/******************************************************************** * COPYRIGHT: * Copyright (c) 2007-2016, International Business Machines Corporation and * others. All Rights Reserved. ********************************************************************/ #include "udbgutil.h" #include #include "ustr_imp.h" #include "cmemory.h" #include "cstring.h" #include "putilimp.h" #include "unicode/ulocdata.h" #include "unicode/ucnv.h" #include "unicode/unistr.h" /* To add a new enum type (For example: UShoeSize with values USHOE_WIDE=0, USHOE_REGULAR, USHOE_NARROW, USHOE_COUNT) 0. Make sure that all lines you add are protected with appropriate uconfig guards, such as '#if !UCONFIG_NO_SHOES'. 1. udbgutil.h: add UDBG_UShoeSize to the UDebugEnumType enum before UDBG_ENUM_COUNT ( The subsequent steps involve this file, udbgutil.cpp ) 2. Find the marker "Add new enum types above this line" 3. Before that marker, add a #include of any header file you need. 4. Each enum type has three things in this section: a #define, a count_, and an array of Fields. It may help to copy and paste a previous definition. 5. In the case of the USHOE_... strings above, "USHOE_" is common to all values- six characters " #define LEN_USHOE 6 " 6 characters will strip off "USHOE_" leaving enum values of WIDE, REGULAR, and NARROW. 6. Define the 'count_' variable, with the number of enum values. If the enum has a _MAX or _COUNT value, that can be helpful for automatically defining the count. Otherwise define it manually. " static const int32_t count_UShoeSize = USHOE_COUNT; " 7. Define the field names, in order. " static const Field names_UShoeSize[] = { " FIELD_NAME_STR( LEN_USHOE, USHOE_WIDE ), " FIELD_NAME_STR( LEN_USHOE, USHOE_REGULAR ), " FIELD_NAME_STR( LEN_USHOE, USHOE_NARROW ), " }; ( The following command was usedfor converting ucol.h into partially correct entities ) grep "^[ ]*UCOL" < unicode/ucol.h | sed -e 's%^[ ]*\([A-Z]*\)_\([A-Z_]*\).*% FIELD_NAME_STR( LEN_\1, \1_\2 ),%g' 8. Now, a bit farther down, add the name of the enum itself to the end of names_UDebugEnumType ( UDebugEnumType is an enum, too!) names_UDebugEnumType[] { ... " FIELD_NAME_STR( LEN_UDBG, UDBG_UShoeSize ), " 9. Find the function _udbg_enumCount and add the count macro: " COUNT_CASE(UShoeSize) 10. Find the function _udbg_enumFields and add the field macro: " FIELD_CASE(UShoeSize) 11. verify that your test code, and Java data generation, works properly. */ /** * Structure representing an enum value */ struct Field { int32_t prefix; /**< how many characters to remove in the prefix - i.e. UCHAR_ = 5 */ const char *str; /**< The actual string value */ int32_t num; /**< The numeric value */ }; /** * Define another field name. Used in an array of Field s * @param y the common prefix length (i.e. 6 for "USHOE_" ) * @param x the actual enum value - it will be copied in both string and symbolic form. * @see Field */ #define FIELD_NAME_STR(y,x) { y, #x, x } // TODO: Currently, this whole functionality goes away with UCONFIG_NO_FORMATTING. Should be split up. #if !UCONFIG_NO_FORMATTING // Calendar #include "unicode/ucal.h" // 'UCAL_' = 5 #define LEN_UCAL 5 /* UCAL_ */ static const int32_t count_UCalendarDateFields = UCAL_FIELD_COUNT; static const Field names_UCalendarDateFields[] = { FIELD_NAME_STR( LEN_UCAL, UCAL_ERA ), FIELD_NAME_STR( LEN_UCAL, UCAL_YEAR ), FIELD_NAME_STR( LEN_UCAL, UCAL_MONTH ), FIELD_NAME_STR( LEN_UCAL, UCAL_WEEK_OF_YEAR ), FIELD_NAME_STR( LEN_UCAL, UCAL_WEEK_OF_MONTH ), FIELD_NAME_STR( LEN_UCAL, UCAL_DATE ), FIELD_NAME_STR( LEN_UCAL, UCAL_DAY_OF_YEAR ), FIELD_NAME_STR( LEN_UCAL, UCAL_DAY_OF_WEEK ), FIELD_NAME_STR( LEN_UCAL, UCAL_DAY_OF_WEEK_IN_MONTH ), FIELD_NAME_STR( LEN_UCAL, UCAL_AM_PM ), FIELD_NAME_STR( LEN_UCAL, UCAL_HOUR ), FIELD_NAME_STR( LEN_UCAL, UCAL_HOUR_OF_DAY ), FIELD_NAME_STR( LEN_UCAL, UCAL_MINUTE ), FIELD_NAME_STR( LEN_UCAL, UCAL_SECOND ), FIELD_NAME_STR( LEN_UCAL, UCAL_MILLISECOND ), FIELD_NAME_STR( LEN_UCAL, UCAL_ZONE_OFFSET ), FIELD_NAME_STR( LEN_UCAL, UCAL_DST_OFFSET ), FIELD_NAME_STR( LEN_UCAL, UCAL_YEAR_WOY ), FIELD_NAME_STR( LEN_UCAL, UCAL_DOW_LOCAL ), FIELD_NAME_STR( LEN_UCAL, UCAL_EXTENDED_YEAR ), FIELD_NAME_STR( LEN_UCAL, UCAL_JULIAN_DAY ), FIELD_NAME_STR( LEN_UCAL, UCAL_MILLISECONDS_IN_DAY ), FIELD_NAME_STR( LEN_UCAL, UCAL_IS_LEAP_MONTH ), }; static const int32_t count_UCalendarMonths = UCAL_UNDECIMBER+1; static const Field names_UCalendarMonths[] = { FIELD_NAME_STR( LEN_UCAL, UCAL_JANUARY ), FIELD_NAME_STR( LEN_UCAL, UCAL_FEBRUARY ), FIELD_NAME_STR( LEN_UCAL, UCAL_MARCH ), FIELD_NAME_STR( LEN_UCAL, UCAL_APRIL ), FIELD_NAME_STR( LEN_UCAL, UCAL_MAY ), FIELD_NAME_STR( LEN_UCAL, UCAL_JUNE ), FIELD_NAME_STR( LEN_UCAL, UCAL_JULY ), FIELD_NAME_STR( LEN_UCAL, UCAL_AUGUST ), FIELD_NAME_STR( LEN_UCAL, UCAL_SEPTEMBER ), FIELD_NAME_STR( LEN_UCAL, UCAL_OCTOBER ), FIELD_NAME_STR( LEN_UCAL, UCAL_NOVEMBER ), FIELD_NAME_STR( LEN_UCAL, UCAL_DECEMBER ), FIELD_NAME_STR( LEN_UCAL, UCAL_UNDECIMBER) }; #include "unicode/udat.h" #define LEN_UDAT 5 /* "UDAT_" */ static const int32_t count_UDateFormatStyle = UDAT_SHORT+1; static const Field names_UDateFormatStyle[] = { FIELD_NAME_STR( LEN_UDAT, UDAT_FULL ), FIELD_NAME_STR( LEN_UDAT, UDAT_LONG ), FIELD_NAME_STR( LEN_UDAT, UDAT_MEDIUM ), FIELD_NAME_STR( LEN_UDAT, UDAT_SHORT ), /* end regular */ /* * negative enums.. leave out for now. FIELD_NAME_STR( LEN_UDAT, UDAT_NONE ), FIELD_NAME_STR( LEN_UDAT, UDAT_PATTERN ), */ }; #endif #include "unicode/uloc.h" #define LEN_UAR 12 /* "ULOC_ACCEPT_" */ static const int32_t count_UAcceptResult = 3; static const Field names_UAcceptResult[] = { FIELD_NAME_STR( LEN_UAR, ULOC_ACCEPT_FAILED ), FIELD_NAME_STR( LEN_UAR, ULOC_ACCEPT_VALID ), FIELD_NAME_STR( LEN_UAR, ULOC_ACCEPT_FALLBACK ), }; #if !UCONFIG_NO_COLLATION #include "unicode/ucol.h" #define LEN_UCOL 5 /* UCOL_ */ static const int32_t count_UColAttributeValue = UCOL_ATTRIBUTE_VALUE_COUNT; static const Field names_UColAttributeValue[] = { FIELD_NAME_STR( LEN_UCOL, UCOL_PRIMARY ), FIELD_NAME_STR( LEN_UCOL, UCOL_SECONDARY ), FIELD_NAME_STR( LEN_UCOL, UCOL_TERTIARY ), // FIELD_NAME_STR( LEN_UCOL, UCOL_CE_STRENGTH_LIMIT ), FIELD_NAME_STR( LEN_UCOL, UCOL_QUATERNARY ), // gap FIELD_NAME_STR( LEN_UCOL, UCOL_IDENTICAL ), // FIELD_NAME_STR( LEN_UCOL, UCOL_STRENGTH_LIMIT ), FIELD_NAME_STR( LEN_UCOL, UCOL_OFF ), FIELD_NAME_STR( LEN_UCOL, UCOL_ON ), // gap FIELD_NAME_STR( LEN_UCOL, UCOL_SHIFTED ), FIELD_NAME_STR( LEN_UCOL, UCOL_NON_IGNORABLE ), // gap FIELD_NAME_STR( LEN_UCOL, UCOL_LOWER_FIRST ), FIELD_NAME_STR( LEN_UCOL, UCOL_UPPER_FIRST ), }; #endif #if UCONFIG_ENABLE_PLUGINS #include "unicode/icuplug.h" #define LEN_UPLUG_REASON 13 /* UPLUG_REASON_ */ static const int32_t count_UPlugReason = UPLUG_REASON_COUNT; static const Field names_UPlugReason[] = { FIELD_NAME_STR( LEN_UPLUG_REASON, UPLUG_REASON_QUERY ), FIELD_NAME_STR( LEN_UPLUG_REASON, UPLUG_REASON_LOAD ), FIELD_NAME_STR( LEN_UPLUG_REASON, UPLUG_REASON_UNLOAD ), }; #define LEN_UPLUG_LEVEL 12 /* UPLUG_LEVEL_ */ static const int32_t count_UPlugLevel = UPLUG_LEVEL_COUNT; static const Field names_UPlugLevel[] = { FIELD_NAME_STR( LEN_UPLUG_LEVEL, UPLUG_LEVEL_INVALID ), FIELD_NAME_STR( LEN_UPLUG_LEVEL, UPLUG_LEVEL_UNKNOWN ), FIELD_NAME_STR( LEN_UPLUG_LEVEL, UPLUG_LEVEL_LOW ), FIELD_NAME_STR( LEN_UPLUG_LEVEL, UPLUG_LEVEL_HIGH ), }; #endif #define LEN_UDBG 5 /* "UDBG_" */ static const int32_t count_UDebugEnumType = UDBG_ENUM_COUNT; static const Field names_UDebugEnumType[] = { FIELD_NAME_STR( LEN_UDBG, UDBG_UDebugEnumType ), #if !UCONFIG_NO_FORMATTING FIELD_NAME_STR( LEN_UDBG, UDBG_UCalendarDateFields ), FIELD_NAME_STR( LEN_UDBG, UDBG_UCalendarMonths ), FIELD_NAME_STR( LEN_UDBG, UDBG_UDateFormatStyle ), #endif #if UCONFIG_ENABLE_PLUGINS FIELD_NAME_STR( LEN_UDBG, UDBG_UPlugReason ), FIELD_NAME_STR( LEN_UDBG, UDBG_UPlugLevel ), #endif FIELD_NAME_STR( LEN_UDBG, UDBG_UAcceptResult ), #if !UCONFIG_NO_COLLATION FIELD_NAME_STR( LEN_UDBG, UDBG_UColAttributeValue ), #endif }; // --- Add new enum types above this line --- #define COUNT_CASE(x) case UDBG_##x: return (actual?count_##x:UPRV_LENGTHOF(names_##x)); #define COUNT_FAIL_CASE(x) case UDBG_##x: return -1; #define FIELD_CASE(x) case UDBG_##x: return names_##x; #define FIELD_FAIL_CASE(x) case UDBG_##x: return NULL; // low level /** * @param type type of item * @param actual TRUE: for the actual enum's type (UCAL_FIELD_COUNT, etc), or FALSE for the string count */ static int32_t _udbg_enumCount(UDebugEnumType type, UBool actual) { switch(type) { COUNT_CASE(UDebugEnumType) #if !UCONFIG_NO_FORMATTING COUNT_CASE(UCalendarDateFields) COUNT_CASE(UCalendarMonths) COUNT_CASE(UDateFormatStyle) #endif #if UCONFIG_ENABLE_PLUGINS COUNT_CASE(UPlugReason) COUNT_CASE(UPlugLevel) #endif COUNT_CASE(UAcceptResult) #if !UCONFIG_NO_COLLATION COUNT_CASE(UColAttributeValue) #endif // COUNT_FAIL_CASE(UNonExistentEnum) default: return -1; } } static const Field* _udbg_enumFields(UDebugEnumType type) { switch(type) { FIELD_CASE(UDebugEnumType) #if !UCONFIG_NO_FORMATTING FIELD_CASE(UCalendarDateFields) FIELD_CASE(UCalendarMonths) FIELD_CASE(UDateFormatStyle) #endif #if UCONFIG_ENABLE_PLUGINS FIELD_CASE(UPlugReason) FIELD_CASE(UPlugLevel) #endif FIELD_CASE(UAcceptResult) // FIELD_FAIL_CASE(UNonExistentEnum) #if !UCONFIG_NO_COLLATION FIELD_CASE(UColAttributeValue) #endif default: return NULL; } } // implementation int32_t udbg_enumCount(UDebugEnumType type) { return _udbg_enumCount(type, FALSE); } int32_t udbg_enumExpectedCount(UDebugEnumType type) { return _udbg_enumCount(type, TRUE); } const char * udbg_enumName(UDebugEnumType type, int32_t field) { if(field<0 || field>=_udbg_enumCount(type,FALSE)) { // also will catch unsupported items return NULL; } else { const Field *fields = _udbg_enumFields(type); if(fields == NULL) { return NULL; } else { return fields[field].str + fields[field].prefix; } } } int32_t udbg_enumArrayValue(UDebugEnumType type, int32_t field) { if(field<0 || field>=_udbg_enumCount(type,FALSE)) { // also will catch unsupported items return -1; } else { const Field *fields = _udbg_enumFields(type); if(fields == NULL) { return -1; } else { return fields[field].num; } } } int32_t udbg_enumByName(UDebugEnumType type, const char *value) { if(type<0||type>=_udbg_enumCount(UDBG_UDebugEnumType, TRUE)) { return -1; // type out of range } const Field *fields = _udbg_enumFields(type); if (fields != NULL) { for(int32_t field = 0;field<_udbg_enumCount(type, FALSE);field++) { if(!strcmp(value, fields[field].str + fields[field].prefix)) { return fields[field].num; } } // try with the prefix for(int32_t field = 0;field<_udbg_enumCount(type, FALSE);field++) { if(!strcmp(value, fields[field].str)) { return fields[field].num; } } } // fail return -1; } /* platform info */ /** * Print the current platform */ U_CAPI const char *udbg_getPlatform(void) { #if U_PLATFORM_HAS_WIN32_API return "Windows"; #elif U_PLATFORM == U_PF_UNKNOWN return "unknown"; #elif U_PLATFORM == U_PF_DARWIN return "Darwin"; #elif U_PLATFORM == U_PF_BSD return "BSD"; #elif U_PLATFORM == U_PF_QNX return "QNX"; #elif U_PLATFORM == U_PF_LINUX return "Linux"; #elif U_PLATFORM == U_PF_ANDROID return "Android"; #elif U_PLATFORM == U_PF_CLASSIC_MACOS return "MacOS (Classic)"; #elif U_PLATFORM == U_PF_OS390 return "IBM z"; #elif U_PLATFORM == U_PF_OS400 return "IBM i"; #else return "Other (POSIX-like)"; #endif } struct USystemParams; typedef int32_t U_CALLCONV USystemParameterCallback(const USystemParams *param, char *target, int32_t targetCapacity, UErrorCode *status); struct USystemParams { const char *paramName; USystemParameterCallback *paramFunction; const char *paramStr; int32_t paramInt; }; /* parameter types */ U_CAPI int32_t paramEmpty(const USystemParams * /* param */, char *target, int32_t targetCapacity, UErrorCode *status) { if(U_FAILURE(*status))return 0; return u_terminateChars(target, targetCapacity, 0, status); } U_CAPI int32_t paramStatic(const USystemParams *param, char *target, int32_t targetCapacity, UErrorCode *status) { if(param->paramStr==NULL) return paramEmpty(param,target,targetCapacity,status); if(U_FAILURE(*status))return 0; int32_t len = uprv_strlen(param->paramStr); if(target!=NULL) { uprv_strncpy(target,param->paramStr,uprv_min(len,targetCapacity)); } return u_terminateChars(target, targetCapacity, len, status); } static const char *nullString = "(null)"; static int32_t stringToStringBuffer(char *target, int32_t targetCapacity, const char *str, UErrorCode *status) { if(str==NULL) str=nullString; int32_t len = uprv_strlen(str); if (U_SUCCESS(*status)) { if(target!=NULL) { uprv_strncpy(target,str,uprv_min(len,targetCapacity)); } } else { const char *s = u_errorName(*status); len = uprv_strlen(s); if(target!=NULL) { uprv_strncpy(target,s,uprv_min(len,targetCapacity)); } } return u_terminateChars(target, targetCapacity, len, status); } static int32_t integerToStringBuffer(char *target, int32_t targetCapacity, int32_t n, int32_t radix, UErrorCode *status) { if(U_FAILURE(*status)) return 0; char str[300]; T_CString_integerToString(str,n,radix); return stringToStringBuffer(target,targetCapacity,str,status); } U_CAPI int32_t paramInteger(const USystemParams *param, char *target, int32_t targetCapacity, UErrorCode *status) { if(U_FAILURE(*status))return 0; if(param->paramStr==NULL || param->paramStr[0]=='d') { return integerToStringBuffer(target,targetCapacity,param->paramInt, 10,status); } else if(param->paramStr[0]=='x') { return integerToStringBuffer(target,targetCapacity,param->paramInt, 16,status); } else if(param->paramStr[0]=='o') { return integerToStringBuffer(target,targetCapacity,param->paramInt, 8,status); } else if(param->paramStr[0]=='b') { return integerToStringBuffer(target,targetCapacity,param->paramInt, 2,status); } else { *status = U_INTERNAL_PROGRAM_ERROR; return 0; } } U_CAPI int32_t paramCldrVersion(const USystemParams * /* param */, char *target, int32_t targetCapacity, UErrorCode *status) { if(U_FAILURE(*status))return 0; char str[200]=""; UVersionInfo icu; ulocdata_getCLDRVersion(icu, status); if(U_SUCCESS(*status)) { u_versionToString(icu, str); return stringToStringBuffer(target,targetCapacity,str,status); } else { return 0; } } #if !UCONFIG_NO_FORMATTING U_CAPI int32_t paramTimezoneDefault(const USystemParams * /* param */, char *target, int32_t targetCapacity, UErrorCode *status) { if(U_FAILURE(*status))return 0; UChar buf[100]; char buf2[100]; int32_t len; len = ucal_getDefaultTimeZone(buf, 100, status); if(U_SUCCESS(*status)&&len>0) { u_UCharsToChars(buf, buf2, len+1); return stringToStringBuffer(target,targetCapacity, buf2,status); } else { return 0; } } #endif U_CAPI int32_t paramLocaleDefaultBcp47(const USystemParams * /* param */, char *target, int32_t targetCapacity, UErrorCode *status) { if(U_FAILURE(*status))return 0; const char *def = uloc_getDefault(); return uloc_toLanguageTag(def,target,targetCapacity,FALSE,status); } /* simple 1-liner param functions */ #define STRING_PARAM(func, str) U_CAPI int32_t \ func(const USystemParams *, char *target, int32_t targetCapacity, UErrorCode *status) \ { return stringToStringBuffer(target,targetCapacity,(str),status); } STRING_PARAM(paramIcudataPath, u_getDataDirectory()) STRING_PARAM(paramPlatform, udbg_getPlatform()) STRING_PARAM(paramLocaleDefault, uloc_getDefault()) #if !UCONFIG_NO_CONVERSION STRING_PARAM(paramConverterDefault, ucnv_getDefaultName()) #endif #if !UCONFIG_NO_FORMATTING STRING_PARAM(paramTimezoneVersion, ucal_getTZDataVersion(status)) #endif static const USystemParams systemParams[] = { { "copyright", paramStatic, U_COPYRIGHT_STRING,0 }, { "product", paramStatic, "icu4c",0 }, { "product.full", paramStatic, "International Components for Unicode for C/C++",0 }, { "version", paramStatic, U_ICU_VERSION,0 }, { "version.unicode", paramStatic, U_UNICODE_VERSION,0 }, { "platform.number", paramInteger, "d",U_PLATFORM}, { "platform.type", paramPlatform, NULL ,0}, { "locale.default", paramLocaleDefault, NULL, 0}, { "locale.default.bcp47", paramLocaleDefaultBcp47, NULL, 0}, #if !UCONFIG_NO_CONVERSION { "converter.default", paramConverterDefault, NULL, 0}, #endif { "icudata.name", paramStatic, U_ICUDATA_NAME, 0}, { "icudata.path", paramIcudataPath, NULL, 0}, { "cldr.version", paramCldrVersion, NULL, 0}, #if !UCONFIG_NO_FORMATTING { "tz.version", paramTimezoneVersion, NULL, 0}, { "tz.default", paramTimezoneDefault, NULL, 0}, #endif { "cpu.bits", paramInteger, "d", (sizeof(void*))*8}, { "cpu.big_endian", paramInteger, "b", U_IS_BIG_ENDIAN}, { "os.wchar_width", paramInteger, "d", U_SIZEOF_WCHAR_T}, { "os.charset_family", paramInteger, "d", U_CHARSET_FAMILY}, #if defined (U_HOST) { "os.host", paramStatic, U_HOST, 0}, #endif #if defined (U_BUILD) { "build.build", paramStatic, U_BUILD, 0}, #endif #if defined (U_CC) { "build.cc", paramStatic, U_CC, 0}, #endif #if defined (U_CXX) { "build.cxx", paramStatic, U_CXX, 0}, #endif #if defined (CYGWINMSVC) { "build.cygwinmsvc", paramInteger, "b", 1}, #endif { "uconfig.internal_digitlist", paramInteger, "b", 1}, /* always 1 */ { "uconfig.have_parseallinput", paramInteger, "b", UCONFIG_HAVE_PARSEALLINPUT}, { "uconfig.format_fastpaths_49",paramInteger, "b", UCONFIG_FORMAT_FASTPATHS_49}, }; #define U_SYSPARAM_COUNT UPRV_LENGTHOF(systemParams) U_CAPI const char *udbg_getSystemParameterNameByIndex(int32_t i) { if(i>=0 && i < (int32_t)U_SYSPARAM_COUNT) { return systemParams[i].paramName; } else { return NULL; } } U_CAPI int32_t udbg_getSystemParameterValueByIndex(int32_t i, char *buffer, int32_t bufferCapacity, UErrorCode *status) { if(i>=0 && i< (int32_t)U_SYSPARAM_COUNT) { return systemParams[i].paramFunction(&(systemParams[i]),buffer,bufferCapacity,status); } else { return 0; } } U_CAPI void udbg_writeIcuInfo(FILE *out) { char str[2000]; /* todo: API for writing DTD? */ fprintf(out, " \n"); const char *paramName; for(int32_t i=0;(paramName=udbg_getSystemParameterNameByIndex(i))!=NULL;i++) { UErrorCode status2 = U_ZERO_ERROR; udbg_getSystemParameterValueByIndex(i, str,2000,&status2); if(U_SUCCESS(status2)) { fprintf(out," %s\n", paramName,str); } else { fprintf(out," \n", paramName, u_errorName(status2)); } } fprintf(out, " \n"); } #define ICU_TRAC_URL "http://bugs.icu-project.org/trac/ticket/" #define CLDR_TRAC_URL "http://unicode.org/cldr/trac/ticket/" #define CLDR_TICKET_PREFIX "cldrbug:" U_CAPI char *udbg_knownIssueURLFrom(const char *ticket, char *buf) { if( ticket==NULL ) { return NULL; } if( !strncmp(ticket, CLDR_TICKET_PREFIX, strlen(CLDR_TICKET_PREFIX)) ) { strcpy( buf, CLDR_TRAC_URL ); strcat( buf, ticket+strlen(CLDR_TICKET_PREFIX) ); } else { strcpy( buf, ICU_TRAC_URL ); strcat( buf, ticket ); } return buf; } #if !U_HAVE_STD_STRING const char *warning = "WARNING: Don't have std::string (STL) - known issue logs will be deficient."; U_CAPI void *udbg_knownIssue_openU(void *ptr, const char *ticket, char *where, const UChar *msg, UBool *firstForTicket, UBool *firstForWhere) { if(ptr==NULL) { puts(warning); } printf("%s\tKnown Issue #%s\n", where, ticket); return (void*)warning; } U_CAPI void *udbg_knownIssue_open(void *ptr, const char *ticket, char *where, const char *msg, UBool *firstForTicket, UBool *firstForWhere) { if(ptr==NULL) { puts(warning); } if(msg==NULL) msg = ""; printf("%s\tKnown Issue #%s \"%s\n", where, ticket, msg); return (void*)warning; } U_CAPI UBool udbg_knownIssue_print(void *ptr) { puts(warning); return FALSE; } U_CAPI void udbg_knownIssue_close(void *ptr) { // nothing to do } #else #include #include #include #include #include class KnownIssues { public: KnownIssues(); ~KnownIssues(); void add(const char *ticket, const char *where, const UChar *msg, UBool *firstForTicket, UBool *firstForWhere); void add(const char *ticket, const char *where, const char *msg, UBool *firstForTicket, UBool *firstForWhere); UBool print(); private: std::map< std::string, std::map < std::string, std::set < std::string > > > fTable; }; KnownIssues::KnownIssues() : fTable() { } KnownIssues::~KnownIssues() { } void KnownIssues::add(const char *ticket, const char *where, const UChar *msg, UBool *firstForTicket, UBool *firstForWhere) { if(fTable.find(ticket) == fTable.end()) { if(firstForTicket!=NULL) *firstForTicket = TRUE; fTable[ticket] = std::map < std::string, std::set < std::string > >(); } else { if(firstForTicket!=NULL) *firstForTicket = FALSE; } if(where==NULL) return; if(fTable[ticket].find(where) == fTable[ticket].end()) { if(firstForWhere!=NULL) *firstForWhere = TRUE; fTable[ticket][where] = std::set < std::string >(); } else { if(firstForWhere!=NULL) *firstForWhere = FALSE; } if(msg==NULL || !*msg) return; std::string str; fTable[ticket][where].insert(icu::UnicodeString(msg).toUTF8String(str)); } void KnownIssues::add(const char *ticket, const char *where, const char *msg, UBool *firstForTicket, UBool *firstForWhere) { if(fTable.find(ticket) == fTable.end()) { if(firstForTicket!=NULL) *firstForTicket = TRUE; fTable[ticket] = std::map < std::string, std::set < std::string > >(); } else { if(firstForTicket!=NULL) *firstForTicket = FALSE; } if(where==NULL) return; if(fTable[ticket].find(where) == fTable[ticket].end()) { if(firstForWhere!=NULL) *firstForWhere = TRUE; fTable[ticket][where] = std::set < std::string >(); } else { if(firstForWhere!=NULL) *firstForWhere = FALSE; } if(msg==NULL || !*msg) return; std::string str(msg); fTable[ticket][where].insert(str); } UBool KnownIssues::print() { if(fTable.empty()) { return FALSE; } std::cout << "KNOWN ISSUES" << std::endl; for( std::map< std::string, std::map < std::string, std::set < std::string > > >::iterator i = fTable.begin(); i != fTable.end(); i++ ) { char URL[1024]; std::cout << '#' << (*i).first << " <" << udbg_knownIssueURLFrom( (*i).first.c_str(), URL ) << ">" << std::endl; for( std::map< std::string, std::set < std::string > >::iterator ii = (*i).second.begin(); ii != (*i).second.end(); ii++ ) { std::cout << " " << (*ii).first << std::endl; for ( std::set < std::string >::iterator iii = (*ii).second.begin(); iii != (*ii).second.end(); iii++ ) { std::cout << " " << '"' << (*iii) << '"' << std::endl; } } } return TRUE; } U_CAPI void *udbg_knownIssue_openU(void *ptr, const char *ticket, char *where, const UChar *msg, UBool *firstForTicket, UBool *firstForWhere) { KnownIssues *t = static_cast(ptr); if(t==NULL) { t = new KnownIssues(); } t->add(ticket, where, msg, firstForTicket, firstForWhere); return static_cast(t); } U_CAPI void *udbg_knownIssue_open(void *ptr, const char *ticket, char *where, const char *msg, UBool *firstForTicket, UBool *firstForWhere) { KnownIssues *t = static_cast(ptr); if(t==NULL) { t = new KnownIssues(); } t->add(ticket, where, msg, firstForTicket, firstForWhere); return static_cast(t); } U_CAPI UBool udbg_knownIssue_print(void *ptr) { KnownIssues *t = static_cast(ptr); if(t==NULL) { return FALSE; } else { t->print(); return TRUE; } } U_CAPI void udbg_knownIssue_close(void *ptr) { KnownIssues *t = static_cast(ptr); delete t; } #endif