/*********************************************************************** * COPYRIGHT: * Copyright (c) 1997-2012, International Business Machines Corporation * and others. All Rights Reserved. ***********************************************************************/ #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include "intltest.h" #include "tfsmalls.h" #include "unicode/msgfmt.h" #include "unicode/choicfmt.h" #include "unicode/parsepos.h" #include "unicode/fieldpos.h" #include "unicode/fmtable.h" #define LENGTHOF(array) (int32_t)(sizeof(array)/sizeof((array)[0])) /*static UBool chkstatus( UErrorCode &status, char* msg = NULL ) { UBool ok = (status == U_ZERO_ERROR); if (!ok) it_errln( msg ); return ok; }*/ void test_ParsePosition( void ) { ParsePosition* pp1 = new ParsePosition(); if (pp1 && (pp1->getIndex() == 0)) { it_logln("PP constructor() tested."); }else{ it_errln("*** PP getIndex or constructor() result"); } delete pp1; { int32_t to = 5; ParsePosition pp2( to ); if (pp2.getIndex() == 5) { it_logln("PP getIndex and constructor(int32_t) tested."); }else{ it_errln("*** PP getIndex or constructor(int32_t) result"); } pp2.setIndex( 3 ); if (pp2.getIndex() == 3) { it_logln("PP setIndex tested."); }else{ it_errln("*** PP getIndex or setIndex result"); } } ParsePosition pp2, pp3; pp2 = 3; pp3 = 5; ParsePosition pp4( pp3 ); if ((pp2 != pp3) && (pp3 == pp4)) { it_logln("PP copy contructor, operator== and operator != tested."); }else{ it_errln("*** PP operator== or operator != result"); } ParsePosition pp5; pp5 = pp4; if ((pp4 == pp5) && (!(pp4 != pp5))) { it_logln("PP operator= tested."); }else{ it_errln("*** PP operator= operator== or operator != result"); } } #include "unicode/decimfmt.h" void test_FieldPosition_example( void ) { //***** no error detection yet !!!!!!! //***** this test is for compiler checks and visual verification only. double doubleNum[] = { 123456789.0, -12345678.9, 1234567.89, -123456.789, 12345.6789, -1234.56789, 123.456789, -12.3456789, 1.23456789}; int32_t dNumSize = (int32_t)(sizeof(doubleNum)/sizeof(double)); UErrorCode status = U_ZERO_ERROR; DecimalFormat* fmt = (DecimalFormat*) NumberFormat::createInstance(status); if (U_FAILURE(status)) { it_dataerrln("NumberFormat::createInstance() error"); return; } fmt->setDecimalSeparatorAlwaysShown(TRUE); const int32_t tempLen = 20; char temp[tempLen]; for (int32_t i=0; iformat(doubleNum[i], buf, pos), fmtText); UnicodeString res = fmt->format(doubleNum[i], buf, pos); for (int32_t j=0; jgetField() != 3) it_errln("*** FP getField or heap constr."); delete fph; UBool err1 = FALSE; UBool err2 = FALSE; UBool err3 = FALSE; for (int32_t i = -50; i < 50; i++ ) { fp.setField( i+8 ); fp.setBeginIndex( i+6 ); fp.setEndIndex( i+7 ); if (fp.getField() != i+8) err1 = TRUE; if (fp.getBeginIndex() != i+6) err2 = TRUE; if (fp.getEndIndex() != i+7) err3 = TRUE; } if (!err1) { it_logln("FP setField and getField tested."); }else{ it_errln("*** FP setField or getField"); } if (!err2) { it_logln("FP setBeginIndex and getBeginIndex tested."); }else{ it_errln("*** FP setBeginIndex or getBeginIndex"); } if (!err3) { it_logln("FP setEndIndex and getEndIndex tested."); }else{ it_errln("*** FP setEndIndex or getEndIndex"); } it_logln(""); } void test_Formattable( void ) { UErrorCode status = U_ZERO_ERROR; Formattable* ftp = new Formattable(); if (!ftp || !(ftp->getType() == Formattable::kLong) || !(ftp->getLong() == 0)) { it_errln("*** Formattable constructor or getType or getLong"); } delete ftp; Formattable fta, ftb; fta.setLong(1); ftb.setLong(2); if ((fta != ftb) || !(fta == ftb)) { it_logln("FT setLong, operator== and operator!= tested."); status = U_ZERO_ERROR; fta.getLong(&status); if ( status == U_INVALID_FORMAT_ERROR){ it_errln("*** FT getLong(UErrorCode* status) failed on real Long"); } else { it_logln("FT getLong(UErrorCode* status) tested."); } }else{ it_errln("*** Formattable setLong or operator== or !="); } fta = ftb; if ((fta == ftb) || !(fta != ftb)) { it_logln("FT operator= tested."); }else{ it_errln("*** FT operator= or operator== or operator!="); } fta.setDouble( 3.0 ); if ((fta.getType() == Formattable::kDouble) && (fta.getDouble() == 3.0)) { it_logln("FT set- and getDouble tested."); }else{ it_errln("*** FT set- or getDouble"); } fta.getDate(status = U_ZERO_ERROR); if (status != U_INVALID_FORMAT_ERROR){ it_errln("*** FT getDate with status should fail on non-Date"); } fta.setDate( 4.0 ); if ((fta.getType() == Formattable::kDate) && (fta.getDate() == 4.0)) { it_logln("FT set- and getDate tested."); status = U_ZERO_ERROR; fta.getDate(status); if ( status == U_INVALID_FORMAT_ERROR){ it_errln("*** FT getDate with status failed on real Date"); } else { it_logln("FT getDate with status tested."); } }else{ it_errln("*** FT set- or getDate"); } status = U_ZERO_ERROR; fta.getLong(&status); if (status != U_INVALID_FORMAT_ERROR){ it_errln("*** FT getLong(UErrorCode* status) should fail on non-Long"); } fta.setString("abc"); const Formattable ftc(fta); UnicodeString res; { UBool t; t = (fta.getType() == Formattable::kString) && (fta.getString(res) == "abc") && (fta.getString() == "abc"); res = fta.getString(status = U_ZERO_ERROR); t = t && (status != U_INVALID_FORMAT_ERROR && res == "abc"); res = ftc.getString(status = U_ZERO_ERROR); t = t && (status != U_INVALID_FORMAT_ERROR && res == "abc"); ftc.getString(res,status = U_ZERO_ERROR); t = t && (status != U_INVALID_FORMAT_ERROR && res == "abc"); if (t) { it_logln("FT set- and getString tested."); }else{ it_errln("*** FT set- or getString"); } } UnicodeString ucs = "unicode-string"; UnicodeString* ucs_ptr = new UnicodeString("pointed-to-unicode-string"); const Formattable ftarray[] = { Formattable( 1.0, Formattable::kIsDate ), 2.0, (int32_t)3, ucs, ucs_ptr }; const int32_t ft_cnt = LENGTHOF(ftarray); Formattable ft_arr( ftarray, ft_cnt ); UnicodeString temp; if ((ft_arr[0].getType() == Formattable::kDate) && (ft_arr[0].getDate() == 1.0) && (ft_arr[1].getType() == Formattable::kDouble) && (ft_arr[1].getDouble() == 2.0) && (ft_arr[2].getType() == Formattable::kLong) && (ft_arr[2].getLong() == (int32_t)3) && (ft_arr[3].getType() == Formattable::kString) && (ft_arr[3].getString(temp) == ucs) && (ft_arr[4].getType() == Formattable::kString) && (ft_arr[4].getString(temp) == *ucs_ptr) ) { it_logln("FT constr. for date, double, long, ustring, ustring* and array tested"); }else{ it_errln("*** FT constr. for date, double, long, ustring, ustring* or array"); } int32_t i, res_cnt; const Formattable* res_array = ft_arr.getArray( res_cnt ); if (res_cnt == ft_cnt) { UBool same = TRUE; for (i = 0; i < res_cnt; i++ ) { if (res_array[i] != ftarray[i]) { same = FALSE; } } if (same) { it_logln("FT getArray tested"); res_array = ft_arr.getArray( res_cnt, status = U_ZERO_ERROR); if (status == U_INVALID_FORMAT_ERROR){ it_errln("*** FT getArray with status failed on real array"); } else { it_logln("FT getArray with status tested on real array"); } }else{ it_errln("*** FT getArray comparison"); } }else{ it_errln(UnicodeString("*** FT getArray count res_cnt=") + res_cnt + UnicodeString("ft_cnt=") + ft_cnt); } res_array = fta.getArray(res_cnt, status = U_ZERO_ERROR); if (status == U_INVALID_FORMAT_ERROR){ if (res_cnt == 0 && res_array == NULL){ it_logln("FT getArray with status tested on non array"); } else { it_errln("*** FT getArray with status return values are not consistent"); } } else { it_errln("*** FT getArray with status should fail on non-array"); } Formattable *pf; for(i = 0; i < ft_cnt; ++i) { pf = ftarray[i].clone(); if(pf == (ftarray + i) || *pf != ftarray[i]) { it_errln(UnicodeString("Formattable.clone() failed for item ") + i); } delete pf; } const Formattable ftarr1[] = { Formattable( (int32_t)1 ), Formattable( (int32_t)2 ) }; const Formattable ftarr2[] = { Formattable( (int32_t)3 ), Formattable( (int32_t)4 ) }; const int32_t ftarr1_cnt = (int32_t)(sizeof(ftarr1) / sizeof(Formattable)); const int32_t ftarr2_cnt = (int32_t)(sizeof(ftarr2) / sizeof(Formattable)); ft_arr.setArray( ftarr1, ftarr1_cnt ); if ((ft_arr[0].getType() == Formattable::kLong) && (ft_arr[0].getLong() == (int32_t)1)) { it_logln("FT setArray tested"); }else{ it_errln("*** FT setArray"); } Formattable* ft_dynarr = new Formattable[ftarr2_cnt]; for (i = 0; i < ftarr2_cnt; i++ ) { ft_dynarr[i] = ftarr2[i]; } if ((ft_dynarr[0].getType() == Formattable::kLong) && (ft_dynarr[0].getLong() == (int32_t)3) && (ft_dynarr[1].getType() == Formattable::kLong) && (ft_dynarr[1].getLong() == (int32_t)4)) { it_logln("FT operator= and array operations tested"); }else{ it_errln("*** FT operator= or array operations"); } ft_arr.adoptArray( ft_dynarr, ftarr2_cnt ); if ((ft_arr[0].getType() == Formattable::kLong) && (ft_arr[0].getLong() == (int32_t)3) && (ft_arr[1].getType() == Formattable::kLong) && (ft_arr[1].getLong() == (int32_t)4)) { it_logln("FT adoptArray tested"); }else{ it_errln("*** FT adoptArray or operator[]"); } ft_arr.setLong(0); // calls 'dispose' and deletes adopted array ! UnicodeString* ucs_dyn = new UnicodeString("ttt"); UnicodeString tmp2; fta.adoptString( ucs_dyn ); if ((fta.getType() == Formattable::kString) && (fta.getString(tmp2) == "ttt")) { it_logln("FT adoptString tested"); }else{ it_errln("*** FT adoptString or getString"); } fta.setLong(0); // calls 'dispose' and deletes adopted string ! it_logln(); } void TestFormatSmallClasses::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ ) { switch (index) { case 0: name = "pp"; if (exec) logln("TestSuite Format/SmallClasses/ParsePosition (f/chc/sma/pp): "); if (exec) test_ParsePosition(); break; case 1: name = "fp"; if (exec) logln("TestSuite Format/SmallClasses/FieldPosition (f/chc/sma/fp): "); if (exec) test_FieldPosition(); break; case 2: name = "fpe"; if (exec) logln("TestSuite Format/SmallClasses/FieldPositionExample (f/chc/sma/fpe): "); if (exec) test_FieldPosition_example(); break; case 3: name = "ft"; if (exec) logln("TestSuite Format/SmallClasses/Formattable (f/chc/sma/ft): "); if (exec) test_Formattable(); break; default: name = ""; break; //needed to end loop } } #endif /* #if !UCONFIG_NO_FORMATTING */