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/********************************************************************
* COPYRIGHT:
* Copyright (c) 1997-2015, International Business Machines Corporation and
* others. All Rights Reserved.
********************************************************************
* File TMSGFMT.CPP
*
* Modification History:
*
* Date Name Description
* 03/24/97 helena Converted from Java.
* 07/11/97 helena Updated to work on AIX.
* 08/04/97 jfitz Updated to intltest
*******************************************************************/
#include "unicode/utypes.h"
#if !UCONFIG_NO_FORMATTING
#include "tmsgfmt.h"
#include "cmemory.h"
#include "unicode/format.h"
#include "unicode/decimfmt.h"
#include "unicode/localpointer.h"
#include "unicode/locid.h"
#include "unicode/msgfmt.h"
#include "unicode/numfmt.h"
#include "unicode/choicfmt.h"
#include "unicode/messagepattern.h"
#include "unicode/selfmt.h"
#include "unicode/gregocal.h"
#include <stdio.h>
void
TestMessageFormat::runIndexedTest(int32_t index, UBool exec,
const char* &name, char* /*par*/) {
TESTCASE_AUTO_BEGIN;
TESTCASE_AUTO(testBug1);
TESTCASE_AUTO(testBug2);
TESTCASE_AUTO(sample);
TESTCASE_AUTO(PatternTest);
TESTCASE_AUTO(testStaticFormat);
TESTCASE_AUTO(testSimpleFormat);
TESTCASE_AUTO(testMsgFormatChoice);
TESTCASE_AUTO(testCopyConstructor);
TESTCASE_AUTO(testAssignment);
TESTCASE_AUTO(testClone);
TESTCASE_AUTO(testEquals);
TESTCASE_AUTO(testNotEquals);
TESTCASE_AUTO(testSetLocale);
TESTCASE_AUTO(testFormat);
TESTCASE_AUTO(testParse);
TESTCASE_AUTO(testAdopt);
TESTCASE_AUTO(testCopyConstructor2);
TESTCASE_AUTO(TestUnlimitedArgsAndSubformats);
TESTCASE_AUTO(TestRBNF);
TESTCASE_AUTO(TestTurkishCasing);
TESTCASE_AUTO(testAutoQuoteApostrophe);
TESTCASE_AUTO(testMsgFormatPlural);
TESTCASE_AUTO(testMsgFormatSelect);
TESTCASE_AUTO(testApostropheInPluralAndSelect);
TESTCASE_AUTO(TestApostropheMode);
TESTCASE_AUTO(TestCompatibleApostrophe);
TESTCASE_AUTO(testCoverage);
TESTCASE_AUTO(testGetFormatNames);
TESTCASE_AUTO(TestTrimArgumentName);
TESTCASE_AUTO(TestSelectOrdinal);
TESTCASE_AUTO(TestDecimals);
TESTCASE_AUTO_END;
}
void TestMessageFormat::testBug3()
{
double myNumber = -123456;
DecimalFormat *form = 0;
Locale locale[] = {
Locale("ar", "", ""),
Locale("be", "", ""),
Locale("bg", "", ""),
Locale("ca", "", ""),
Locale("cs", "", ""),
Locale("da", "", ""),
Locale("de", "", ""),
Locale("de", "AT", ""),
Locale("de", "CH", ""),
Locale("el", "", ""), // 10
Locale("en", "CA", ""),
Locale("en", "GB", ""),
Locale("en", "IE", ""),
Locale("en", "US", ""),
Locale("es", "", ""),
Locale("et", "", ""),
Locale("fi", "", ""),
Locale("fr", "", ""),
Locale("fr", "BE", ""),
Locale("fr", "CA", ""), // 20
Locale("fr", "CH", ""),
Locale("he", "", ""),
Locale("hr", "", ""),
Locale("hu", "", ""),
Locale("is", "", ""),
Locale("it", "", ""),
Locale("it", "CH", ""),
Locale("ja", "", ""),
Locale("ko", "", ""),
Locale("lt", "", ""), // 30
Locale("lv", "", ""),
Locale("mk", "", ""),
Locale("nl", "", ""),
Locale("nl", "BE", ""),
Locale("no", "", ""),
Locale("pl", "", ""),
Locale("pt", "", ""),
Locale("ro", "", ""),
Locale("ru", "", ""),
Locale("sh", "", ""), // 40
Locale("sk", "", ""),
Locale("sl", "", ""),
Locale("sq", "", ""),
Locale("sr", "", ""),
Locale("sv", "", ""),
Locale("tr", "", ""),
Locale("uk", "", ""),
Locale("zh", "", ""),
Locale("zh", "TW", "") // 49
};
int32_t i;
for (i= 0; i < 49; i++) {
UnicodeString buffer;
logln(locale[i].getDisplayName(buffer));
UErrorCode success = U_ZERO_ERROR;
// form = (DecimalFormat*)NumberFormat::createCurrencyInstance(locale[i], success);
form = (DecimalFormat*)NumberFormat::createInstance(locale[i], success);
if (U_FAILURE(success)) {
errln("Err: Number Format ");
logln("Number format creation failed.");
continue;
}
Formattable result;
FieldPosition pos(0);
buffer.remove();
form->format(myNumber, buffer, pos);
success = U_ZERO_ERROR;
ParsePosition parsePos;
form->parse(buffer, result, parsePos);
logln(UnicodeString(" -> ") /* + << dec*/ + toString(result) + UnicodeString("[supposed output for result]"));
if (U_FAILURE(success)) {
errln("Err: Number Format parse");
logln("Number format parse failed.");
}
delete form;
}
}
void TestMessageFormat::testBug1()
{
const double limit[] = {0.0, 1.0, 2.0};
const UnicodeString formats[] = {"0.0<=Arg<1.0",
"1.0<=Arg<2.0",
"2.0<-Arg"};
ChoiceFormat *cf = new ChoiceFormat(limit, formats, 3);
FieldPosition status(0);
UnicodeString toAppendTo;
cf->format((int32_t)1, toAppendTo, status);
if (toAppendTo != "1.0<=Arg<2.0") {
errln("ChoiceFormat cmp in testBug1");
}
logln(toAppendTo);
delete cf;
}
void TestMessageFormat::testBug2()
{
UErrorCode status = U_ZERO_ERROR;
UnicodeString result;
// {sfb} use double format in pattern, so result will match (not strictly necessary)
const UnicodeString pattern = "There {0,choice,0#are no files|1#is one file|1<are {0, number} files} on disk {1}. ";
logln("The input pattern : " + pattern);
MessageFormat *fmt = new MessageFormat(pattern, status);
if (U_FAILURE(status)) {
dataerrln("MessageFormat pattern creation failed. - %s", u_errorName(status));
return;
}
logln("The output pattern is : " + fmt->toPattern(result));
if (pattern != result) {
errln("MessageFormat::toPattern() failed.");
}
delete fmt;
}
#if 0
#if defined(_DEBUG) && U_IOSTREAM_SOURCE >= 199711
//----------------------------------------------------
// console I/O
//----------------------------------------------------
#include <iostream>
std::ostream& operator<<(std::ostream& stream, const Formattable& obj);
#include "unicode/datefmt.h"
#include <stdlib.h>
#include <string.h>
IntlTest&
operator<<( IntlTest& stream,
const Formattable& obj)
{
static DateFormat *defDateFormat = 0;
UnicodeString buffer;
switch(obj.getType()) {
case Formattable::kDate :
if (defDateFormat == 0) {
defDateFormat = DateFormat::createInstance();
}
defDateFormat->format(obj.getDate(), buffer);
stream << buffer;
break;
case Formattable::kDouble :
char convert[20];
sprintf( convert, "%lf", obj.getDouble() );
stream << convert << "D";
break;
case Formattable::kLong :
stream << obj.getLong() << "L";
break;
case Formattable::kString:
stream << "\"" << obj.getString(buffer) << "\"";
break;
case Formattable::kArray:
int32_t i, count;
const Formattable* array;
array = obj.getArray(count);
stream << "[";
for (i=0; i<count; ++i) stream << array[i] << ( (i==(count-1)) ? "" : ", " );
stream << "]";
break;
default:
stream << "INVALID_Formattable";
}
return stream;
}
#endif /* defined(_DEBUG) && U_IOSTREAM_SOURCE >= 199711 */
#endif
void TestMessageFormat::PatternTest()
{
Formattable testArgs[] = {
Formattable(double(1)), Formattable(double(3456)),
Formattable("Disk"), Formattable(UDate((int32_t)1000000000L), Formattable::kIsDate)
};
UnicodeString testCases[] = {
"Quotes '', '{', 'a' {0} '{0}'",
"Quotes '', '{', 'a' {0,number} '{0}'",
"'{'1,number,'#',##} {1,number,'#',##}",
"There are {1} files on {2} at {3}.",
"On {2}, there are {1} files, with {0,number,currency}.",
"'{1,number,percent}', {1,number,percent},",
"'{1,date,full}', {1,date,full},",
"'{3,date,full}', {3,date,full},",
"'{1,number,#,##}' {1,number,#,##}",
};
// ICU 4.8 returns the original pattern (testCases),
// rather than toPattern() reconstituting a new, equivalent pattern string (testResultPatterns).
/*UnicodeString testResultPatterns[] = {
"Quotes '', '{', a {0} '{'0}",
"Quotes '', '{', a {0,number} '{'0}",
"'{'1,number,#,##} {1,number,'#'#,##}",
"There are {1} files on {2} at {3}.",
"On {2}, there are {1} files, with {0,number,currency}.",
"'{'1,number,percent}, {1,number,percent},",
"'{'1,date,full}, {1,date,full},",
"'{'3,date,full}, {3,date,full},",
"'{'1,number,#,##} {1,number,#,##}"
};*/
UnicodeString testResultStrings[] = {
"Quotes ', {, 'a' 1 {0}",
"Quotes ', {, 'a' 1 {0}",
"{1,number,'#',##} #34,56",
"There are 3,456 files on Disk at 1/12/70, 5:46 AM.",
"On Disk, there are 3,456 files, with $1.00.",
"{1,number,percent}, 345,600%,",
"{1,date,full}, Wednesday, December 31, 1969,",
"{3,date,full}, Monday, January 12, 1970,",
"{1,number,#,##} 34,56"
};
for (int32_t i = 0; i < 9; ++i) {
//it_out << "\nPat in: " << testCases[i]);
MessageFormat *form = 0;
UErrorCode success = U_ZERO_ERROR;
UnicodeString buffer;
form = new MessageFormat(testCases[i], Locale::getUS(), success);
if (U_FAILURE(success)) {
dataerrln("MessageFormat creation failed.#1 - %s", u_errorName(success));
logln(((UnicodeString)"MessageFormat for ") + testCases[i] + " creation failed.\n");
continue;
}
// ICU 4.8 returns the original pattern (testCases),
// rather than toPattern() reconstituting a new, equivalent pattern string (testResultPatterns).
if (form->toPattern(buffer) != testCases[i]) {
// Note: An alternative test would be to build MessagePattern objects for
// both the input and output patterns and compare them, taking SKIP_SYNTAX etc.
// into account.
// (Too much trouble...)
errln(UnicodeString("TestMessageFormat::PatternTest failed test #2, i = ") + i);
//form->toPattern(buffer);
errln(((UnicodeString)" Orig: ") + testCases[i]);
errln(((UnicodeString)" Exp: ") + testCases[i]);
errln(((UnicodeString)" Got: ") + buffer);
}
//it_out << "Pat out: " << form->toPattern(buffer));
UnicodeString result;
int32_t count = 4;
FieldPosition fieldpos(0);
form->format(testArgs, count, result, fieldpos, success);
if (U_FAILURE(success)) {
dataerrln("MessageFormat failed test #3 - %s", u_errorName(success));
logln("TestMessageFormat::PatternTest failed test #3");
continue;
}
if (result != testResultStrings[i]) {
errln("TestMessageFormat::PatternTest failed test #4");
logln("TestMessageFormat::PatternTest failed #4.");
logln(UnicodeString(" Result: ") + result );
logln(UnicodeString(" Expected: ") + testResultStrings[i] );
}
//it_out << "Result: " << result);
#if 0
/* TODO: Look at this test and see if this is still a valid test */
logln("---------------- test parse ----------------");
form->toPattern(buffer);
logln("MSG pattern for parse: " + buffer);
int32_t parseCount = 0;
Formattable* values = form->parse(result, parseCount, success);
if (U_FAILURE(success)) {
errln("MessageFormat failed test #5");
logln(UnicodeString("MessageFormat failed test #5 with error code ")+(int32_t)success);
} else if (parseCount != count) {
errln("MSG count not %d as expected. Got %d", count, parseCount);
}
UBool failed = FALSE;
for (int32_t j = 0; j < parseCount; ++j) {
if (values == 0 || testArgs[j] != values[j]) {
errln(((UnicodeString)"MSG testargs[") + j + "]: " + toString(testArgs[j]));
errln(((UnicodeString)"MSG values[") + j + "] : " + toString(values[j]));
failed = TRUE;
}
}
if (failed)
errln("MessageFormat failed test #6");
#endif
delete form;
}
}
void TestMessageFormat::sample()
{
MessageFormat *form = 0;
UnicodeString buffer1, buffer2;
UErrorCode success = U_ZERO_ERROR;
form = new MessageFormat("There are {0} files on {1}", success);
if (U_FAILURE(success)) {
errln("Err: Message format creation failed");
logln("Sample message format creation failed.");
return;
}
UnicodeString abc("abc");
UnicodeString def("def");
Formattable testArgs1[] = { abc, def };
FieldPosition fieldpos(0);
assertEquals("format",
"There are abc files on def",
form->format(testArgs1, 2, buffer2, fieldpos, success));
assertSuccess("format", success);
delete form;
}
void TestMessageFormat::testStaticFormat()
{
UErrorCode err = U_ZERO_ERROR;
Formattable arguments[] = {
(int32_t)7,
Formattable(UDate(8.71068e+011), Formattable::kIsDate),
"a disturbance in the Force"
};
UnicodeString result;
result = MessageFormat::format(
"At {1,time} on {1,date}, there was {2} on planet {0,number,integer}.",
arguments,
3,
result,
err);
if (U_FAILURE(err)) {
dataerrln("TestMessageFormat::testStaticFormat #1 - %s", u_errorName(err));
logln(UnicodeString("TestMessageFormat::testStaticFormat failed test #1 with error code ")+(int32_t)err);
return;
}
const UnicodeString expected(
"At 12:20:00 PM on Aug 8, 1997, there was a disturbance in the Force on planet 7.", "");
if (result != expected) {
errln("TestMessageFormat::testStaticFormat failed on test");
logln( UnicodeString(" Result: ") + result );
logln( UnicodeString(" Expected: ") + expected );
}
}
/* When the default locale is tr, make sure that the pattern can still be parsed. */
void TestMessageFormat::TestTurkishCasing()
{
UErrorCode err = U_ZERO_ERROR;
Locale saveDefaultLocale;
Locale::setDefault( Locale("tr"), err );
Formattable arguments[] = {
(int32_t)7,
Formattable(UDate(8.71068e+011), Formattable::kIsDate),
"a disturbance in the Force"
};
UnicodeString result;
result = MessageFormat::format(
"At {1,TIME} on {1,DATE,SHORT}, there was {2} on planet {0,NUMBER,INTEGER}.",
arguments,
3,
result,
err);
if (U_FAILURE(err)) {
dataerrln("TestTurkishCasing #1 with error code %s", u_errorName(err));
return;
}
const UnicodeString expected(
"At 12:20:00 on 8.08.1997, there was a disturbance in the Force on planet 7.", "");
if (result != expected) {
errln("TestTurkishCasing failed on test");
errln( UnicodeString(" Result: ") + result );
errln( UnicodeString(" Expected: ") + expected );
}
Locale::setDefault( saveDefaultLocale, err );
}
void TestMessageFormat::testSimpleFormat(/* char* par */)
{
logln("running TestMessageFormat::testSimpleFormat");
UErrorCode err = U_ZERO_ERROR;
Formattable testArgs1[] = {(int32_t)0, "MyDisk"};
Formattable testArgs2[] = {(int32_t)1, "MyDisk"};
Formattable testArgs3[] = {(int32_t)12, "MyDisk"};
MessageFormat* form = new MessageFormat(
"The disk \"{1}\" contains {0} file(s).", err);
UnicodeString string;
FieldPosition ignore(FieldPosition::DONT_CARE);
form->format(testArgs1, 2, string, ignore, err);
if (U_FAILURE(err) || string != "The disk \"MyDisk\" contains 0 file(s).") {
dataerrln(UnicodeString("TestMessageFormat::testSimpleFormat failed on test #1 - ") + u_errorName(err));
}
ignore.setField(FieldPosition::DONT_CARE);
string.remove();
form->format(testArgs2, 2, string, ignore, err);
if (U_FAILURE(err) || string != "The disk \"MyDisk\" contains 1 file(s).") {
logln(string);
dataerrln(UnicodeString("TestMessageFormat::testSimpleFormat failed on test #2")+string + " - " + u_errorName(err));
}
ignore.setField(FieldPosition::DONT_CARE);
string.remove();
form->format(testArgs3, 2, string, ignore, err);
if (U_FAILURE(err) || string != "The disk \"MyDisk\" contains 12 file(s).") {
dataerrln(UnicodeString("TestMessageFormat::testSimpleFormat failed on test #3")+string + " - " + u_errorName(err));
}
delete form;
}
void TestMessageFormat::testMsgFormatChoice(/* char* par */)
{
logln("running TestMessageFormat::testMsgFormatChoice");
UErrorCode err = U_ZERO_ERROR;
MessageFormat* form = new MessageFormat("The disk \"{1}\" contains {0}.", err);
double filelimits[] = {0,1,2};
UnicodeString filepart[] = {"no files","one file","{0,number} files"};
ChoiceFormat* fileform = new ChoiceFormat(filelimits, filepart, 3);
form->setFormat(1,*fileform); // NOT zero, see below
//is the format adopted?
FieldPosition ignore(FieldPosition::DONT_CARE);
UnicodeString string;
Formattable testArgs1[] = {(int32_t)0, "MyDisk"};
form->format(testArgs1, 2, string, ignore, err);
if (string != "The disk \"MyDisk\" contains no files.") {
errln("TestMessageFormat::testMsgFormatChoice failed on test #1");
}
ignore.setField(FieldPosition::DONT_CARE);
string.remove();
Formattable testArgs2[] = {(int32_t)1, "MyDisk"};
form->format(testArgs2, 2, string, ignore, err);
if (string != "The disk \"MyDisk\" contains one file.") {
errln("TestMessageFormat::testMsgFormatChoice failed on test #2");
}
ignore.setField(FieldPosition::DONT_CARE);
string.remove();
Formattable testArgs3[] = {(int32_t)1273, "MyDisk"};
form->format(testArgs3, 2, string, ignore, err);
if (string != "The disk \"MyDisk\" contains 1,273 files.") {
dataerrln("TestMessageFormat::testMsgFormatChoice failed on test #3 - %s", u_errorName(err));
}
delete form;
delete fileform;
}
void TestMessageFormat::testMsgFormatPlural(/* char* par */)
{
logln("running TestMessageFormat::testMsgFormatPlural");
UErrorCode err = U_ZERO_ERROR;
UnicodeString t1("{0, plural, one{C''est # fichier} other{Ce sont # fichiers}} dans la liste.");
UnicodeString t2("{argument, plural, one{C''est # fichier} other {Ce sont # fichiers}} dans la liste.");
UnicodeString t3("There {0, plural, one{is # zavod}few{are {0, number,###.0} zavoda} other{are # zavodov}} in the directory.");
UnicodeString t4("There {argument, plural, one{is # zavod}few{are {argument, number,###.0} zavoda} other{are #zavodov}} in the directory.");
UnicodeString t5("{0, plural, one {{0, number,C''est #,##0.0# fichier}} other {Ce sont # fichiers}} dans la liste.");
MessageFormat* mfNum = new MessageFormat(t1, Locale("fr"), err);
if (U_FAILURE(err)) {
dataerrln("TestMessageFormat::testMsgFormatPlural #1 - argumentIndex - %s", u_errorName(err));
logln(UnicodeString("TestMessageFormat::testMsgFormatPlural #1 with error code ")+(int32_t)err);
return;
}
Formattable testArgs1((int32_t)0);
FieldPosition ignore(FieldPosition::DONT_CARE);
UnicodeString numResult1;
mfNum->format(&testArgs1, 1, numResult1, ignore, err);
MessageFormat* mfAlpha = new MessageFormat(t2, Locale("fr"), err);
UnicodeString argName[] = {UnicodeString("argument")};
UnicodeString argNameResult;
mfAlpha->format(argName, &testArgs1, 1, argNameResult, err);
if (U_FAILURE(err)) {
dataerrln("TestMessageFormat::testMsgFormatPlural #1 - argumentName - %s", u_errorName(err));
logln(UnicodeString("TestMessageFormat::testMsgFormatPlural #1 with error code ")+(int32_t)err);
delete mfNum;
return;
}
if ( numResult1 != argNameResult){
errln("TestMessageFormat::testMsgFormatPlural #1");
logln(UnicodeString("The results of argumentName and argumentIndex are not the same."));
}
if ( numResult1 != UnicodeString("C\'est 0 fichier dans la liste.")) {
errln("TestMessageFormat::testMsgFormatPlural #1");
logln(UnicodeString("The results of argumentName and argumentIndex are not the same."));
}
err = U_ZERO_ERROR;
delete mfNum;
delete mfAlpha;
MessageFormat* mfNum2 = new MessageFormat(t3, Locale("uk"), err);
numResult1.remove();
Formattable testArgs2((int32_t)4);
mfNum2->format(&testArgs2, 1, numResult1, ignore, err);
MessageFormat* mfAlpha2 = new MessageFormat(t4, Locale("uk"), err);
argNameResult.remove();
mfAlpha2->format(argName, &testArgs2, 1, argNameResult, err);
if (U_FAILURE(err)) {
errln("TestMessageFormat::testMsgFormatPlural #2 - argumentName");
logln(UnicodeString("TestMessageFormat::testMsgFormatPlural #2 with error code ")+(int32_t)err);
delete mfNum2;
return;
}
if ( numResult1 != argNameResult){
errln("TestMessageFormat::testMsgFormatPlural #2");
logln(UnicodeString("The results of argumentName and argumentIndex are not the same."));
}
if ( numResult1 != UnicodeString("There are 4,0 zavoda in the directory.")) {
errln("TestMessageFormat::testMsgFormatPlural #2");
logln(UnicodeString("The results of argumentName and argumentIndex are not the same."));
}
delete mfNum2;
delete mfAlpha2;
// nested formats
err = U_ZERO_ERROR;
MessageFormat* msgFmt = new MessageFormat(t5, Locale("fr"), err);
if (U_FAILURE(err)) {
errln("TestMessageFormat::test nested PluralFormat with argumentName");
logln(UnicodeString("TestMessageFormat::test nested PluralFormat with error code ")+(int32_t)err);
delete msgFmt;
return;
}
Formattable testArgs3((int32_t)0);
argNameResult.remove();
msgFmt->format(&testArgs3, 1, argNameResult, ignore, err);
if (U_FAILURE(err)) {
errln("TestMessageFormat::test nested PluralFormat with argumentName");
}
if ( argNameResult!= UnicodeString("C'est 0,0 fichier dans la liste.")) {
errln(UnicodeString("TestMessageFormat::test nested named PluralFormat: ") + argNameResult);
logln(UnicodeString("The unexpected nested named PluralFormat."));
}
delete msgFmt;
}
void TestMessageFormat::testApostropheInPluralAndSelect() {
UErrorCode errorCode = U_ZERO_ERROR;
MessageFormat msgFmt(UNICODE_STRING_SIMPLE(
"abc_{0,plural,other{#'#'#'{'#''}}_def_{1,select,other{sel'}'ect''}}_xyz"),
Locale::getEnglish(),
errorCode);
if (U_FAILURE(errorCode)) {
errln("MessageFormat constructor failed - %s\n", u_errorName(errorCode));
return;
}
UnicodeString expected = UNICODE_STRING_SIMPLE("abc_3#3{3'_def_sel}ect'_xyz");
Formattable args[] = { (int32_t)3, UNICODE_STRING_SIMPLE("x") };
internalFormat(
&msgFmt, args, 2, expected,
"MessageFormat with apostrophes in plural/select arguments failed:\n");
}
void TestMessageFormat::internalFormat(MessageFormat* msgFmt ,
Formattable* args , int32_t numOfArgs ,
UnicodeString expected, const char* errMsg)
{
UnicodeString result;
FieldPosition ignore(FieldPosition::DONT_CARE);
UErrorCode status = U_ZERO_ERROR;
//Format with passed arguments
msgFmt->format( args , numOfArgs , result, ignore, status);
if (U_FAILURE(status)) {
dataerrln( "%s error while formatting with ErrorCode as %s" ,errMsg, u_errorName(status) );
}
//Compare expected with obtained result
if ( result!= expected ) {
UnicodeString err = UnicodeString(errMsg);
err+= UnicodeString(":Unexpected Result \n Expected: " + expected + "\n Obtained: " + result + "\n");
dataerrln(err);
}
}
MessageFormat* TestMessageFormat::internalCreate(
UnicodeString pattern ,Locale locale ,UErrorCode &status , char* errMsg)
{
//Create the MessageFormat with simple SelectFormat
MessageFormat* msgFmt = new MessageFormat(pattern, locale, status);
if (U_FAILURE(status)) {
dataerrln( "%s error while constructing with ErrorCode as %s" ,errMsg, u_errorName(status) );
logln(UnicodeString("TestMessageFormat::testMsgFormatSelect #1 with error code ")+(int32_t)status);
return NULL;
}
return msgFmt;
}
void TestMessageFormat::testMsgFormatSelect(/* char* par */)
{
logln("running TestMessageFormat::testMsgFormatSelect");
UErrorCode err = U_ZERO_ERROR;
//French Pattern
UnicodeString t1("{0} est {1, select, female {all\\u00E9e} other {all\\u00E9}} \\u00E0 Paris.");
err = U_ZERO_ERROR;
//Create the MessageFormat with simple French pattern
MessageFormat* msgFmt1 = internalCreate(t1.unescape(), Locale("fr"),err,(char*)"From TestMessageFormat::TestSelectFormat create t1");
if (!U_FAILURE(err)) {
//Arguments
Formattable testArgs10[] = {"Kirti","female"};
Formattable testArgs11[] = {"Victor","other"};
Formattable testArgs12[] = {"Ash","unknown"};
Formattable* testArgs[] = {testArgs10,testArgs11,testArgs12};
UnicodeString exp[] = {
"Kirti est all\\u00E9e \\u00E0 Paris." ,
"Victor est all\\u00E9 \\u00E0 Paris.",
"Ash est all\\u00E9 \\u00E0 Paris."};
//Format
for( int i=0; i< 3; i++){
internalFormat( msgFmt1 , testArgs[i], 2, exp[i].unescape() ,(char*)"From TestMessageFormat::testSelectFormat format t1");
}
}
delete msgFmt1;
//Quoted French Pattern
UnicodeString t2("{0} est {1, select, female {all\\u00E9e c''est} other {all\\u00E9 c''est}} \\u00E0 Paris.");
err = U_ZERO_ERROR;
//Create the MessageFormat with Quoted French pattern
MessageFormat* msgFmt2 = internalCreate(t2.unescape(), Locale("fr"),err,(char*)"From TestMessageFormat::TestSelectFormat create t2");
if (!U_FAILURE(err)) {
//Arguments
Formattable testArgs10[] = {"Kirti","female"};
Formattable testArgs11[] = {"Victor","other"};
Formattable testArgs12[] = {"Ash","male"};
Formattable* testArgs[] = {testArgs10,testArgs11,testArgs12};
UnicodeString exp[] = {
"Kirti est all\\u00E9e c'est \\u00E0 Paris." ,
"Victor est all\\u00E9 c'est \\u00E0 Paris.",
"Ash est all\\u00E9 c'est \\u00E0 Paris."};
//Format
for( int i=0; i< 3; i++){
internalFormat( msgFmt2 , testArgs[i], 2, exp[i].unescape() ,(char*)"From TestMessageFormat::testSelectFormat format t2");
}
}
delete msgFmt2;
//English Pattern
UnicodeString t3("{0, select , male {MALE FR company} female {FEMALE FR company} other {FR otherValue}} published new books.");
err = U_ZERO_ERROR;
//Create the MessageFormat with English pattern
MessageFormat* msgFmt3 = internalCreate(t3, Locale("en"),err,(char*)"From TestMessageFormat::TestSelectFormat create t3");
if (!U_FAILURE(err)) {
//Arguments
Formattable testArgs10[] = {"female"};
Formattable testArgs11[] = {"other"};
Formattable testArgs12[] = {"male"};
Formattable* testArgs[] = {testArgs10,testArgs11,testArgs12};
UnicodeString exp[] = {
"FEMALE FR company published new books." ,
"FR otherValue published new books.",
"MALE FR company published new books."};
//Format
for( int i=0; i< 3; i++){
internalFormat( msgFmt3 , testArgs[i], 1, exp[i] ,(char*)"From TestMessageFormat::testSelectFormat format t3");
}
}
delete msgFmt3;
//Nested patterns with plural, number ,choice ,select format etc.
//Select Format with embedded number format
UnicodeString t4("{0} est {1, select, female {{2,number,integer} all\\u00E9e} other {all\\u00E9}} \\u00E0 Paris.");
err = U_ZERO_ERROR;
//Create the MessageFormat with Select Format with embedded number format (nested pattern)
MessageFormat* msgFmt4 = internalCreate(t4.unescape(), Locale("fr"),err,(char*)"From TestMessageFormat::TestSelectFormat create t4");
if (!U_FAILURE(err)) {
//Arguments
Formattable testArgs10[] = {"Kirti","female",(int32_t)6};
Formattable testArgs11[] = {"Kirti","female",100.100};
Formattable testArgs12[] = {"Kirti","other",(int32_t)6};
Formattable* testArgs[] = {testArgs10,testArgs11,testArgs12};
UnicodeString exp[] = {
"Kirti est 6 all\\u00E9e \\u00E0 Paris." ,
"Kirti est 100 all\\u00E9e \\u00E0 Paris.",
"Kirti est all\\u00E9 \\u00E0 Paris."};
//Format
for( int i=0; i< 3; i++){
internalFormat( msgFmt4 , testArgs[i], 3, exp[i].unescape() ,(char*)"From TestMessageFormat::testSelectFormat format t4");
}
}
delete msgFmt4;
//Plural format with embedded select format
UnicodeString t5("{0} {1, plural, one {est {2, select, female {all\\u00E9e} other {all\\u00E9}}} other {sont {2, select, female {all\\u00E9es} other {all\\u00E9s}}}} \\u00E0 Paris.");
err = U_ZERO_ERROR;
//Create the MessageFormat with Plural format with embedded select format(nested pattern)
MessageFormat* msgFmt5 = internalCreate(t5.unescape(), Locale("fr"),err,(char*)"From TestMessageFormat::TestSelectFormat create t5");
if (!U_FAILURE(err)) {
//Arguments
Formattable testArgs10[] = {"Kirti",(int32_t)6,"female"};
Formattable testArgs11[] = {"Kirti",(int32_t)1,"female"};
Formattable testArgs12[] = {"Ash",(int32_t)1,"other"};
Formattable testArgs13[] = {"Ash",(int32_t)5,"other"};
Formattable* testArgs[] = {testArgs10,testArgs11,testArgs12,testArgs13};
UnicodeString exp[] = {
"Kirti sont all\\u00E9es \\u00E0 Paris." ,
"Kirti est all\\u00E9e \\u00E0 Paris.",
"Ash est all\\u00E9 \\u00E0 Paris.",
"Ash sont all\\u00E9s \\u00E0 Paris."};
//Format
for( int i=0; i< 4; i++){
internalFormat( msgFmt5 , testArgs[i], 3, exp[i].unescape() ,(char*)"From TestMessageFormat::testSelectFormat format t5");
}
}
delete msgFmt5;
err = U_ZERO_ERROR;
//Select, plural, and number formats heavily nested
UnicodeString t6("{0} und {1, select, female {{2, plural, one {{3, select, female {ihre Freundin} other {ihr Freund}} } other {ihre {2, number, integer} {3, select, female {Freundinnen} other {Freunde}} } }} other{{2, plural, one {{3, select, female {seine Freundin} other {sein Freund}}} other {seine {2, number, integer} {3, select, female {Freundinnen} other {Freunde}}}}} } gingen nach Paris.");
//Create the MessageFormat with Select, plural, and number formats heavily nested
MessageFormat* msgFmt6 = internalCreate(t6, Locale("de"),err,(char*)"From TestMessageFormat::TestSelectFormat create t6");
if (!U_FAILURE(err)) {
//Arguments
Formattable testArgs10[] = {"Kirti","other",(int32_t)1,"other"};
Formattable testArgs11[] = {"Kirti","other",(int32_t)6,"other"};
Formattable testArgs12[] = {"Kirti","other",(int32_t)1,"female"};
Formattable testArgs13[] = {"Kirti","other",(int32_t)3,"female"};
Formattable testArgs14[] = {"Kirti","female",(int32_t)1,"female"};
Formattable testArgs15[] = {"Kirti","female",(int32_t)5,"female"};
Formattable testArgs16[] = {"Kirti","female",(int32_t)1,"other"};
Formattable testArgs17[] = {"Kirti","female",(int32_t)5,"other"};
Formattable testArgs18[] = {"Kirti","mixed",(int32_t)1,"mixed"};
Formattable testArgs19[] = {"Kirti","mixed",(int32_t)1,"other"};
Formattable testArgs20[] = {"Kirti","female",(int32_t)1,"mixed"};
Formattable testArgs21[] = {"Kirti","mixed",(int32_t)5,"mixed"};
Formattable testArgs22[] = {"Kirti","mixed",(int32_t)5,"other"};
Formattable testArgs23[] = {"Kirti","female",(int32_t)5,"mixed"};
Formattable* testArgs[] = {testArgs10,testArgs11,testArgs12,testArgs13,
testArgs14,testArgs15,testArgs16,testArgs17,
testArgs18,testArgs19,testArgs20,testArgs21,
testArgs22,testArgs23 };
UnicodeString exp[] = {
"Kirti und sein Freund gingen nach Paris." ,
"Kirti und seine 6 Freunde gingen nach Paris." ,
"Kirti und seine Freundin gingen nach Paris.",
"Kirti und seine 3 Freundinnen gingen nach Paris.",
"Kirti und ihre Freundin gingen nach Paris.",
"Kirti und ihre 5 Freundinnen gingen nach Paris.",
"Kirti und ihr Freund gingen nach Paris.",
"Kirti und ihre 5 Freunde gingen nach Paris.",
"Kirti und sein Freund gingen nach Paris.",
"Kirti und sein Freund gingen nach Paris.",
"Kirti und ihr Freund gingen nach Paris.",
"Kirti und seine 5 Freunde gingen nach Paris." ,
"Kirti und seine 5 Freunde gingen nach Paris." ,
"Kirti und ihre 5 Freunde gingen nach Paris."
};
//Format
for( int i=0; i< 14; i++){
internalFormat( msgFmt6 , testArgs[i], 4, exp[i] ,(char*)"From TestMessageFormat::testSelectFormat format t6");
}
}
delete msgFmt6;
}
//---------------------------------
// API Tests
//---------------------------------
void TestMessageFormat::testCopyConstructor()
{
UErrorCode success = U_ZERO_ERROR;
MessageFormat *x = new MessageFormat("There are {0} files on {1}", success);
MessageFormat *z = new MessageFormat("There are {0} files on {1} created", success);
MessageFormat *y = 0;
y = new MessageFormat(*x);
if ( (*x == *y) &&
(*x != *z) &&
(*y != *z) )
logln("First test (operator ==): Passed!");
else {
errln("TestMessageFormat::testCopyConstructor failed #1");
logln("First test (operator ==): Failed!");
}
if ( ((*x == *y) && (*y == *x)) &&
((*x != *z) && (*z != *x)) &&
((*y != *z) && (*z != *y)) )
logln("Second test (equals): Passed!");
else {
errln("TestMessageFormat::testCopyConstructor failed #2");
logln("Second test (equals): Failed!");
}
delete x;
delete y;
delete z;
}
void TestMessageFormat::testAssignment()
{
UErrorCode success = U_ZERO_ERROR;
MessageFormat *x = new MessageFormat("There are {0} files on {1}", success);
MessageFormat *z = new MessageFormat("There are {0} files on {1} created", success);
MessageFormat *y = new MessageFormat("There are {0} files on {1} created", success);
*y = *x;
if ( (*x == *y) &&
(*x != *z) &&
(*y != *z) )
logln("First test (operator ==): Passed!");
else {
errln( "TestMessageFormat::testAssignment failed #1");
logln("First test (operator ==): Failed!");
}
if ( ((*x == *y) && (*y == *x)) &&
((*x != *z) && (*z != *x)) &&
((*y != *z) && (*z != *y)) )
logln("Second test (equals): Passed!");
else {
errln("TestMessageFormat::testAssignment failed #2");
logln("Second test (equals): Failed!");
}
delete x;
delete y;
delete z;
}
void TestMessageFormat::testClone()
{
UErrorCode success = U_ZERO_ERROR;
MessageFormat *x = new MessageFormat("There are {0} files on {1}", success);
MessageFormat *z = new MessageFormat("There are {0} files on {1} created", success);
MessageFormat *y = 0;
y = (MessageFormat*)x->clone();
if ( (*x == *y) &&
(*x != *z) &&
(*y != *z) )
logln("First test (operator ==): Passed!");
else {
errln("TestMessageFormat::testClone failed #1");
logln("First test (operator ==): Failed!");
}
if ( ((*x == *y) && (*y == *x)) &&
((*x != *z) && (*z != *x)) &&
((*y != *z) && (*z != *y)) )
logln("Second test (equals): Passed!");
else {
errln("TestMessageFormat::testClone failed #2");
logln("Second test (equals): Failed!");
}
delete x;
delete y;
delete z;
}
void TestMessageFormat::testEquals()
{
UErrorCode success = U_ZERO_ERROR;
MessageFormat x("There are {0} files on {1}", success);
MessageFormat y("There are {0} files on {1}", success);
if (!(x == y)) {
errln( "TestMessageFormat::testEquals failed #1");
logln("First test (operator ==): Failed!");
}
}
void TestMessageFormat::testNotEquals()
{
UErrorCode success = U_ZERO_ERROR;
MessageFormat x("There are {0} files on {1}", success);
MessageFormat y(x);
y.setLocale(Locale("fr"));
if (!(x != y)) {
errln( "TestMessageFormat::testEquals failed #1");
logln("First test (operator !=): Failed!");
}
y = x;
y.applyPattern("There are {0} files on {1} the disk", success);
if (!(x != y)) {
errln( "TestMessageFormat::testEquals failed #1");
logln("Second test (operator !=): Failed!");
}
}
void TestMessageFormat::testSetLocale()
{
UErrorCode err = U_ZERO_ERROR;
GregorianCalendar cal(err);
Formattable arguments[] = {
456.83,
Formattable(UDate(8.71068e+011), Formattable::kIsDate),
"deposit"
};
UnicodeString result;
//UnicodeString formatStr = "At {1,time} on {1,date}, you made a {2} of {0,number,currency}.";
UnicodeString formatStr = "At <time> on {1,date}, you made a {2} of {0,number,currency}.";
// {sfb} to get $, would need Locale::US, not Locale::ENGLISH
// Just use unlocalized currency symbol.
//UnicodeString compareStrEng = "At <time> on Aug 8, 1997, you made a deposit of $456.83.";
UnicodeString compareStrEng = "At <time> on Aug 8, 1997, you made a deposit of ";
compareStrEng += (UChar) 0x00a4;
compareStrEng += "456.83.";
// {sfb} to get DM, would need Locale::GERMANY, not Locale::GERMAN
// Just use unlocalized currency symbol.
//UnicodeString compareStrGer = "At <time> on 08.08.1997, you made a deposit of 456,83 DM.";
UnicodeString compareStrGer = "At <time> on 08.08.1997, you made a deposit of ";
compareStrGer += "456,83";
compareStrGer += (UChar) 0x00a0;
compareStrGer += (UChar) 0x00a4;
compareStrGer += ".";
MessageFormat msg( formatStr, err);
result = "";
FieldPosition pos(0);
result = msg.format(
arguments,
3,
result,
pos,
err);
logln(result);
if (result != compareStrEng) {
dataerrln("*** MSG format err. - %s", u_errorName(err));
}
msg.setLocale(Locale::getEnglish());
UBool getLocale_ok = TRUE;
if (msg.getLocale() != Locale::getEnglish()) {
errln("*** MSG getLocal err.");
getLocale_ok = FALSE;
}
msg.setLocale(Locale::getGerman());
if (msg.getLocale() != Locale::getGerman()) {
errln("*** MSG getLocal err.");
getLocale_ok = FALSE;
}
msg.applyPattern( formatStr, err);
pos.setField(0);
result = "";
result = msg.format(
arguments,
3,
result,
pos,
err);
logln(result);
if (result == compareStrGer) {
logln("MSG setLocale tested.");
}else{
dataerrln( "*** MSG setLocale err. - %s", u_errorName(err));
}
if (getLocale_ok) {
logln("MSG getLocale tested.");
}
}
void TestMessageFormat::testFormat()
{
UErrorCode err = U_ZERO_ERROR;
GregorianCalendar cal(err);
const Formattable ftarray[] =
{
Formattable( UDate(8.71068e+011), Formattable::kIsDate )
};
const int32_t ft_cnt = sizeof(ftarray) / sizeof(Formattable);
Formattable ft_arr( ftarray, ft_cnt );
Formattable* fmt = new Formattable(UDate(8.71068e+011), Formattable::kIsDate);
UnicodeString result;
//UnicodeString formatStr = "At {1,time} on {1,date}, you made a {2} of {0,number,currency}.";
UnicodeString formatStr = "On {0,date}, it began.";
UnicodeString compareStr = "On Aug 8, 1997, it began.";
err = U_ZERO_ERROR;
MessageFormat msg( formatStr, err);
FieldPosition fp(0);
result = "";
fp = 0;
result = msg.format(
*fmt,
result,
//FieldPosition(0),
fp,
err);
if (err != U_ILLEGAL_ARGUMENT_ERROR) {
dataerrln("*** MSG format without expected error code. - %s", u_errorName(err));
}
err = U_ZERO_ERROR;
result = "";
fp = 0;
result = msg.format(
ft_arr,
result,
//FieldPosition(0),
fp,
err);
logln("MSG format( Formattable&, ... ) expected:" + compareStr);
logln("MSG format( Formattable&, ... ) result:" + result);
if (result != compareStr) {
dataerrln("*** MSG format( Formattable&, .... ) err. - %s", u_errorName(err));
}else{
logln("MSG format( Formattable&, ... ) tested.");
}
delete fmt;
}
void TestMessageFormat::testParse()
{
UErrorCode err = U_ZERO_ERROR;
int32_t count;
UnicodeString msgFormatString = "{0} =sep= {1}";
MessageFormat msg( msgFormatString, err);
UnicodeString source = "abc =sep= def";
UnicodeString tmp1, tmp2;
Formattable* fmt_arr = msg.parse( source, count, err );
if (U_FAILURE(err) || (!fmt_arr)) {
errln("*** MSG parse (ustring, count, err) error.");
}else{
logln("MSG parse -- count: %d", count);
if (count != 2) {
errln("*** MSG parse (ustring, count, err) count err.");
}else{
if ((fmt_arr[0].getType() == Formattable::kString)
&& (fmt_arr[1].getType() == Formattable::kString)
&& (fmt_arr[0].getString(tmp1) == "abc")
&& (fmt_arr[1].getString(tmp2) == "def")) {
logln("MSG parse (ustring, count, err) tested.");
}else{
errln("*** MSG parse (ustring, count, err) result err.");
}
}
}
delete[] fmt_arr;
ParsePosition pp(0);
fmt_arr = msg.parse( source, pp, count );
if ((pp == 0) || (!fmt_arr)) {
errln("*** MSG parse (ustring, parsepos., count) error.");
}else{
logln("MSG parse -- count: %d", count);
if (count != 2) {
errln("*** MSG parse (ustring, parsepos., count) count err.");
}else{
if ((fmt_arr[0].getType() == Formattable::kString)
&& (fmt_arr[1].getType() == Formattable::kString)
&& (fmt_arr[0].getString(tmp1) == "abc")
&& (fmt_arr[1].getString(tmp2) == "def")) {
logln("MSG parse (ustring, parsepos., count) tested.");
}else{
errln("*** MSG parse (ustring, parsepos., count) result err.");
}
}
}
delete[] fmt_arr;
pp = 0;
Formattable fmta;
msg.parseObject( source, fmta, pp );
if (pp == 0) {
errln("*** MSG parse (ustring, Formattable, parsepos ) error.");
}else{
logln("MSG parse -- count: %d", count);
fmta.getArray(count);
if (count != 2) {
errln("*** MSG parse (ustring, Formattable, parsepos ) count err.");
}else{
if ((fmta[0].getType() == Formattable::kString)
&& (fmta[1].getType() == Formattable::kString)
&& (fmta[0].getString(tmp1) == "abc")
&& (fmta[1].getString(tmp2) == "def")) {
logln("MSG parse (ustring, Formattable, parsepos ) tested.");
}else{
errln("*** MSG parse (ustring, Formattable, parsepos ) result err.");
}
}
}
}
void TestMessageFormat::testAdopt()
{
UErrorCode err = U_ZERO_ERROR;
UnicodeString formatStr("{0,date},{1},{2,number}", "");
UnicodeString formatStrChange("{0,number},{1,number},{2,date}", "");
err = U_ZERO_ERROR;
MessageFormat msg( formatStr, err);
MessageFormat msgCmp( formatStr, err);
if (U_FAILURE(err)) {
dataerrln("Unable to instantiate MessageFormat - %s", u_errorName(err));
return;
}
int32_t count, countCmp;
const Format** formats = msg.getFormats(count);
const Format** formatsCmp = msgCmp.getFormats(countCmp);
const Format** formatsChg = 0;
const Format** formatsAct = 0;
int32_t countAct;
const Format* a;
const Format* b;
UnicodeString patCmp;
UnicodeString patAct;
Format** formatsToAdopt;
if (!formats || !formatsCmp || (count <= 0) || (count != countCmp)) {
dataerrln("Error getting Formats");
return;
}
int32_t i;
for (i = 0; i < count; i++) {
a = formats[i];
b = formatsCmp[i];
if ((a != NULL) && (b != NULL)) {
if (*a != *b) {
errln("a != b");
return;
}
}else if ((a != NULL) || (b != NULL)) {
errln("(a != NULL) || (b != NULL)");
return;
}
}
msg.applyPattern( formatStrChange, err ); //set msg formats to something different
int32_t countChg;
formatsChg = msg.getFormats(countChg); // tested function
if (!formatsChg || (countChg != count)) {
errln("Error getting Formats");
return;
}
UBool diff;
diff = TRUE;
for (i = 0; i < count; i++) {
a = formatsChg[i];
b = formatsCmp[i];
if ((a != NULL) && (b != NULL)) {
if (*a == *b) {
logln("formatsChg == formatsCmp at index %d", i);
diff = FALSE;
}
}
}
if (!diff) {
errln("*** MSG getFormats diff err.");
return;
}
logln("MSG getFormats tested.");
msg.setFormats( formatsCmp, countCmp ); //tested function
formatsAct = msg.getFormats(countAct);
if (!formatsAct || (countAct <=0) || (countAct != countCmp)) {
errln("Error getting Formats");
return;
}
assertEquals("msgCmp.toPattern()", formatStr, msgCmp.toPattern(patCmp.remove()));
// ICU 4.8 does not support toPattern() when there are custom formats (from setFormat() etc.).
// assertEquals("msg.toPattern()", formatStr, msg.toPattern(patAct.remove()));
msg.toPattern(patCmp.remove());
if (!patCmp.isBogus()) {
errln("msg.setFormat().toPattern() succeeds.");
}
for (i = 0; i < countAct; i++) {
a = formatsAct[i];
b = formatsCmp[i];
if ((a != NULL) && (b != NULL)) {
if (*a != *b) {
logln("formatsAct != formatsCmp at index %d", i);
errln("a != b");
return;
}
}else if ((a != NULL) || (b != NULL)) {
errln("(a != NULL) || (b != NULL)");
return;
}
}
logln("MSG setFormats tested.");
//----
msg.applyPattern( formatStrChange, err ); //set msg formats to something different
formatsToAdopt = new Format* [countCmp];
if (!formatsToAdopt) {
errln("memory allocation error");
return;
}
for (i = 0; i < countCmp; i++) {
if (formatsCmp[i] == NULL) {
formatsToAdopt[i] = NULL;
}else{
formatsToAdopt[i] = formatsCmp[i]->clone();
if (!formatsToAdopt[i]) {
errln("Can't clone format at index %d", i);
return;
}
}
}
msg.adoptFormats( formatsToAdopt, countCmp ); // function to test
delete[] formatsToAdopt;
assertEquals("msgCmp.toPattern()", formatStr, msgCmp.toPattern(patCmp.remove()));
// ICU 4.8 does not support toPattern() when there are custom formats (from setFormat() etc.).
// assertEquals("msg.toPattern()", formatStr, msg.toPattern(patAct.remove()));
formatsAct = msg.getFormats(countAct);
if (!formatsAct || (countAct <=0) || (countAct != countCmp)) {
errln("Error getting Formats");
return;
}
for (i = 0; i < countAct; i++) {
a = formatsAct[i];
b = formatsCmp[i];
if ((a != NULL) && (b != NULL)) {
if (*a != *b) {
errln("a != b");
return;
}
}else if ((a != NULL) || (b != NULL)) {
errln("(a != NULL) || (b != NULL)");
return;
}
}
logln("MSG adoptFormats tested.");
//---- adoptFormat
msg.applyPattern( formatStrChange, err ); //set msg formats to something different
formatsToAdopt = new Format* [countCmp];
if (!formatsToAdopt) {
errln("memory allocation error");
return;
}
for (i = 0; i < countCmp; i++) {
if (formatsCmp[i] == NULL) {
formatsToAdopt[i] = NULL;
}else{
formatsToAdopt[i] = formatsCmp[i]->clone();
if (!formatsToAdopt[i]) {
errln("Can't clone format at index %d", i);
return;
}
}
}
for ( i = 0; i < countCmp; i++ ) {
msg.adoptFormat( i, formatsToAdopt[i] ); // function to test
}
delete[] formatsToAdopt; // array itself not needed in this case;
assertEquals("msgCmp.toPattern()", formatStr, msgCmp.toPattern(patCmp.remove()));
// ICU 4.8 does not support toPattern() when there are custom formats (from setFormat() etc.).
// assertEquals("msg.toPattern()", formatStr, msg.toPattern(patAct.remove()));
formatsAct = msg.getFormats(countAct);
if (!formatsAct || (countAct <=0) || (countAct != countCmp)) {
errln("Error getting Formats");
return;
}
for (i = 0; i < countAct; i++) {
a = formatsAct[i];
b = formatsCmp[i];
if ((a != NULL) && (b != NULL)) {
if (*a != *b) {
errln("a != b");
return;
}
}else if ((a != NULL) || (b != NULL)) {
errln("(a != NULL) || (b != NULL)");
return;
}
}
logln("MSG adoptFormat tested.");
}
// This test is a regression test for a fixed bug in the copy constructor.
// It is kept as a global function rather than as a method since the test depends on memory values.
// (At least before the bug was fixed, whether it showed up or not depended on memory contents,
// which is probably why it didn't show up in the regular test for the copy constructor.)
// For this reason, the test isn't changed even though it contains function calls whose results are
// not tested and had no problems. Actually, the test failed by *crashing*.
static void _testCopyConstructor2()
{
UErrorCode status = U_ZERO_ERROR;
UnicodeString formatStr("Hello World on {0,date,full}", "");
UnicodeString resultStr(" ", "");
UnicodeString result;
FieldPosition fp(0);
UDate d = Calendar::getNow();
const Formattable fargs( d, Formattable::kIsDate );
MessageFormat* fmt1 = new MessageFormat( formatStr, status );
MessageFormat* fmt2 = NULL;
MessageFormat* fmt3 = NULL;
MessageFormat* fmt4 = NULL;
if (fmt1 == NULL) {
it_err("testCopyConstructor2: (fmt1 != NULL)");
goto cleanup;
}
fmt2 = new MessageFormat( *fmt1 );
result = fmt1->format( &fargs, 1, resultStr, fp, status );
if (fmt2 == NULL) {
it_err("testCopyConstructor2: (fmt2 != NULL)");
goto cleanup;
}
fmt3 = (MessageFormat*) fmt1->clone();
fmt4 = (MessageFormat*) fmt2->clone();
if (fmt3 == NULL) {
it_err("testCopyConstructor2: (fmt3 != NULL)");
goto cleanup;
}
if (fmt4 == NULL) {
it_err("testCopyConstructor2: (fmt4 != NULL)");
goto cleanup;
}
result = fmt1->format( &fargs, 1, resultStr, fp, status );
result = fmt2->format( &fargs, 1, resultStr, fp, status );
result = fmt3->format( &fargs, 1, resultStr, fp, status );
result = fmt4->format( &fargs, 1, resultStr, fp, status );
cleanup:
delete fmt1;
delete fmt2;
delete fmt3;
delete fmt4;
}
void TestMessageFormat::testCopyConstructor2() {
_testCopyConstructor2();
}
/**
* Verify that MessageFormat accomodates more than 10 arguments and
* more than 10 subformats.
*/
void TestMessageFormat::TestUnlimitedArgsAndSubformats() {
UErrorCode ec = U_ZERO_ERROR;
const UnicodeString pattern =
"On {0,date} (aka {0,date,short}, aka {0,date,long}) "
"at {0,time} (aka {0,time,short}, aka {0,time,long}) "
"there were {1,number} werjes "
"(a {3,number,percent} increase over {2,number}) "
"despite the {4}''s efforts "
"and to delight of {5}, {6}, {7}, {8}, {9}, and {10} {11}.";
MessageFormat msg(pattern, ec);
if (U_FAILURE(ec)) {
dataerrln("FAIL: constructor failed - %s", u_errorName(ec));
return;
}
const Formattable ARGS[] = {
Formattable(UDate(1e13), Formattable::kIsDate),
Formattable((int32_t)1303),
Formattable((int32_t)1202),
Formattable(1303.0/1202 - 1),
Formattable("Glimmung"),
Formattable("the printers"),
Formattable("Nick"),
Formattable("his father"),
Formattable("his mother"),
Formattable("the spiddles"),
Formattable("of course"),
Formattable("Horace"),
};
const int32_t ARGS_LENGTH = sizeof(ARGS) / sizeof(ARGS[0]);
Formattable ARGS_OBJ(ARGS, ARGS_LENGTH);
UnicodeString expected =
"On Nov 20, 2286 (aka 11/20/86, aka November 20, 2286) "
"at 9:46:40 AM (aka 9:46 AM, aka 9:46:40 AM PST) "
"there were 1,303 werjes "
"(a 8% increase over 1,202) "
"despite the Glimmung's efforts "
"and to delight of the printers, Nick, his father, "
"his mother, the spiddles, and of course Horace.";
UnicodeString result;
msg.format(ARGS_OBJ, result, ec);
if (result == expected) {
logln(result);
} else {
errln((UnicodeString)"FAIL: Got " + result +
", expected " + expected);
}
}
// test RBNF extensions to message format
void TestMessageFormat::TestRBNF(void) {
// WARNING: this depends on the RBNF formats for en_US
Locale locale("en", "US", "");
UErrorCode ec = U_ZERO_ERROR;
UnicodeString values[] = {
// decimal values do not format completely for ordinal or duration, and
// do not always parse, so do not include them
"0", "1", "12", "100", "123", "1001", "123,456", "-17",
};
int32_t values_count = sizeof(values)/sizeof(values[0]);
UnicodeString formats[] = {
"There are {0,spellout} files to search.",
"There are {0,spellout,%simplified} files to search.",
"The bogus spellout {0,spellout,%BOGUS} files behaves like the default.",
"This is the {0,ordinal} file to search.",
"Searching this file will take {0,duration} to complete.",
"Searching this file will take {0,duration,%with-words} to complete.",
};
int32_t formats_count = sizeof(formats)/sizeof(formats[0]);
Formattable args[1];
NumberFormat* numFmt = NumberFormat::createInstance(locale, ec);
if (U_FAILURE(ec)) {
dataerrln("Error calling NumberFormat::createInstance()");
return;
}
for (int i = 0; i < formats_count; ++i) {
MessageFormat* fmt = new MessageFormat(formats[i], locale, ec);
logln((UnicodeString)"Testing format pattern: '" + formats[i] + "'");
for (int j = 0; j < values_count; ++j) {
ec = U_ZERO_ERROR;
numFmt->parse(values[j], args[0], ec);
if (U_FAILURE(ec)) {
errln((UnicodeString)"Failed to parse test argument " + values[j]);
} else {
FieldPosition fp(0);
UnicodeString result;
fmt->format(args, 1, result, fp, ec);
logln((UnicodeString)"value: " + toString(args[0]) + " --> " + result + UnicodeString(" ec: ") + u_errorName(ec));
int32_t count = 0;
Formattable* parseResult = fmt->parse(result, count, ec);
if (count != 1) {
errln((UnicodeString)"parse returned " + count + " args");
} else if (parseResult[0] != args[0]) {
errln((UnicodeString)"parsed argument " + toString(parseResult[0]) + " != " + toString(args[0]));
}
delete []parseResult;
}
}
delete fmt;
}
delete numFmt;
}
UnicodeString TestMessageFormat::GetPatternAndSkipSyntax(const MessagePattern& pattern) {
UnicodeString us(pattern.getPatternString());
int count = pattern.countParts();
for (int i = count; i > 0;) {
const MessagePattern::Part& part = pattern.getPart(--i);
if (part.getType() == UMSGPAT_PART_TYPE_SKIP_SYNTAX) {
us.remove(part.getIndex(), part.getLimit() - part.getIndex());
}
}
return us;
}
void TestMessageFormat::TestApostropheMode() {
UErrorCode status = U_ZERO_ERROR;
MessagePattern *ado_mp = new MessagePattern(UMSGPAT_APOS_DOUBLE_OPTIONAL, status);
MessagePattern *adr_mp = new MessagePattern(UMSGPAT_APOS_DOUBLE_REQUIRED, status);
if (ado_mp->getApostropheMode() != UMSGPAT_APOS_DOUBLE_OPTIONAL) {
errln("wrong value from ado_mp->getApostropheMode().");
}
if (adr_mp->getApostropheMode() != UMSGPAT_APOS_DOUBLE_REQUIRED) {
errln("wrong value from adr_mp->getApostropheMode().");
}
UnicodeString tuples[] = {
// Desired output
// DOUBLE_OPTIONAL pattern
// DOUBLE_REQUIRED pattern (empty=same as DOUBLE_OPTIONAL)
"I see {many}", "I see '{many}'", "",
"I said {'Wow!'}", "I said '{''Wow!''}'", "",
"I dont know", "I dont know", "I don't know",
"I don't know", "I don't know", "I don''t know",
"I don't know", "I don''t know", "I don''t know"
};
int32_t tuples_count = UPRV_LENGTHOF(tuples);
for (int i = 0; i < tuples_count; i += 3) {
UnicodeString& desired = tuples[i];
UnicodeString& ado_pattern = tuples[i + 1];
UErrorCode status = U_ZERO_ERROR;
assertEquals("DOUBLE_OPTIONAL failure",
desired,
GetPatternAndSkipSyntax(ado_mp->parse(ado_pattern, NULL, status)));
UnicodeString& adr_pattern = tuples[i + 2].isEmpty() ? ado_pattern : tuples[i + 2];
assertEquals("DOUBLE_REQUIRED failure", desired,
GetPatternAndSkipSyntax(adr_mp->parse(adr_pattern, NULL, status)));
}
delete adr_mp;
delete ado_mp;
}
// Compare behavior of DOUBLE_OPTIONAL (new default) and DOUBLE_REQUIRED JDK-compatibility mode.
void TestMessageFormat::TestCompatibleApostrophe() {
// Message with choice argument which does not contain another argument.
// The JDK performs only one apostrophe-quoting pass on this pattern.
UnicodeString pattern = "ab{0,choice,0#1'2''3'''4''''.}yz";
UErrorCode ec = U_ZERO_ERROR;
MessageFormat compMsg("", Locale::getUS(), ec);
compMsg.applyPattern(pattern, UMSGPAT_APOS_DOUBLE_REQUIRED, NULL, ec);
if (compMsg.getApostropheMode() != UMSGPAT_APOS_DOUBLE_REQUIRED) {
errln("wrong value from compMsg.getApostropheMode().");
}
MessageFormat icuMsg("", Locale::getUS(), ec);
icuMsg.applyPattern(pattern, UMSGPAT_APOS_DOUBLE_OPTIONAL, NULL, ec);
if (icuMsg.getApostropheMode() != UMSGPAT_APOS_DOUBLE_OPTIONAL) {
errln("wrong value from icuMsg.getApostropheMode().");
}
Formattable zero0[] = { (int32_t)0 };
FieldPosition fieldpos(0);
UnicodeString buffer1, buffer2;
assertEquals("incompatible ICU MessageFormat compatibility-apostrophe behavior",
"ab12'3'4''.yz",
compMsg.format(zero0, 1, buffer1, fieldpos, ec));
assertEquals("unexpected ICU MessageFormat double-apostrophe-optional behavior",
"ab1'2'3''4''.yz",
icuMsg.format(zero0, 1, buffer2, fieldpos, ec));
// Message with choice argument which contains a nested simple argument.
// The DOUBLE_REQUIRED version performs two apostrophe-quoting passes.
buffer1.remove();
buffer2.remove();
pattern = "ab{0,choice,0#1'2''3'''4''''.{0,number,'#x'}}yz";
compMsg.applyPattern(pattern, ec);
icuMsg.applyPattern(pattern, ec);
if (U_FAILURE(ec)) {
dataerrln("Unable to applyPattern - %s", u_errorName(ec));
} else {
assertEquals("incompatible ICU MessageFormat compatibility-apostrophe behavior",
"ab1234'.0xyz",
compMsg.format(zero0, 1, buffer1, fieldpos, ec));
assertEquals("unexpected ICU MessageFormat double-apostrophe-optional behavior",
"ab1'2'3''4''.#x0yz",
icuMsg.format(zero0, 1, buffer2, fieldpos, ec));
}
// This part is copied over from Java tests but cannot be properly tested here
// because we do not have a live reference implementation with JDK behavior.
// The JDK ChoiceFormat itself always performs one apostrophe-quoting pass.
/*
ChoiceFormat choice = new ChoiceFormat("0#1'2''3'''4''''.");
assertEquals("unexpected JDK ChoiceFormat apostrophe behavior",
"12'3'4''.",
choice.format(0));
choice.applyPattern("0#1'2''3'''4''''.{0,number,'#x'}");
assertEquals("unexpected JDK ChoiceFormat apostrophe behavior",
"12'3'4''.{0,number,#x}",
choice.format(0));
*/
}
void TestMessageFormat::testAutoQuoteApostrophe(void) {
const char* patterns[] = { // pattern, expected pattern
"'", "''",
"''", "''",
"'{", "'{'",
"' {", "'' {",
"'a", "''a",
"'{'a", "'{'a",
"'{a'", "'{a'",
"'{}", "'{}'",
"{'", "{'",
"{'a", "{'a",
"{'a{}'a}'a", "{'a{}'a}''a",
"'}'", "'}'",
"'} '{'}'", "'} '{'}''",
"'} {{{''", "'} {{{'''",
};
int32_t pattern_count = sizeof(patterns)/sizeof(patterns[0]);
for (int i = 0; i < pattern_count; i += 2) {
UErrorCode status = U_ZERO_ERROR;
UnicodeString result = MessageFormat::autoQuoteApostrophe(patterns[i], status);
UnicodeString target(patterns[i+1]);
if (target != result) {
const int BUF2_LEN = 64;
char buf[256];
char buf2[BUF2_LEN];
int32_t len = result.extract(0, result.length(), buf2, BUF2_LEN);
if (len >= BUF2_LEN) {
buf2[BUF2_LEN-1] = 0;
}
sprintf(buf, "[%2d] test \"%s\": target (\"%s\") != result (\"%s\")\n", i/2, patterns[i], patterns[i+1], buf2);
errln(buf);
}
}
}
void TestMessageFormat::testCoverage(void) {
UErrorCode status = U_ZERO_ERROR;
UnicodeString testformat("{argument, plural, one{C''est # fichier} other {Ce sont # fichiers}} dans la liste.");
MessageFormat *msgfmt = new MessageFormat(testformat, Locale("fr"), status);
if (msgfmt == NULL || U_FAILURE(status)) {
dataerrln("FAIL: Unable to create MessageFormat.: %s", u_errorName(status));
return;
}
if (!msgfmt->usesNamedArguments()) {
errln("FAIL: Unable to detect usage of named arguments.");
}
const double limit[] = {0.0, 1.0, 2.0};
const UnicodeString formats[] = {"0.0<=Arg<1.0",
"1.0<=Arg<2.0",
"2.0<-Arg"};
ChoiceFormat cf(limit, formats, 3);
msgfmt->setFormat("set", cf, status);
StringEnumeration *en = msgfmt->getFormatNames(status);
if (en == NULL || U_FAILURE(status)) {
errln("FAIL: Unable to get format names enumeration.");
} else {
int32_t count = 0;
en->reset(status);
count = en->count(status);
if (U_FAILURE(status)) {
errln("FAIL: Unable to get format name enumeration count.");
} else {
for (int32_t i = 0; i < count; i++) {
en->snext(status);
if (U_FAILURE(status)) {
errln("FAIL: Error enumerating through names.");
break;
}
}
}
}
// adoptFormat() takes ownership of the input Format object.
// We need to clone the stack-allocated cf so that we do not attempt to delete cf.
Format *cfClone = cf.clone();
msgfmt->adoptFormat("adopt", cfClone, status);
delete en;
delete msgfmt;
msgfmt = new MessageFormat("'", status);
if (msgfmt == NULL || U_FAILURE(status)) {
errln("FAIL: Unable to create MessageFormat.");
return;
}
if (msgfmt->usesNamedArguments()) {
errln("FAIL: Unable to detect usage of named arguments.");
}
// Starting with ICU 4.8, we support setFormat(name, ...) and getFormatNames()
// on a MessageFormat without named arguments.
msgfmt->setFormat("formatName", cf, status);
if (U_FAILURE(status)) {
errln("FAIL: Should work to setFormat(name, ...) regardless of pattern.");
}
status = U_ZERO_ERROR;
en = msgfmt->getFormatNames(status);
if (U_FAILURE(status)) {
errln("FAIL: Should work to get format names enumeration regardless of pattern.");
}
delete en;
delete msgfmt;
}
void TestMessageFormat::testGetFormatNames() {
IcuTestErrorCode errorCode(*this, "testGetFormatNames");
MessageFormat msgfmt("Hello, {alice,number} {oops,date,full} {zip,spellout} World.", Locale::getRoot(), errorCode);
if(errorCode.logDataIfFailureAndReset("MessageFormat() failed")) {
return;
}
LocalPointer<StringEnumeration> names(msgfmt.getFormatNames(errorCode));
if(errorCode.logIfFailureAndReset("msgfmt.getFormatNames() failed")) {
return;
}
const UnicodeString *name;
name = names->snext(errorCode);
if (name == NULL || errorCode.isFailure()) {
errln("msgfmt.getFormatNames()[0] failed: %s", errorCode.errorName());
errorCode.reset();
return;
}
if (!assertEquals("msgfmt.getFormatNames()[0]", UNICODE_STRING_SIMPLE("alice"), *name)) {
return;
}
name = names->snext(errorCode);
if (name == NULL || errorCode.isFailure()) {
errln("msgfmt.getFormatNames()[1] failed: %s", errorCode.errorName());
errorCode.reset();
return;
}
if (!assertEquals("msgfmt.getFormatNames()[1]", UNICODE_STRING_SIMPLE("oops"), *name)) {
return;
}
name = names->snext(errorCode);
if (name == NULL || errorCode.isFailure()) {
errln("msgfmt.getFormatNames()[2] failed: %s", errorCode.errorName());
errorCode.reset();
return;
}
if (!assertEquals("msgfmt.getFormatNames()[2]", UNICODE_STRING_SIMPLE("zip"), *name)) {
return;
}
name = names->snext(errorCode);
if (name != NULL) {
errln(UnicodeString("msgfmt.getFormatNames()[3] should be NULL but is: ") + *name);
return;
}
}
void TestMessageFormat::TestTrimArgumentName() {
// ICU 4.8 allows and ignores white space around argument names and numbers.
IcuTestErrorCode errorCode(*this, "TestTrimArgumentName");
MessageFormat m("a { 0 , number , '#,#'#.0 } z", Locale::getEnglish(), errorCode);
if (errorCode.logDataIfFailureAndReset("Unable to instantiate MessageFormat")) {
return;
}
Formattable args[1] = { (int32_t)2 };
FieldPosition ignore(0);
UnicodeString result;
assertEquals("trim-numbered-arg format() failed", "a #,#2.0 z",
m.format(args, 1, result, ignore, errorCode));
m.applyPattern("x { _oOo_ , number , integer } y", errorCode);
UnicodeString argName = UNICODE_STRING_SIMPLE("_oOo_");
args[0].setLong(3);
result.remove();
assertEquals("trim-named-arg format() failed", "x 3 y",
m.format(&argName, args, 1, result, errorCode));
}
void TestMessageFormat::TestSelectOrdinal() {
IcuTestErrorCode errorCode(*this, "TestSelectOrdinal");
// Test plural & ordinal together,
// to make sure that we get the correct cached PluralSelector for each.
MessageFormat m(
"{0,plural,one{1 file}other{# files}}, "
"{0,selectordinal,one{#st file}two{#nd file}few{#rd file}other{#th file}}",
Locale::getEnglish(), errorCode);
if (errorCode.logDataIfFailureAndReset("Unable to instantiate MessageFormat")) {
return;
}
Formattable args[1] = { (int32_t)21 };
FieldPosition ignore(0);
UnicodeString result;
assertEquals("plural-and-ordinal format(21) failed", "21 files, 21st file",
m.format(args, 1, result, ignore, errorCode), TRUE);
args[0].setLong(2);
assertEquals("plural-and-ordinal format(2) failed", "2 files, 2nd file",
m.format(args, 1, result.remove(), ignore, errorCode), TRUE);
args[0].setLong(1);
assertEquals("plural-and-ordinal format(1) failed", "1 file, 1st file",
m.format(args, 1, result.remove(), ignore, errorCode), TRUE);
args[0].setLong(3);
assertEquals("plural-and-ordinal format(3) failed", "3 files, 3rd file",
m.format(args, 1, result.remove(), ignore, errorCode), TRUE);
errorCode.logDataIfFailureAndReset("");
}
void TestMessageFormat::TestDecimals() {
IcuTestErrorCode errorCode(*this, "TestDecimals");
// Simple number replacement.
MessageFormat m(
"{0,plural,one{one meter}other{# meters}}",
Locale::getEnglish(), errorCode);
Formattable args[1] = { (int32_t)1 };
FieldPosition ignore;
UnicodeString result;
assertEquals("simple format(1)", "one meter",
m.format(args, 1, result, ignore, errorCode), TRUE);
args[0] = (double)1.5;
result.remove();
assertEquals("simple format(1.5)", "1.5 meters",
m.format(args, 1, result, ignore, errorCode), TRUE);
// Simple but explicit.
MessageFormat m0(
"{0,plural,one{one meter}other{{0} meters}}",
Locale::getEnglish(), errorCode);
args[0] = (int32_t)1;
result.remove();
assertEquals("explicit format(1)", "one meter",
m0.format(args, 1, result, ignore, errorCode), TRUE);
args[0] = (double)1.5;
result.remove();
assertEquals("explicit format(1.5)", "1.5 meters",
m0.format(args, 1, result, ignore, errorCode), TRUE);
// With offset and specific simple format with optional decimals.
MessageFormat m1(
"{0,plural,offset:1 one{another meter}other{{0,number,00.#} meters}}",
Locale::getEnglish(), errorCode);
args[0] = (int32_t)1;
result.remove();
assertEquals("offset format(1)", "01 meters",
m1.format(args, 1, result, ignore, errorCode), TRUE);
args[0] = (int32_t)2;
result.remove();
assertEquals("offset format(1)", "another meter",
m1.format(args, 1, result, ignore, errorCode), TRUE);
args[0] = (double)2.5;
result.remove();
assertEquals("offset format(1)", "02.5 meters",
m1.format(args, 1, result, ignore, errorCode), TRUE);
// With offset and specific simple format with forced decimals.
MessageFormat m2(
"{0,plural,offset:1 one{another meter}other{{0,number,0.0} meters}}",
Locale::getEnglish(), errorCode);
args[0] = (int32_t)1;
result.remove();
assertEquals("offset-decimals format(1)", "1.0 meters",
m2.format(args, 1, result, ignore, errorCode), TRUE);
args[0] = (int32_t)2;
result.remove();
assertEquals("offset-decimals format(1)", "2.0 meters",
m2.format(args, 1, result, ignore, errorCode), TRUE);
args[0] = (double)2.5;
result.remove();
assertEquals("offset-decimals format(1)", "2.5 meters",
m2.format(args, 1, result, ignore, errorCode), TRUE);
errorCode.reset();
}
#endif /* #if !UCONFIG_NO_FORMATTING */