const UnicodeString &s) {
int i;
for (i=0; i<s.length(); i=s.moveIndex32(i, 1)) {
UChar32 c = s.char32At(i);
uint8_t bufForOneChar[10];
UBool isError = FALSE;
int32_t destIdx = 0;
U8_APPEND(bufForOneChar, destIdx, (int32_t)sizeof(bufForOneChar), c, isError);
fwrite(bufForOneChar, 1, destIdx, out);
}
}
void TransliteratorRoundTripTest::TestHan() {
UErrorCode status = U_ZERO_ERROR;
LocalULocaleDataPointer uld(ulocdata_open("zh",&status));
LocalUSetPointer USetExemplars(ulocdata_getExemplarSet(uld.getAlias(), uset_openEmpty(), 0, ULOCDATA_ES_STANDARD, &status));
ASSERT_SUCCESS(status);
UnicodeString source;
UChar32 c;
int i;
for (i=0; ;i++) {
// Add all of the Chinese exemplar chars to the string "source".
c = uset_charAt(USetExemplars.getAlias(), i);
if (c == (UChar32)-1) {
break;
}
source.append(c);
}
// transform with Han translit
Transliterator *hanTL = Transliterator::createInstance("Han-Latin", UTRANS_FORWARD, status);
ASSERT_SUCCESS(status);
UnicodeString target=source;
hanTL->transliterate(target);
// now verify that there are no Han characters left
UnicodeSet allHan("[:han:]", status);
ASSERT_SUCCESS(status);
if (allHan.containsSome(target)) {
errln("file %s, line %d, No Han must be left after Han-Latin transliteration",
__FILE__, __LINE__);
}
// check the pinyin translit
Transliterator *pn = Transliterator::createInstance("Latin-NumericPinyin", UTRANS_FORWARD, status);
ASSERT_SUCCESS(status);
UnicodeString target2 = target;
pn->transliterate(target2);
// verify that there are no marks
Transliterator *nfd = Transliterator::createInstance("nfd", UTRANS_FORWARD, status);
ASSERT_SUCCESS(status);
UnicodeString nfded = target2;
nfd->transliterate(nfded);
UnicodeSet allMarks(UNICODE_STRING_SIMPLE("[\\u0304\\u0301\\u030C\\u0300\\u0306]"), status); // look only for Pinyin tone marks, not all marks (there are some others in there)
ASSERT_SUCCESS(status);
assertFalse("NumericPinyin must contain no marks", allMarks.containsSome(nfded));
// verify roundtrip
Transliterator *np = pn->createInverse(status);
ASSERT_SUCCESS(status);
UnicodeString target3 = target2;
np->transliterate(target3);
UBool roundtripOK = (target3.compare(target) == 0);
assertTrue("NumericPinyin must roundtrip", roundtripOK);
if (!roundtripOK) {
const char *filename = "numeric-pinyin.log.txt";
FILE *out = fopen(filename, "w");
errln("Creating log file %s\n", filename);
fprintf(out, "Pinyin: ");
writeStringInU8(out, target);
fprintf(out, "\nPinyin-Numeric-Pinyin: ");
writeStringInU8(out, target2);
fprintf(out, "\nNumeric-Pinyin-Pinyin: ");
writeStringInU8(out, target3);
fprintf(out, "\n");
fclose(out);
}
delete hanTL;
delete pn;
delete nfd;
delete np;
}
void TransliteratorRoundTripTest::TestGreek() {
logKnownIssue( "cldrbug:1911");
// It is left in its current state as a regression test.
RTTest test("Latin-Greek");
LegalGreek *legal = new LegalGreek(TRUE);
test.test(UnicodeString("[a-zA-Z]", ""),
UnicodeString("[\\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:]]",
//UnicodeString("[[\\u003B\\u00B7[:Greek:]-[\\u0374\\u0385\\u1fcd\\u1fce\\u1fdd\\u1fde\\u1fed-\\u1fef\\u1ffd\\u03D7-\\u03EF]]&[:Age=3.2:]]",
""),
"[\\u00B5\\u037A\\u03D0-\\u03F5\\u03f9]", /* exclusions */
this, quick, legal, 50);
delete legal;
}
void TransliteratorRoundTripTest::TestGreekUNGEGN() {
logKnownIssue( "cldrbug:1911");
// It is left in its current state as a regression test.
RTTest test("Latin-Greek/UNGEGN");
LegalGreek *legal = new LegalGreek(FALSE);
test.test(UnicodeString("[a-zA-Z]", ""),
UnicodeString("[\\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:]]",
//UnicodeString("[[\\u003B\\u00B7[:Greek:]-[\\u0374\\u0385\\u1fce\\u1fde\\u03D7-\\u03EF]]&[:Age=3.2:]]",
""),
"[\\u0385\\u00B5\\u037A\\u03D0-\\uFFFF {\\u039C\\u03C0}]", /* roundtrip exclusions */
this, quick, legal);
delete legal;
}
void TransliteratorRoundTripTest::Testel() {
logKnownIssue( "cldrbug:1911");
// It is left in its current state as a regression test.
RTTest test("Latin-el");
LegalGreek *legal = new LegalGreek(FALSE);
test.test(UnicodeString("[a-zA-Z]", ""),
UnicodeString("[\\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:]]",
//UnicodeString("[[\\u003B\\u00B7[:Greek:]-[\\u0374\\u0385\\u1fce\\u1fde\\u03D7-\\u03EF]]&[:Age=3.2:]]",
""),
"[\\u00B5\\u037A\\u03D0-\\uFFFF {\\u039C\\u03C0}]", /* exclusions */
this, quick, legal);
delete legal;
}
void TransliteratorRoundTripTest::TestArabic() {
UnicodeString ARABIC("[\\u060C\\u061B\\u061F\\u0621\\u0627-\\u063A\\u0641-\\u0655\\u0660-\\u066C\\u067E\\u0686\\u0698\\u06A4\\u06AD\\u06AF\\u06CB-\\u06CC\\u06F0-\\u06F9]", -1, US_INV);
Legal *legal = new Legal();
RTTest test("Latin-Arabic");
test.test(UNICODE_STRING_SIMPLE("[a-zA-Z\\u02BE\\u02BF\\u207F]"), ARABIC, "[a-zA-Z\\u02BE\\u02BF\\u207F]",this, quick, legal); //
delete legal;
}
class LegalHebrew : public Legal {
private:
UnicodeSet FINAL;
UnicodeSet NON_FINAL;
UnicodeSet LETTER;
public:
LegalHebrew(UErrorCode& error);
virtual ~LegalHebrew() {}
virtual UBool is(const UnicodeString& sourceString) const;
};
LegalHebrew::LegalHebrew(UErrorCode& error){
FINAL.applyPattern(UNICODE_STRING_SIMPLE("[\\u05DA\\u05DD\\u05DF\\u05E3\\u05E5]"), error);
NON_FINAL.applyPattern(UNICODE_STRING_SIMPLE("[\\u05DB\\u05DE\\u05E0\\u05E4\\u05E6]"), error);
LETTER.applyPattern("[:letter:]", error);
}
UBool LegalHebrew::is(const UnicodeString& sourceString)const{
if (sourceString.length() == 0) return TRUE;
// don't worry about surrogates.
for (int i = 0; i < sourceString.length(); ++i) {
UChar ch = sourceString.charAt(i);
UChar next = i+1 == sourceString.length() ? 0x0000 : 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;
}
void TransliteratorRoundTripTest::TestHebrew() {
logKnownIssue( "cldrbug:1911");
// It is left in its current state as a regression test.
//long start = System.currentTimeMillis();
UErrorCode error = U_ZERO_ERROR;
LegalHebrew* legal = new LegalHebrew(error);
if(U_FAILURE(error)){
dataerrln("Could not construct LegalHebrew object. Error: %s", u_errorName(error));
return;
}
RTTest test("Latin-Hebrew");
test.test(UNICODE_STRING_SIMPLE("[a-zA-Z\\u02BC\\u02BB]"), UNICODE_STRING_SIMPLE("[[[:hebrew:]-[\\u05BD\\uFB00-\\uFBFF]]&[:Age=4.0:]]"), "[\\u05F0\\u05F1\\u05F2]", this, quick, legal);
//showElapsed(start, "TestHebrew");
delete legal;
}
void TransliteratorRoundTripTest::TestCyrillic() {
RTTest test("Latin-Cyrillic");
Legal *legal = new Legal();
test.test(UnicodeString("[a-zA-Z\\u0110\\u0111\\u02BA\\u02B9]", ""),
UnicodeString("[[\\u0400-\\u045F] & [:Age=3.2:]]", ""), NULL, this, quick,
legal);
delete legal;
}
// Inter-Indic Tests ----------------------------------
class LegalIndic :public Legal{
UnicodeSet vowelSignSet;
UnicodeSet avagraha;
UnicodeSet nukta;
UnicodeSet virama;
UnicodeSet sanskritStressSigns;
UnicodeSet chandrabindu;
public:
LegalIndic();
virtual UBool is(const UnicodeString& sourceString) const;
virtual ~LegalIndic() {};
};
UBool LegalIndic::is(const UnicodeString& sourceString) const{
int cp=sourceString.charAt(0);
// A vowel sign cannot be the first char
if(vowelSignSet.contains(cp)){
return FALSE;
}else if(avagraha.contains(cp)){
return FALSE;
}else if(virama.contains(cp)){
return FALSE;
}else if(nukta.contains(cp)){
return FALSE;
}else if(sanskritStressSigns.contains(cp)){
return FALSE;
}else if(chandrabindu.contains(cp) &&
((sourceString.length()>1) &&
vowelSignSet.contains(sourceString.charAt(1)))){
return FALSE;
}
return TRUE;
}
LegalIndic::LegalIndic(){
UErrorCode status = U_ZERO_ERROR;
vowelSignSet.addAll( UnicodeSet("[\\u0902\\u0903\\u0904\\u093e-\\u094c\\u0962\\u0963]",status));/* Devanagari */
vowelSignSet.addAll( UnicodeSet("[\\u0982\\u0983\\u09be-\\u09cc\\u09e2\\u09e3\\u09D7]",status));/* Bengali */
vowelSignSet.addAll( UnicodeSet("[\\u0a02\\u0a03\\u0a3e-\\u0a4c\\u0a62\\u0a63\\u0a70\\u0a71]",status));/* Gurmukhi */
vowelSignSet.addAll( UnicodeSet("[\\u0a82\\u0a83\\u0abe-\\u0acc\\u0ae2\\u0ae3]",status));/* Gujarati */
vowelSignSet.addAll( UnicodeSet("[\\u0b02\\u0b03\\u0b3e-\\u0b4c\\u0b62\\u0b63\\u0b56\\u0b57]",status));/* Oriya */
vowelSignSet.addAll( UnicodeSet("[\\u0b82\\u0b83\\u0bbe-\\u0bcc\\u0be2\\u0be3\\u0bd7]",status));/* Tamil */
vowelSignSet.addAll( UnicodeSet("[\\u0c02\\u0c03\\u0c3e-\\u0c4c\\u0c62\\u0c63\\u0c55\\u0c56]",status));/* Telugu */
vowelSignSet.addAll( UnicodeSet("[\\u0c82\\u0c83\\u0cbe-\\u0ccc\\u0ce2\\u0ce3\\u0cd5\\u0cd6]",status));/* Kannada */
vowelSignSet.addAll( UnicodeSet("[\\u0d02\\u0d03\\u0d3e-\\u0d4c\\u0d62\\u0d63\\u0d57]",status));/* Malayalam */
avagraha.addAll(UnicodeSet("[\\u093d\\u09bd\\u0abd\\u0b3d\\u0cbd]",status));
nukta.addAll(UnicodeSet("[\\u093c\\u09bc\\u0a3c\\u0abc\\u0b3c\\u0cbc]",status));
virama.addAll(UnicodeSet("[\\u094d\\u09cd\\u0a4d\\u0acd\\u0b4d\\u0bcd\\u0c4d\\u0ccd\\u0d4d]",status));
sanskritStressSigns.addAll(UnicodeSet("[\\u0951\\u0952\\u0953\\u0954\\u097d]",status));
chandrabindu.addAll(UnicodeSet("[\\u0901\\u0981\\u0A81\\u0b01\\u0c01]",status));
}
static const char 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:]]]";
void TransliteratorRoundTripTest::TestDevanagariLatin() {
{
UErrorCode status = U_ZERO_ERROR;
UParseError parseError;
TransliteratorPointer t1(Transliterator::createInstance("[\\u0964-\\u0965\\u0981-\\u0983\\u0985-\\u098C\\u098F-\\u0990\\u0993-\\u09A8\\u09AA-\\u09B0\\u09B2\\u09B6-\\u09B9\\u09BC\\u09BE-\\u09C4\\u09C7-\\u09C8\\u09CB-\\u09CD\\u09D7\\u09DC-\\u09DD\\u09DF-\\u09E3\\u09E6-\\u09FA];NFD;Bengali-InterIndic;InterIndic-Gujarati;NFC;",UTRANS_FORWARD, parseError, status));
if((Transliterator *)t1 != NULL){
TransliteratorPointer t2(t1->createInverse(status));
if(U_FAILURE(status)){
errln("FAIL: could not create the Inverse:-( \n");
}
}else {
dataerrln("FAIL: could not create the transliterator. Error: %s\n", u_errorName(status));
}
}
RTTest test("Latin-Devanagari");
Legal *legal = new LegalIndic();
logKnownIssue( "cldrbug:1911");
// It is left in its current state as a regression test.
test.test(UnicodeString(latinForIndic, ""),
UnicodeString("[[[:Devanagari:][\\u094d][\\u0964\\u0965]]&[:Age=4.1:]-[\\u0970]]", ""), "[\\u0965\\u0904]", this, quick,
legal, 50);
delete legal;
}
/* Defined this way for HP/UX11CC :-( */
static const int32_t INTER_INDIC_ARRAY_WIDTH = 4;
static const char * const interIndicArray[] = {
"BENGALI-DEVANAGARI", "[:BENGALI:]", "[[:Devanagari:]-[\\u0970]]",
"[\\u0904\\u0951-\\u0954\\u0943-\\u0949\\u094a\\u0962\\u0963\\u090D\\u090e\\u0911\\u0912\\u0929\\u0933\\u0934\\u0935\\u093d\\u0950\\u0958\\u0959\\u095a\\u095b\\u095e\\u097d]", /*roundtrip exclusions*/
"DEVANAGARI-BENGALI", "[[:Devanagari:]-[\\u0970]]", "[:BENGALI:]",
"[\\u0951-\\u0954\\u0951-\\u0954\\u09D7\\u090D\\u090e\\u0911\\u0912\\u0929\\u0933\\u0934\\u0935\\u093d\\u0950\\u0958\\u0959\\u095a\\u095b\\u095e\\u09f0\\u09f1\\u09f2-\\u09fa\\u09ce]", /*roundtrip exclusions*/
"GURMUKHI-DEVANAGARI", "[:GURMUKHI:]", "[[:Devanagari:]-[\\u0970]]",
"[\\u0904\\u0901\\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*/
"DEVANAGARI-GURMUKHI", "[[:Devanagari:]-[\\u0970]]", "[:GURMUKHI:]",
"[\\u0904\\u0A02\\u0946\\u0A5C\\u0951-\\u0954\\u0A70\\u0A71\\u090B\\u090C\\u090D\\u090e\\u0911\\u0912\\u0934\\u0937\\u093D\\u0950\\u0960\\u0961\\u0a72\\u0a73\\u0a74]", /*roundtrip exclusions*/
"GUJARATI-DEVANAGARI", "[:GUJARATI:]", "[[:Devanagari:]-[\\u0970]]",
"[\\u0946\\u094A\\u0962\\u0963\\u0951-\\u0954\\u0961\\u090c\\u090e\\u0912\\u097d]", /*roundtrip exclusions*/
"DEVANAGARI-GUJARATI", "[[:Devanagari:]-[\\u0970]]", "[:GUJARATI:]",
"[\\u0951-\\u0954\\u0961\\u090c\\u090e\\u0912]", /*roundtrip exclusions*/
"ORIYA-DEVANAGARI", "[:ORIYA:]", "[[:Devanagari:]-[\\u0970]]",
"[\\u0904\\u0943-\\u094a\\u0962\\u0963\\u0951-\\u0954\\u0950\\u090D\\u090e\\u0912\\u0911\\u0931\\u0935\\u097d]", /*roundtrip exclusions*/
"DEVANAGARI-ORIYA", "[[:Devanagari:]-[\\u0970]]", "[:ORIYA:]",
"[\\u0b5f\\u0b56\\u0b57\\u0b70\\u0b71\\u0950\\u090D\\u090e\\u0912\\u0911\\u0931]", /*roundtrip exclusions*/
"Tamil-DEVANAGARI", "[:tamil:]", "[[:Devanagari:]-[\\u0970]]",
"[\\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*/
"DEVANAGARI-Tamil", "[[:Devanagari:]-[\\u0970]]", "[:tamil:]",
"[\\u0bd7\\u0BF0\\u0BF1\\u0BF2]", /*roundtrip exclusions*/
"Telugu-DEVANAGARI", "[:telugu:]", "[[:Devanagari:]-[\\u0970]]",
"[\\u0904\\u093c\\u0950\\u0945\\u0949\\u0951-\\u0954\\u0962\\u0963\\u090D\\u0911\\u093d\\u0929\\u0934[\\u0958-\\u095f]\\u097d]", /*roundtrip exclusions*/
"DEVANAGARI-TELUGU", "[[:Devanagari:]-[\\u0970]]", "[:TELUGU:]",
"[\\u0c55\\u0c56\\u0950\\u090D\\u0911\\u093d\\u0929\\u0934[\\u0958-\\u095f]]", /*roundtrip exclusions*/
"KANNADA-DEVANAGARI", "[:KANNADA:]", "[[:Devanagari:]-[\\u0970]]",
"[\\u0901\\u0904\\u0946\\u093c\\u0950\\u0945\\u0949\\u0951-\\u0954\\u0962\\u0963\\u0950\\u090D\\u0911\\u093d\\u0929\\u0934[\\u0958-\\u095f]\\u097d]", /*roundtrip exclusions*/
"DEVANAGARI-KANNADA", "[[:Devanagari:]-[\\u0970]]", "[:KANNADA:]",
"[{\\u0cb0\\u0cbc}{\\u0cb3\\u0cbc}\\u0cde\\u0cd5\\u0cd6\\u0950\\u090D\\u0911\\u093d\\u0929\\u0934[\\u0958-\\u095f]]", /*roundtrip exclusions*/
"MALAYALAM-DEVANAGARI", "[:MALAYALAM:]", "[[:Devanagari:]-[\\u0970]]",
"[\\u0901\\u0904\\u094a\\u094b\\u094c\\u093c\\u0950\\u0944\\u0945\\u0949\\u0951-\\u0954\\u0962\\u0963\\u090D\\u0911\\u093d\\u0929\\u0934[\\u0958-\\u095f]\\u097d]", /*roundtrip exclusions*/
"DEVANAGARI-MALAYALAM", "[[:Devanagari:]-[\\u0970]]", "[:MALAYALAM:]",
"[\\u0d4c\\u0d57\\u0950\\u090D\\u0911\\u093d\\u0929\\u0934[\\u0958-\\u095f]]", /*roundtrip exclusions*/
"GURMUKHI-BENGALI", "[:GURMUKHI:]", "[:BENGALI:]",
"[\\u0981\\u0982\\u09b6\\u09e2\\u09e3\\u09c3\\u09c4\\u09d7\\u098B\\u098C\\u09B7\\u09E0\\u09E1\\u09F0\\u09F1\\u09f2-\\u09fa\\u09ce]", /*roundtrip exclusions*/
"BENGALI-GURMUKHI", "[:BENGALI:]", "[:GURMUKHI:]",
"[\\u0A02\\u0a5c\\u0a47\\u0a70\\u0a71\\u0A33\\u0A35\\u0A59\\u0A5A\\u0A5B\\u0A5E\\u0A72\\u0A73\\u0A74]", /*roundtrip exclusions*/
"GUJARATI-BENGALI", "[:GUJARATI:]", "[:BENGALI:]",
"[\\u09d7\\u09e2\\u09e3\\u098c\\u09e1\\u09f0\\u09f1\\u09f2-\\u09fa\\u09ce]", /*roundtrip exclusions*/
"BENGALI-GUJARATI", "[:BENGALI:]", "[:GUJARATI:]",
"[\\u0A82\\u0a83\\u0Ac9\\u0Ac5\\u0ac7\\u0A8D\\u0A91\\u0AB3\\u0AB5\\u0ABD\\u0AD0]", /*roundtrip exclusions*/
"ORIYA-BENGALI", "[:ORIYA:]", "[:BENGALI:]",
"[\\u09c4\\u09e2\\u09e3\\u09f0\\u09f1\\u09f2-\\u09fa\\u09ce]", /*roundtrip exclusions*/
"BENGALI-ORIYA", "[:BENGALI:]", "[:ORIYA:]",
"[\\u0b35\\u0b71\\u0b5f\\u0b56\\u0b33\\u0b3d]", /*roundtrip exclusions*/
"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*/
"BENGALI-Tamil", "[:BENGALI:]", "[:tamil:]",
"[\\u0bc6\\u0bc7\\u0bca\\u0B8E\\u0B92\\u0BA9\\u0BB1\\u0BB3\\u0BB4\\u0BB5\\u0BF0\\u0BF1\\u0BF2]", /*roundtrip exclusions*/
"Telugu-BENGALI", "[:telugu:]", "[:BENGALI:]",
"[\\u09e2\\u09e3\\u09bc\\u09d7\\u09f0\\u09f1\\u09dc\\u09dd\\u09df\\u09f2-\\u09fa\\u09ce]", /*roundtrip exclusions*/
"BENGALI-TELUGU", "[:BENGALI:]", "[:TELUGU:]",
"[\\u0c55\\u0c56\\u0c47\\u0c46\\u0c4a\\u0C0E\\u0C12\\u0C31\\u0C33\\u0C35]", /*roundtrip exclusions*/
"KANNADA-BENGALI", "[:KANNADA:]", "[:BENGALI:]",
"[\\u0981\\u09e2\\u09e3\\u09bc\\u09d7\\u09dc\\u09dd\\u09df\\u09f0\\u09f1\\u09f2-\\u09fa\\u09ce]", /*roundtrip exclusions*/
"BENGALI-KANNADA", "[:BENGALI:]", "[:KANNADA:]",
"[{\\u0cb0\\u0cbc}{\\u0cb3\\u0cbc}\\u0cc6\\u0cca\\u0cd5\\u0cd6\\u0cc7\\u0C8E\\u0C92\\u0CB1\\u0cb3\\u0cb5\\u0cde]", /*roundtrip exclusions*/
"MALAYALAM-BENGALI", "[:MALAYALAM:]", "[:BENGALI:]",
"[\\u0981\\u09e2\\u09e3\\u09bc\\u09c4\\u09f0\\u09f1\\u09dc\\u09dd\\u09df\\u09dc\\u09dd\\u09df\\u09f2-\\u09fa\\u09ce]", /*roundtrip exclusions*/
"BENGALI-MALAYALAM", "[:BENGALI:]", "[:MALAYALAM:]",
"[\\u0d46\\u0d4a\\u0d47\\u0d31-\\u0d35\\u0d0e\\u0d12]", /*roundtrip exclusions*/
"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*/
"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*/
"ORIYA-GURMUKHI", "[:ORIYA:]", "[:GURMUKHI:]",
"[\\u0A01\\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*/
"GURMUKHI-ORIYA", "[:GURMUKHI:]", "[:ORIYA:]",
"[\\u0b01\\u0b02\\u0b03\\u0b33\\u0b36\\u0b43\\u0b56\\u0b57\\u0B0B\\u0B0C\\u0B37\\u0B3D\\u0B5F\\u0B60\\u0B61\\u0b70\\u0b71]", /*roundtrip exclusions*/
"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*/
"GURMUKHI-TAMIL", "[:GURMUKHI:]", "[:TAMIL:]",
"[\\u0b82\\u0bc6\\u0bca\\u0bd7\\u0bb7\\u0bb3\\u0b83\\u0B8E\\u0B92\\u0BA9\\u0BB1\\u0BB4\\u0bb6\\u0BF0\\u0BF1\\u0BF2]", /*roundtrip exclusions*/
"TELUGU-GURMUKHI", "[:TELUGU:]", "[:GURMUKHI:]",
"[\\u0A02\\u0a33\\u0a36\\u0a3c\\u0a70\\u0a71\\u0A59\\u0A5A\\u0A5B\\u0A5C\\u0A5E\\u0A72\\u0A73\\u0A74]", /*roundtrip exclusions*/
"GURMUKHI-TELUGU", "[:GURMUKHI:]", "[:TELUGU:]",
"[\\u0c01\\u0c02\\u0c03\\u0c33\\u0c36\\u0c44\\u0c43\\u0c46\\u0c4a\\u0c56\\u0c55\\u0C0B\\u0C0C\\u0C0E\\u0C12\\u0C31\\u0C37\\u0C60\\u0C61]", /*roundtrip exclusions*/
"KANNADA-GURMUKHI", "[:KANNADA:]", "[:GURMUKHI:]",
"[\\u0A01\\u0A02\\u0a33\\u0a36\\u0a3c\\u0a70\\u0a71\\u0A59\\u0A5A\\u0A5B\\u0A5C\\u0A5E\\u0A72\\u0A73\\u0A74]", /*roundtrip exclusions*/
"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*/
"MALAYALAM-GURMUKHI", "[:MALAYALAM:]", "[:GURMUKHI:]",
"[\\u0A01\\u0A02\\u0a4b\\u0a4c\\u0a33\\u0a36\\u0a3c\\u0a70\\u0a71\\u0A59\\u0A5A\\u0A5B\\u0A5C\\u0A5E\\u0A72\\u0A73\\u0A74]", /*roundtrip exclusions*/
"GURMUKHI-MALAYALAM", "[:GURMUKHI:]", "[:MALAYALAM:]",
"[\\u0d02\\u0d03\\u0d33\\u0d36\\u0d43\\u0d46\\u0d4a\\u0d4c\\u0d57\\u0D0B\\u0D0C\\u0D0E\\u0D12\\u0D31\\u0D34\\u0D37\\u0D60\\u0D61]", /*roundtrip exclusions*/
"GUJARATI-ORIYA", "[:GUJARATI:]", "[:ORIYA:]",
"[\\u0b56\\u0b57\\u0B0C\\u0B5F\\u0B61\\u0b70\\u0b71]", /*roundtrip exclusions*/
"ORIYA-GUJARATI", "[:ORIYA:]", "[:GUJARATI:]",
"[\\u0Ac4\\u0Ac5\\u0Ac9\\u0Ac7\\u0A8D\\u0A91\\u0AB5\\u0Ad0]", /*roundtrip exclusions*/
"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*/
"GUJARATI-TAMIL", "[:GUJARATI:]", "[:TAMIL:]",
"[\\u0Bc6\\u0Bca\\u0Bd7\\u0B8E\\u0B92\\u0BA9\\u0BB1\\u0BB4\\u0BF0\\u0BF1\\u0BF2]", /*roundtrip exclusions*/
"TELUGU-GUJARATI", "[:TELUGU:]", "[:GUJARATI:]",
"[\\u0abc\\u0Ac5\\u0Ac9\\u0A8D\\u0A91\\u0ABD\\u0Ad0]", /*roundtrip exclusions*/
"GUJARATI-TELUGU", "[:GUJARATI:]", "[:TELUGU:]",
"[\\u0c46\\u0c4a\\u0c55\\u0c56\\u0C0C\\u0C0E\\u0C12\\u0C31\\u0C61]", /*roundtrip exclusions*/
"KANNADA-GUJARATI", "[:KANNADA:]", "[:GUJARATI:]",
"[\\u0A81\\u0abc\\u0Ac5\\u0Ac9\\u0A8D\\u0A91\\u0ABD\\u0Ad0]", /*roundtrip exclusions*/
"GUJARATI-KANNADA", "[:GUJARATI:]", "[:KANNADA:]",
"[{\\u0cb0\\u0cbc}{\\u0cb3\\u0cbc}\\u0cc6\\u0cca\\u0cd5\\u0cd6\\u0C8C\\u0C8E\\u0C92\\u0CB1\\u0CDE\\u0CE1]", /*roundtrip exclusions*/
"MALAYALAM-GUJARATI", "[:MALAYALAM:]", "[:GUJARATI:]",
"[\\u0A81\\u0ac4\\u0acb\\u0acc\\u0abc\\u0Ac5\\u0Ac9\\u0A8D\\u0A91\\u0ABD\\u0Ad0]", /*roundtrip exclusions*/
"GUJARATI-MALAYALAM", "[:GUJARATI:]", "[:MALAYALAM:]",
"[\\u0d46\\u0d4a\\u0d4c\\u0d55\\u0d57\\u0D0C\\u0D0E\\u0D12\\u0D31\\u0D34\\u0D61]", /*roundtrip exclusions*/
"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*/
"ORIYA-TAMIL", "[:ORIYA:]", "[:TAMIL:]",
"[\\u0bc6\\u0bca\\u0bc7\\u0B8E\\u0B92\\u0BA9\\u0BB1\\u0BB4\\u0BB5\\u0BF0\\u0BF1\\u0BF2]", /*roundtrip exclusions*/
"TELUGU-ORIYA", "[:TELUGU:]", "[:ORIYA:]",
"[\\u0b3c\\u0b57\\u0b56\\u0B3D\\u0B5C\\u0B5D\\u0B5F\\u0b70\\u0b71]", /*roundtrip exclusions*/
"ORIYA-TELUGU", "[:ORIYA:]", "[:TELUGU:]",
"[\\u0c44\\u0c46\\u0c4a\\u0c55\\u0c47\\u0C0E\\u0C12\\u0C31\\u0C35]", /*roundtrip exclusions*/
"KANNADA-ORIYA", "[:KANNADA:]", "[:ORIYA:]",
"[\\u0B01\\u0b3c\\u0b57\\u0B3D\\u0B5C\\u0B5D\\u0B5F\\u0b70\\u0b71]", /*roundtrip exclusions*/
"ORIYA-KANNADA", "[:ORIYA:]", "[:KANNADA:]",
"[{\\u0cb0\\u0cbc}{\\u0cb3\\u0cbc}\\u0cc4\\u0cc6\\u0cca\\u0cd5\\u0cc7\\u0C8E\\u0C92\\u0CB1\\u0CB5\\u0CDE]", /*roundtrip exclusions*/
"MALAYALAM-ORIYA", "[:MALAYALAM:]", "[:ORIYA:]",
"[\\u0B01\\u0b3c\\u0b56\\u0B3D\\u0B5C\\u0B5D\\u0B5F\\u0b70\\u0b71]", /*roundtrip exclusions*/
"ORIYA-MALAYALAM", "[:ORIYA:]", "[:MALAYALAM:]",
"[\\u0D47\\u0D46\\u0D4a\\u0D0E\\u0D12\\u0D31\\u0D34\\u0D35]", /*roundtrip exclusions*/
"TELUGU-TAMIL", "[:TELUGU:]", "[:TAMIL:]",
"[\\u0bd7\\u0ba9\\u0bb4\\u0BF0\\u0BF1\\u0BF2]", /*roundtrip exclusions*/
"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*/
"KANNADA-TAMIL", "[:KANNADA:]", "[:TAMIL:]",
"[\\u0bd7\\u0bc6\\u0ba9\\u0bb4\\u0BF0\\u0BF1\\u0BF2]", /*roundtrip exclusions*/
"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*/
"MALAYALAM-TAMIL", "[:MALAYALAM:]", "[:TAMIL:]",
"[\\u0ba9\\u0BF0\\u0BF1\\u0BF2]", /*roundtrip exclusions*/
"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*/
"KANNADA-TELUGU", "[:KANNADA:]", "[:TELUGU:]",
"[\\u0C01\\u0c3f\\u0c46\\u0c48\\u0c4a]", /*roundtrip exclusions*/
"TELUGU-KANNADA", "[:TELUGU:]", "[:KANNADA:]",
"[\\u0cc8\\u0cd5\\u0cd6\\u0cbc\\u0cbd\\u0CDE]", /*roundtrip exclusions*/
"MALAYALAM-TELUGU", "[:MALAYALAM:]", "[:TELUGU:]",
"[\\u0C01\\u0c44\\u0c4a\\u0c4c\\u0c4b\\u0c55\\u0c56]", /*roundtrip exclusions*/
"TELUGU-MALAYALAM", "[:TELUGU:]", "[:MALAYALAM:]",
"[\\u0d4c\\u0d57\\u0D34]", /*roundtrip exclusions*/
"MALAYALAM-KANNADA", "[:MALAYALAM:]", "[:KANNADA:]",
"[\\u0cbc\\u0cbd\\u0cc4\\u0cc6\\u0cca\\u0ccc\\u0ccb\\u0cd5\\u0cd6\\u0cDe]", /*roundtrip exclusions*/
"KANNADA-MALAYALAM", "[:KANNADA:]", "[:MALAYALAM:]",
"[\\u0d4c\\u0d57\\u0d46\\u0D34]", /*roundtrip exclusions*/
"Latin-Bengali",latinForIndic, "[[:Bengali:][\\u0964\\u0965]]",
"[\\u0965\\u09f0-\\u09fa\\u09ce]" /*roundtrip exclusions*/ ,
"Latin-Gurmukhi", latinForIndic, "[[:Gurmukhi:][\\u0964\\u0965]]",
"[\\u0a01\\u0965\\u0a02\\u0a72\\u0a73\\u0a74]" /*roundtrip exclusions*/,
"Latin-Gujarati",latinForIndic, "[[:Gujarati:][\\u0964\\u0965]]",
"[\\u0965]" /*roundtrip exclusions*/,
"Latin-Oriya",latinForIndic, "[[:Oriya:][\\u0964\\u0965]]",
"[\\u0965\\u0b70]" /*roundtrip exclusions*/,
"Latin-Tamil",latinForIndic, "[:Tamil:]",
"[\\u0BF0\\u0BF1\\u0BF2]" /*roundtrip exclusions*/,
"Latin-Telugu",latinForIndic, "[:Telugu:]",
NULL /*roundtrip exclusions*/,
"Latin-Kannada",latinForIndic, "[:Kannada:]",
NULL /*roundtrip exclusions*/,
"Latin-Malayalam",latinForIndic, "[:Malayalam:]",
NULL /*roundtrip exclusions*/
};
void TransliteratorRoundTripTest::TestDebug(const char* name,const char fromSet[],
const char* toSet,const char* exclusions){
RTTest test(name);
Legal *legal = new LegalIndic();
test.test(UnicodeString(fromSet,""),UnicodeString(toSet,""),exclusions,this,quick,legal);
}
void TransliteratorRoundTripTest::TestInterIndic() {
//TestDebug("Latin-Gurmukhi", latinForIndic, "[:Gurmukhi:]","[\\u0965\\u0a02\\u0a72\\u0a73\\u0a74]",TRUE);
int32_t num = (int32_t)(sizeof(interIndicArray)/(INTER_INDIC_ARRAY_WIDTH*sizeof(char*)));
if(quick){
logln("Testing only 5 of %i. Skipping rest (use -e for exhaustive)",num);
num = 5;
}
for(int i = 0; i < num;i++){
RTTest test(interIndicArray[i*INTER_INDIC_ARRAY_WIDTH + 0]);
Legal *legal = new LegalIndic();
logln(UnicodeString("Stress testing ") + interIndicArray[i*INTER_INDIC_ARRAY_WIDTH + 0]);
if( !logKnownIssue( "cldrbug:1911" ) ) {
/* "full test" */
// CLDR bug #1911: This test should be moved into CLDR.
test.test( interIndicArray[i*INTER_INDIC_ARRAY_WIDTH + 1],
interIndicArray[i*INTER_INDIC_ARRAY_WIDTH + 2],
interIndicArray[i*INTER_INDIC_ARRAY_WIDTH + 3], // roundtrip exclusions
this, quick, legal, 50);
} else {
// It is left in its current state as a regression test.
// CLDR should test, and remove the age filter.
/* regression test - ""temporary"" until CLDR#1911 is fixed */
// start
UnicodeString source("[");
source.append(interIndicArray[i*INTER_INDIC_ARRAY_WIDTH + 1]);
source.append(" & [:Age=4.1:]]");
UnicodeString target("[");
target.append(interIndicArray[i*INTER_INDIC_ARRAY_WIDTH + 2]);
target.append(" & [:Age=4.1:]]");
test.test( source,
target,
interIndicArray[i*INTER_INDIC_ARRAY_WIDTH + 3], // roundtrip exclusions
this, quick, legal, 50);
// end
delete legal;
}
}
}
// end indic tests ----------------------------------------------------------
#endif /* #if !UCONFIG_NO_TRANSLITERATION */