void MessageFormatRegressionTest::Test4120552() { UErrorCode status = U_ZERO_ERROR; MessageFormat *mf = new MessageFormat("pattern", status); failure(status, "new MessageFormat"); UnicodeString texts[] = { (UnicodeString)"pattern", (UnicodeString)"pat", (UnicodeString)"1234" }; UnicodeString pat; logln("pattern: \"" + mf->toPattern(pat) + "\""); for (int i = 0; i < 3; i++) { ParsePosition pp(0); //Object[] objs = mf.parse(texts[i], pp); int32_t count = 0; Formattable *objs = mf->parse(texts[i], pp, count); log(" text for parsing: \"" + texts[i] + "\""); if (objs == NULL) { logln(" (incorrectly formatted string)"); if (pp.getErrorIndex() == -1) errln(UnicodeString("Incorrect error index: ") + pp.getErrorIndex()); } else { logln(" (correctly formatted string)"); delete[] objs; } } delete mf; }
// {sfb} doesn't apply in C++? void MessageFormatRegressionTest::Test4114739() { UErrorCode status = U_ZERO_ERROR; MessageFormat *mf = new MessageFormat("<{0}>", status); failure(status, "new MessageFormat"); Formattable *objs1 = NULL; //Formattable objs2 [] = {}; //Formattable *objs3 [] = {NULL}; //try { UnicodeString pat; UnicodeString res; logln("pattern: \"" + mf->toPattern(pat) + "\""); log("format(null) : "); FieldPosition pos(FieldPosition::DONT_CARE); logln("\"" + mf->format(objs1, 0, res, pos, status) + "\""); failure(status, "mf->format"); /*log("format({}) : "); logln("\"" + mf->format(objs2, 0, res, FieldPosition(FieldPosition::DONT_CARE), status) + "\""); failure(status, "mf->format"); log("format({null}) :"); logln("\"" + mf->format(objs3, 0, res, FieldPosition(FieldPosition::DONT_CARE), status) + "\""); failure(status, "mf->format");*/ /*} catch (Exception e) { errln("Exception thrown for null argument tests."); }*/ delete mf; }
void MessageFormatRegressionTest::Test4118594() { UErrorCode status = U_ZERO_ERROR; const UBool possibleDataError = TRUE; MessageFormat *mf = new MessageFormat("{0}, {0}, {0}", status); failure(status, "new MessageFormat"); UnicodeString forParsing("x, y, z"); //Object[] objs = mf.parse(forParsing, new ParsePosition(0)); int32_t count = 0; ParsePosition pp(0); Formattable *objs = mf->parse(forParsing, pp, count); UnicodeString pat; logln("pattern: \"" + mf->toPattern(pat) + "\""); logln("text for parsing: \"" + forParsing + "\""); UnicodeString str; if (objs[0].getString(str) != "z") errln("argument0: \"" + objs[0].getString(str) + "\""); mf->applyPattern("{0,number,#.##}, {0,number,#.#}", status); failure(status, "mf->applyPattern", possibleDataError); //Object[] oldobjs = {new Double(3.1415)}; Formattable oldobjs [] = {Formattable(3.1415)}; UnicodeString result; FieldPosition pos(FieldPosition::DONT_CARE); result = mf->format( oldobjs, 1, result, pos, status ); failure(status, "mf->format", possibleDataError); pat.remove(); logln("pattern: \"" + mf->toPattern(pat) + "\""); logln("text for parsing: \"" + result + "\""); // result now equals "3.14, 3.1" if (result != "3.14, 3.1") dataerrln("result = " + result + " - " + u_errorName(status)); //Object[] newobjs = mf.parse(result, new ParsePosition(0)); int32_t count1 = 0; pp.setIndex(0); Formattable *newobjs = mf->parse(result, pp, count1); // newobjs now equals {new Double(3.1)} if (newobjs == NULL) { dataerrln("Error calling MessageFormat::parse"); } else { if (newobjs[0].getDouble() != 3.1) errln( UnicodeString("newobjs[0] = ") + newobjs[0].getDouble()); } delete [] objs; delete [] newobjs; delete mf; }
void MessageFormatRegressionTest::Test4058973() { UErrorCode status = U_ZERO_ERROR; MessageFormat *fmt = new MessageFormat("{0,choice,0#no files|1#one file|1< {0,number,integer} files}", status); failure(status, "new MessageFormat"); UnicodeString pat; pat = fmt->toPattern(pat); UnicodeString exp("{0,choice,0#no files|1#one file|1< {0,number,integer} files}"); if (pat != exp) { errln("MessageFormat.toPattern failed"); errln("Exp: " + exp); errln("Got: " + pat); } delete fmt; }
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,0.0#are no files|1.0#is one file|1.0<are {0, number} files} on disk {1}. "; logln("The input pattern : " + pattern); MessageFormat *fmt = new MessageFormat(pattern, status); if (U_FAILURE(status)) { errln("MessageFormat pattern creation failed."); return; } logln("The output pattern is : " + fmt->toPattern(result)); if (pattern != result) { errln("MessageFormat::toPattern() failed."); } delete fmt; }
void MessageFormatRegressionTest::Test4113018() { UnicodeString originalPattern("initial pattern"); UErrorCode status = U_ZERO_ERROR; MessageFormat *mf = new MessageFormat(originalPattern, status); failure(status, "new messageFormat"); UnicodeString illegalPattern("format: {0, xxxYYY}"); UnicodeString pat; logln("pattern before: \"" + mf->toPattern(pat) + "\""); logln("illegal pattern: \"" + illegalPattern + "\""); //try { mf->applyPattern(illegalPattern, status); if( ! U_FAILURE(status)) errln("Should have thrown IllegalArgumentException for pattern : " + illegalPattern); /*} catch (IllegalArgumentException e) { if (!originalPattern.equals(mf.toPattern())) errln("pattern after: \"" + mf.toPattern() + "\""); }*/ delete mf; }
void MessageFormatRegressionTest::Test4118592() { UErrorCode status = U_ZERO_ERROR; MessageFormat *mf = new MessageFormat("", status); failure(status, "new messageFormat"); UnicodeString pattern("{0,choice,1#YES|2#NO}"); UnicodeString prefix(""); Formattable *objs = 0; for (int i = 0; i < 5; i++) { UnicodeString formatted; formatted = prefix + "YES"; mf->applyPattern(prefix + pattern, status); failure(status, "mf->applyPattern"); prefix += "x"; //Object[] objs = mf.parse(formatted, new ParsePosition(0)); int32_t count = 0; ParsePosition pp(0); objs = mf->parse(formatted, pp, count); UnicodeString pat; logln(UnicodeString("") + i + ". pattern :\"" + mf->toPattern(pat) + "\""); log(" \"" + formatted + "\" parsed as "); if (objs == NULL) logln(" null"); else { UnicodeString temp; if(objs[0].getType() == Formattable::kString) logln((UnicodeString)" " + objs[0].getString(temp)); else logln((UnicodeString)" " + (objs[0].getType() == Formattable::kLong ? objs[0].getLong() : objs[0].getDouble())); delete[] objs; } } delete mf; }
void TestChoiceFormat::TestComplexExample( void ) { UErrorCode status = U_ZERO_ERROR; const double filelimits[] = {-1, 0,1,2}; const UnicodeString filepart[] = {"are corrupted files", "are no files","is one file","are {2} files"}; ChoiceFormat* fileform = new ChoiceFormat( filelimits, filepart, 4); if (!fileform) { it_errln("*** test_complex_example fileform"); return; } Format* filenumform = NumberFormat::createInstance( status ); if (!filenumform) { dataerrln((UnicodeString)"*** test_complex_example filenumform - " + u_errorName(status)); delete fileform; return; } if (!chkstatus( status, "*** test_simple_example filenumform" )) { delete fileform; delete filenumform; return; } //const Format* testFormats[] = { fileform, NULL, filenumform }; //pattform->setFormats( testFormats, 3 ); MessageFormat* pattform = new MessageFormat("There {0} on {1}", status ); if (!pattform) { it_errln("*** test_complex_example pattform"); delete fileform; delete filenumform; return; } if (!chkstatus( status, "*** test_complex_example pattform" )) { delete fileform; delete filenumform; delete pattform; return; } pattform->setFormat( 0, *fileform ); pattform->setFormat( 2, *filenumform ); Formattable testArgs[] = {(int32_t)0, "Disk_A", (int32_t)0}; UnicodeString str; UnicodeString res1, res2; pattform->toPattern( res1 ); it_logln("MessageFormat toPattern: " + res1); fileform->toPattern( res1 ); it_logln("ChoiceFormat toPattern: " + res1); if (res1 == "-1#are corrupted files|0#are no files|1#is one file|2#are {2} files") { it_logln("toPattern tested!"); }else{ it_errln("*** ChoiceFormat to Pattern result!"); } FieldPosition fpos(FieldPosition::DONT_CARE); UnicodeString checkstr[] = { "There are corrupted files on Disk_A", "There are no files on Disk_A", "There is one file on Disk_A", "There are 2 files on Disk_A", "There are 3 files on Disk_A" }; // if (status != U_ZERO_ERROR) return; // TODO: analyze why we have such a bad bail out here! if (U_FAILURE(status)) { delete fileform; delete filenumform; delete pattform; return; } int32_t i; int32_t start = -1; for (i = start; i < 4; ++i) { str = ""; status = U_ZERO_ERROR; testArgs[0] = Formattable((int32_t)i); testArgs[2] = testArgs[0]; res2 = pattform->format(testArgs, 3, str, fpos, status ); if (!chkstatus( status, "*** test_complex_example format" )) { delete fileform; delete filenumform; delete pattform; return; } it_logln(i + UnicodeString(" -> ") + res2); if (res2 != checkstr[i - start]) { it_errln("*** test_complex_example res string"); it_errln(UnicodeString("*** ") + i + UnicodeString(" -> '") + res2 + UnicodeString("' unlike '") + checkstr[i] + UnicodeString("' ! ")); } } it_logln(); it_logln("------ additional testing in complex test ------"); it_logln(); // #if 0 // ICU 4.8 deprecates and disables the ChoiceFormat getters. int32_t retCount; const double* retLimits = fileform->getLimits( retCount ); if ((retCount == 4) && (retLimits) && (retLimits[0] == -1.0) && (retLimits[1] == 0.0) && (retLimits[2] == 1.0) && (retLimits[3] == 2.0)) { it_logln("getLimits tested!"); }else{ it_errln("*** getLimits unexpected result!"); } const UnicodeString* retFormats = fileform->getFormats( retCount ); if ((retCount == 4) && (retFormats) && (retFormats[0] == "are corrupted files") && (retFormats[1] == "are no files") && (retFormats[2] == "is one file") && (retFormats[3] == "are {2} files")) { it_logln("getFormats tested!"); }else{ it_errln("*** getFormats unexpected result!"); } #endif UnicodeString checkstr2[] = { "There is no folder on Disk_A", "There is one folder on Disk_A", "There are many folders on Disk_A", "There are many folders on Disk_A" }; fileform->applyPattern("0#is no folder|1#is one folder|2#are many folders", status ); if (status == U_ZERO_ERROR) it_logln("status applyPattern OK!"); if (!chkstatus( status, "*** test_complex_example pattform" )) { delete fileform; delete filenumform; delete pattform; return; } pattform->setFormat( 0, *fileform ); fpos = 0; for (i = 0; i < 4; ++i) { str = ""; status = U_ZERO_ERROR; testArgs[0] = Formattable((int32_t)i); testArgs[2] = testArgs[0]; res2 = pattform->format(testArgs, 3, str, fpos, status ); if (!chkstatus( status, "*** test_complex_example format 2" )) { delete fileform; delete filenumform; delete pattform; return; } it_logln(UnicodeString() + i + UnicodeString(" -> ") + res2); if (res2 != checkstr2[i]) { it_errln("*** test_complex_example res string"); it_errln(UnicodeString("*** ") + i + UnicodeString(" -> '") + res2 + UnicodeString("' unlike '") + checkstr2[i] + UnicodeString("' ! ")); } } const double limits_A[] = {1,2,3,4,5,6,7}; const UnicodeString monthNames_A[] = {"Sun","Mon","Tue","Wed","Thur","Fri","Sat"}; ChoiceFormat* form_A = new ChoiceFormat(limits_A, monthNames_A, 7); ChoiceFormat* form_A2 = new ChoiceFormat(limits_A, monthNames_A, 7); const double limits_B[] = {1,2,3,4,5,6,7}; const UnicodeString monthNames_B[] = {"Sun","Mon","Tue","Wed","Thur","Fri","Sat_BBB"}; ChoiceFormat* form_B = new ChoiceFormat(limits_B, monthNames_B, 7); if (!form_A || !form_B || !form_A2) { it_errln("*** test-choiceFormat not allocatable!"); }else{ if (*form_A == *form_A2) { it_logln("operator== tested."); }else{ it_errln("*** operator=="); } if (*form_A != *form_B) { it_logln("operator!= tested."); }else{ it_errln("*** operator!="); } ChoiceFormat* form_A3 = (ChoiceFormat*) form_A->clone(); if (!form_A3) { it_errln("*** ChoiceFormat->clone is nil."); }else{ if ((*form_A3 == *form_A) && (*form_A3 != *form_B)) { it_logln("method clone tested."); }else{ it_errln("*** ChoiceFormat clone or operator==, or operator!= ."); } } ChoiceFormat form_Assigned( *form_A ); UBool ok = (form_Assigned == *form_A) && (form_Assigned != *form_B); form_Assigned = *form_B; ok = ok && (form_Assigned != *form_A) && (form_Assigned == *form_B); if (ok) { it_logln("copy constructor and operator= tested."); }else{ it_errln("*** copy constructor or operator= or operator == or operator != ."); } delete form_A3; } delete form_A; delete form_A2; delete form_B; const char* testPattern = "0#none|1#one|2#many"; ChoiceFormat form_pat( testPattern, status ); if (!chkstatus( status, "*** ChoiceFormat contructor( newPattern, status)" )) { delete fileform; delete filenumform; delete pattform; return; } form_pat.toPattern( res1 ); if (res1 == "0#none|1#one|2#many") { it_logln("ChoiceFormat contructor( newPattern, status) tested"); }else{ it_errln("*** ChoiceFormat contructor( newPattern, status) or toPattern result!"); } double d_a2[] = { 3.0, 4.0 }; UnicodeString s_a2[] = { "third", "forth" }; form_pat.setChoices( d_a2, s_a2, 2 ); form_pat.toPattern( res1 ); it_logln(UnicodeString("ChoiceFormat adoptChoices toPattern: ") + res1); if (res1 == "3#third|4#forth") { it_logln("ChoiceFormat adoptChoices tested"); }else{ it_errln("*** ChoiceFormat adoptChoices result!"); } str = ""; fpos = 0; status = U_ZERO_ERROR; double arg_double = 3.0; res1 = form_pat.format( arg_double, str, fpos ); it_logln(UnicodeString("ChoiceFormat format:") + res1); if (res1 != "third") it_errln("*** ChoiceFormat format (double, ...) result!"); str = ""; fpos = 0; status = U_ZERO_ERROR; int64_t arg_64 = 3; res1 = form_pat.format( arg_64, str, fpos ); it_logln(UnicodeString("ChoiceFormat format:") + res1); if (res1 != "third") it_errln("*** ChoiceFormat format (int64_t, ...) result!"); str = ""; fpos = 0; status = U_ZERO_ERROR; int32_t arg_long = 3; res1 = form_pat.format( arg_long, str, fpos ); it_logln(UnicodeString("ChoiceFormat format:") + res1); if (res1 != "third") it_errln("*** ChoiceFormat format (int32_t, ...) result!"); Formattable ft( (int32_t)3 ); str = ""; fpos = 0; status = U_ZERO_ERROR; res1 = form_pat.format( ft, str, fpos, status ); if (!chkstatus( status, "*** test_complex_example format (int32_t, ...)" )) { delete fileform; delete filenumform; delete pattform; return; } it_logln(UnicodeString("ChoiceFormat format:") + res1); if (res1 != "third") it_errln("*** ChoiceFormat format (Formattable, ...) result!"); Formattable fta[] = { (int32_t)3 }; str = ""; fpos = 0; status = U_ZERO_ERROR; res1 = form_pat.format( fta, 1, str, fpos, status ); if (!chkstatus( status, "*** test_complex_example format (int32_t, ...)" )) { delete fileform; delete filenumform; delete pattform; return; } it_logln(UnicodeString("ChoiceFormat format:") + res1); if (res1 != "third") it_errln("*** ChoiceFormat format (Formattable[], cnt, ...) result!"); ParsePosition parse_pos = 0; Formattable result; UnicodeString parsetext("third"); form_pat.parse( parsetext, result, parse_pos ); double rd = (result.getType() == Formattable::kLong) ? result.getLong() : result.getDouble(); if (rd == 3.0) { it_logln("parse( ..., ParsePos ) tested."); }else{ it_errln("*** ChoiceFormat parse( ..., ParsePos )!"); } form_pat.parse( parsetext, result, status ); rd = (result.getType() == Formattable::kLong) ? result.getLong() : result.getDouble(); if (rd == 3.0) { it_logln("parse( ..., UErrorCode ) tested."); }else{ it_errln("*** ChoiceFormat parse( ..., UErrorCode )!"); } /* UClassID classID = ChoiceFormat::getStaticClassID(); if (classID == form_pat.getDynamicClassID()) { it_out << "getStaticClassID and getDynamicClassID tested." << endl; }else{ it_errln("*** getStaticClassID and getDynamicClassID!"); } */ it_logln(); delete fileform; delete filenumform; delete pattform; }
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,#,##}", }; 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)) { errln("MessageFormat creation failed.#1"); logln(((UnicodeString)"MessageFormat for ") + testCases[i] + " creation failed.\n"); continue; } if (form->toPattern(buffer) != testResultPatterns[i]) { errln(UnicodeString("TestMessageFormat::PatternTest failed test #2, i = ") + i); //form->toPattern(buffer); errln(((UnicodeString)" Orig: ") + testCases[i]); errln(((UnicodeString)" Exp: ") + testResultPatterns[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)) { errln("MessageFormat failed test #3"); 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; } }