/******************************************************************** * COPYRIGHT: * Copyright (c) 1997-2001, International Business Machines Corporation and * others. All Rights Reserved. ********************************************************************/ #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include "intltest.h" #include "tchcfmt.h" #include "cmemory.h" #include "unicode/msgfmt.h" #include "unicode/choicfmt.h" #include // tests have obvious memory leaks! void TestChoiceFormat::runIndexedTest(int32_t index, UBool exec, const char* &name, char* /*par*/) { switch (index) { TESTCASE(0,TestSimpleExample); TESTCASE(1,TestComplexExample); TESTCASE(2,TestClosures); TESTCASE(3,TestPatterns); // We can deprecate the test code right away; the API itself goes 2002-Jun-30 #ifdef ICU_ENABLE_DEPRECATED_NEXTDOUBLE TESTCASE(4,TestChoiceNextDouble); TESTCASE(5,TestGapNextDouble); #endif default: name = ""; break; } } static UBool chkstatus( UErrorCode &status, const char* msg = NULL ) { UBool ok = U_SUCCESS(status); if (!ok) it_errln( msg ); return ok; } void TestChoiceFormat::TestSimpleExample( void ) { double limits[] = {1,2,3,4,5,6,7}; UnicodeString monthNames[] = {"Sun","Mon","Tue","Wed","Thur","Fri","Sat"}; ChoiceFormat* form = new ChoiceFormat(limits, monthNames, 7); ParsePosition parse_pos; // TODO Fix this ParsePosition stuff... UnicodeString str; UnicodeString res1, res2; UErrorCode status; FieldPosition fpos(0); Formattable f; int32_t ix; //for (double i = 0.0; i <= 8.0; ++i) { for (ix = 0; ix <= 8; ++ix) { double i = ix; //nos status = U_ZERO_ERROR; fpos = 0; str = ""; res1 = form->format(i, str, fpos, status ); if (!chkstatus( status, "*** test_simple_example format" )) { delete form; return; } //form->parse(res1, f, parse_pos); res2 = " ??? "; it_out << ix << " -> " << res1 << " -> " << res2 << endl; } //Testing ==operator const double filelimits[] = {0,1,2}; const UnicodeString filepart[] = {"are no files","is one file","are {2} files"}; ChoiceFormat* formnew=new ChoiceFormat(filelimits, filepart, 3); ChoiceFormat* formequal=new ChoiceFormat(limits, monthNames, 7); if(*formnew == *form){ errln("ERROR: ==operator failed\n"); } if(!(*form == *formequal)){ errln("ERROR: ==operator failed\n"); } delete formequal; //Testing adoptChoices() double *limitsToAdopt = (double *)uprv_malloc(7 * sizeof(double)); UnicodeString *monthNamesToAdopt = new UnicodeString[7]; uprv_arrayCopy(monthNames, monthNamesToAdopt, 7); uprv_memcpy(limitsToAdopt, limits, (size_t)(7 * sizeof(limits[0]))); formnew->adoptChoices(limitsToAdopt, monthNamesToAdopt, 7); if(!(*formnew == *form)){ errln("ERROR: ==Operator or adoptChoices failed\n"); } delete formnew; //Testing getLimits() double *gotLimits=0; int32_t count=0; gotLimits=(double*)form->getLimits(count); if(count != 7){ errln("getLimits didn't update the count correctly\n"); } for(ix=0; ixgetFormats(count); if(count != 7){ errln("getFormats didn't update the count correctly\n"); } for(ix=0; ixsetFormats( 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_out << "MessageFormat toPattern: " << res1 << endl; fileform->toPattern( res1 ); it_out << "ChoiceFormat toPattern: " << res1 << endl; if (res1 == "-1.0#are corrupted files|0.0#are no files|1.0#is one file|2.0#are {2} files") { it_out << "toPattern tested!" << endl; }else{ it_errln("*** ChoiceFormat to Pattern result!"); } FieldPosition fpos(0); 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_out << i << " -> " << res2 << endl; if (res2 != checkstr[i - start]) { it_errln("*** test_complex_example res string"); it_out << "*** " << i << " -> '" << res2 << "' unlike '" << checkstr[i] << "' ! " << endl; } } it_out << endl; it_out << "------ additional testing in complex test ------" << endl << endl; // 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_out << "getLimits tested!" << endl; }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_out << "getFormats tested!" << endl; }else{ it_errln("*** getFormats unexpected result!"); } 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_out << "status applyPattern OK!" << endl; 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_out << i << " -> " << res2 << endl; if (res2 != checkstr2[i]) { it_errln("*** test_complex_example res string"); it_out << "*** " << i << " -> '" << res2 << "' unlike '" << checkstr2[i] << "' ! " << endl; } } // We can deprecate the test code right away; the API itself goes 2002-Jun-30 #ifdef ICU_ENABLE_DEPRECATED_NEXTDOUBLE double nd = ChoiceFormat::nextDouble( 1.0 ); double pd = ChoiceFormat::previousDouble( 1.0 ); if ((ChoiceFormat::nextDouble( 1.0, TRUE ) == nd) && (ChoiceFormat::nextDouble( 1.0, FALSE ) == pd)) { it_out << "nextDouble(x, TRUE) and nextDouble(x, FALSE) tested" << endl; }else{ it_errln("*** nextDouble( x, BOOL )"); } if ((nd > 1.0) && (nd < 1.0001)) { it_out << "nextDouble(x) tested" << endl; }else{ it_errln("*** nextDouble"); } if ((pd < 1.0) && (pd > 0.9999)) { it_out << "prevDouble(x) tested" << endl; }else{ it_errln("*** prevDouble"); } #endif 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_out << "operator== tested." << endl; }else{ it_errln("*** operator=="); } if (*form_A != *form_B) { it_out << "operator!= tested." << endl; }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_out << "method clone tested." << endl; }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_out << "copy constructor and operator= tested." << endl; }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 == "0.0#none|1.0#one|2.0#many") { it_out << "ChoiceFormat contructor( newPattern, status) tested" << endl; }else{ it_errln("*** ChoiceFormat contructor( newPattern, status) or toPattern result!"); } double* d_a = (double *)uprv_malloc(2 * sizeof(double)); if (!d_a) { it_errln("*** allocation error."); return; } d_a[0] = 1.0; d_a[1] = 2.0; UnicodeString* s_a = new UnicodeString[2]; if (!s_a) { it_errln("*** allocation error."); return; } s_a[0] = "first"; s_a[1] = "second"; form_pat.adoptChoices( d_a, s_a, 2 ); form_pat.toPattern( res1 ); it_out << "ChoiceFormat adoptChoices toPattern: " << res1 << endl; if (res1 == "1.0#first|2.0#second") { it_out << "ChoiceFormat adoptChoices tested" << endl; }else{ it_errln("*** ChoiceFormat adoptChoices 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_out << "ChoiceFormat adoptChoices toPattern: " << res1 << endl; if (res1 == "3.0#third|4.0#forth") { it_out << "ChoiceFormat adoptChoices tested" << endl; }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_out << "ChoiceFormat format:" << res1 << endl; if (res1 != "third") it_errln("*** ChoiceFormat format (double, ...) result!"); str = ""; fpos = 0; status = U_ZERO_ERROR; int32_t arg_long = 3; res1 = form_pat.format( arg_long, str, fpos ); it_out << "ChoiceFormat format:" << res1 << endl; 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_out << "ChoiceFormat format:" << res1 << endl; 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_out << "ChoiceFormat format:" << res1 << endl; 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_out << "parse( ..., ParsePos ) tested." << endl; }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_out << "parse( ..., UErrorCode ) tested." << endl; }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_out << endl; delete fileform; delete filenumform; delete pattform; } // We can deprecate the test code right away; the API itself goes 2002-Jun-30 #ifdef ICU_ENABLE_DEPRECATED_NEXTDOUBLE /** * test the use of next_Double with ChoiceFormat **/ void TestChoiceFormat::TestChoiceNextDouble() { double limit[] = {0.0, 1.0, 2.0}; const UnicodeString formats[] = {"0.0<=Arg<=1.0", "1.0format((int32_t)1, toAppendTo, status); if (toAppendTo != "0.0<=Arg<=1.0") { it_errln("ChoiceFormat cmp in testBug1"); } it_out << toAppendTo << endl; delete cf; } /* * Return a random double (---Copied here from tsnmfmt.h---) **/ static double randDouble() { // Assume 8-bit (or larger) rand values. Also assume // that the system rand() function is very poor, which it always is. double d = 0; uint32_t i; char* poke = (char*)&d; for (i=0; i < sizeof(double); ++i) { poke[i] = (char)(rand() & 0xFF); } return d; } /** * test the numerical results of next_Double and previous_Double **/ void TestChoiceFormat::TestGapNextDouble() { double val; int32_t i; //test area between -15 and 15 logln("TestChoiceFormat::TestGapNextDouble: ----- testing area between -15 and 15..."); val = -15.0; while (val < 15.0) { testValue( val ); val += 0.31; } //test closely +/- n values around zero logln("TestChoiceFormat::TestGapNextDouble: ----- testing closely +/- n values around zero..."); int32_t test_n; if (quick) { test_n = 25; } else { test_n = 1000; } val = 0.0; for (i = 0; i < test_n; i++ ) { testValue( val ); val = ChoiceFormat::nextDouble( val ); } for (i = 0; i < (test_n + test_n); i++ ) { testValue( val ); val = ChoiceFormat::previousDouble( val ); } for (i = 0; i < test_n; i++ ) { testValue( val ); val = ChoiceFormat::nextDouble( val ); } if (val != 0.0) { errln("*** TestMessageFormat::TestGapNextDouble didn't come back to zero!"); } // random numbers logln("TestChoiceFormat::TestGapNextDouble: ----- testing random numbers..."); if (quick) { test_n = 25; } else { test_n = 5000; } srand(0); // use common starting point to make test reproducable double negTestLimit = -DBL_MAX / 2.0; // has to be larger than this (not larger or equal) double posTestLimit = DBL_MAX / 2.0; // has to be smaller than this (not smaller or equal) for (i = 0; i < test_n; i++) { val = randDouble(); if ((val > negTestLimit) && (val < posTestLimit)) { testValue( val ); } } // extreme positive values logln("TestChoiceFormat::TestGapNextDouble: ----- testing extreme positive values..."); val = ChoiceFormat::previousDouble( posTestLimit ); testValue( val ); val = ChoiceFormat::nextDouble( DBL_MIN ); testValue( val ); val = ChoiceFormat::previousDouble( DBL_MIN ); //logln((UnicodeString) "prev MIN: " + val ); testValue( val ); val = DBL_MIN; testValue( val ); // extreme negative values logln("TestChoiceFormat::TestGapNextDouble: ----- testing extreme negative values..."); val = ChoiceFormat::nextDouble( negTestLimit ); testValue( val ); val = ChoiceFormat::previousDouble( -DBL_MIN ); testValue( val ); val = ChoiceFormat::nextDouble( -DBL_MIN ); //logln((UnicodeString) "next -MIN: " + val ); testValue( val ); val = -DBL_MIN; testValue( val ); it_out << "MSG: nextDouble & previousDouble tested." << endl; } /** * test a value for TestGapNextDouble **/ void TestChoiceFormat::testValue( double val ) { double valnext = ChoiceFormat::nextDouble( val ); double valprev = ChoiceFormat::previousDouble( val ); if (val >= valnext) { errln( (UnicodeString) "*** TestChoiceFormat::testValue #1 nextDouble returns same or smaller value for:" + val ); return; } if (val <= valprev) { errln( (UnicodeString) "*** TestChoiceFormat::testValue #2 PreviousDouble returns same or larger value for:" + val ); return; } #ifdef OS400 /* The AS/400 will signal an underflow exception when * attempting the rest of the test. No can do. * Generating values less that DBL_MIN are not allowed on AS/400 */ if (valprev == 0.0 || val == 0.0 || valnext == 0.0 ) { logln("Skipping the rest of testValue(%lf) valprev=%lf valnext=%lf", val, valprev, valnext); return; } #endif /* volatile so the compiler doesn't get confused.. --srl */ volatile double middle; middle = (val + valnext) / 2.0; if ((middle != val) && (middle != valnext)) { errln( (UnicodeString) "*** TestChoiceFormat::testValue #3 WARNING: There seems to be a gap for:" + val ); return; } middle = (val + valprev) / 2.0; if ((middle != val) && (middle != valprev)) { errln( (UnicodeString) "*** TestChoiceFormat::testValue #4 WARNING: There seems to be a gap for:" + val ); return; } } #endif /** * Test new closure API */ void TestChoiceFormat::TestClosures(void) { // Construct open, half-open, half-open (the other way), and closed // intervals. Do this both using arrays and using a pattern. // 'fmt1' is created using arrays UBool T = TRUE, F = FALSE; // 0: ,1) // 1: [1,2] // 2: (2,3] // 3: (3,4) // 4: [4,5) // 5: [5, double limits[] = { 0, 1, 2, 3, 4, 5 }; UBool closures[] = { F, F, T, T, F, F }; UnicodeString fmts[] = { ",1)", "[1,2]", "(2,3]", "(3,4)", "[4,5)", "[5," }; ChoiceFormat fmt1(limits, closures, fmts, 6); // 'fmt2' is created using a pattern; it should be equivalent UErrorCode status = U_ZERO_ERROR; const char* PAT = "0.0#,1)|1.0#[1,2]|2.0<(2,3]|3.0<(3,4)|4.0#[4,5)|5.0#[5,"; ChoiceFormat fmt2(PAT, status); if (U_FAILURE(status)) { errln("FAIL: ChoiceFormat constructor failed"); return; } // Check the patterns UnicodeString str; fmt1.toPattern(str); if (str == PAT) { logln("Ok: " + str); } else { errln("FAIL: " + str + ", expected " + PAT); } str.truncate(0); // Check equality if (fmt1 != fmt2) { errln("FAIL: fmt1 != fmt2"); } // Now test both format objects UnicodeString exp[] = { /*-0.5 => */ ",1)", /* 0.0 => */ ",1)", /* 0.5 => */ ",1)", /* 1.0 => */ "[1,2]", /* 1.5 => */ "[1,2]", /* 2.0 => */ "[1,2]", /* 2.5 => */ "(2,3]", /* 3.0 => */ "(2,3]", /* 3.5 => */ "(3,4)", /* 4.0 => */ "[4,5)", /* 4.5 => */ "[4,5)", /* 5.0 => */ "[5,", /* 5.5 => */ "[5," }; // Each format object should behave exactly the same ChoiceFormat* FMT[] = { &fmt1, &fmt2 }; for (int32_t pass=0; pass<2; ++pass) { int32_t j=0; for (int32_t ix=-5; ix<=55; ix+=5) { double x = ix / 10.0; // -0.5 to 5.5 step +0.5 FMT[pass]->format(x, str); if (str == exp[j]) { logln((UnicodeString)"Ok: " + x + " => " + str); } else { errln((UnicodeString)"FAIL: " + x + " => " + str + ", expected " + exp[j]); } str.truncate(0); ++j; } } } /** * Helper for TestPatterns() */ void TestChoiceFormat::_testPattern(const char* pattern, UBool isValid, double v1, const char* str1, double v2, const char* str2, double v3, const char* str3) { UErrorCode ec = U_ZERO_ERROR; ChoiceFormat fmt(pattern, ec); if (!isValid) { if (U_FAILURE(ec)) { logln((UnicodeString)"Ok: " + pattern + " failed"); } else { logln((UnicodeString)"FAIL: " + pattern + " accepted"); } return; } if (U_FAILURE(ec)) { errln((UnicodeString)"FAIL: ChoiceFormat(" + pattern + ") failed"); return; } else { logln((UnicodeString)"Ok: Pattern: " + pattern); } UnicodeString out; logln((UnicodeString)" toPattern: " + fmt.toPattern(out)); double v[] = {v1, v2, v3}; const char* str[] = {str1, str2, str3}; for (int32_t i=0; i<3; ++i) { out.truncate(0); fmt.format(v[i], out); if (out == str[i]) { logln((UnicodeString)"Ok: " + v[i] + " => " + out); } else { errln((UnicodeString)"FAIL: " + v[i] + " => " + out + ", expected " + str[i]); } } } /** * Test applyPattern */ void TestChoiceFormat::TestPatterns(void) { // Try a pattern that isolates a single value. Create // three ranges: [-Inf,1.0) [1.0,1.0] (1.0,+Inf] _testPattern("0.0#a|1.0#b|1.0