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Android 10
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10.0.0_r6
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external
cldr
tools
c
genldml
genldml.cpp
/* ******************************************************************************* * * Copyright (C) 2003, International Business Machines * Corporation and others. All Rights Reserved. * ******************************************************************************* * file name: genldml.cpp */ #include <time.h> #include <stdio.h> #include <string.h> #include "genldml.h" #include <stdlib.h> #include "unicode/ustring.h" #define MAX_DIGITS 10 #ifndef GENLDML_NOSETAPPDATA /* * Resource Data Reference. The data is packaged as a dll (or .so or * whatever, depending on the platform) that exports a data * symbol. The application (that's us) references that symbol, * here, and will pass the data address to ICU, which will then * be able to fetch resources from the data. */ extern "C" { extern const void U_IMPORT *genldml_resources_dat; } #endif #define XML_END_SLASH "/" enum { HELP1, HELP2, SOURCEDIR, DESTDIR, PACKAGE_NAME, IGNORE_COLLATION, BASE, BASE_TYPE, IGNORE_SPECIALS, IGNORE_LAYOUT, DRAFT, ONLY_SPECIALS }; UOption options[]={ UOPTION_HELP_H, UOPTION_HELP_QUESTION_MARK, UOPTION_SOURCEDIR, UOPTION_DESTDIR, UOPTION_DEF("package", 'p', UOPT_REQUIRES_ARG), UOPTION_DEF("ignore-collation", 'i', UOPT_NO_ARG), UOPTION_DEF("base", 'b', UOPT_REQUIRES_ARG), UOPTION_DEF("base-type", 't', UOPT_REQUIRES_ARG), UOPTION_DEF("ignore-specials", 'c', UOPT_NO_ARG), UOPTION_DEF("ignore-layout", 'l', UOPT_NO_ARG), UOPTION_DEF("draft", 'r', UOPT_NO_ARG), UOPTION_DEF("only-specials", 'g', UOPT_NO_ARG) }; const char* usageString = "Usage: genldml [OPTIONS] [FILES]\n" "\tConvert the input res file to XML\n" "Options:\n" "\t-h or -? or --help this usage text\n" "\t-s or --sourcedir source directory for files followed by path\n" "\t followed by path\n" "\t-d or --destdir dest directory for files followed by path\n" "\t followed by path\n" "\t-p or --package name of the package that is prepended to the resource bundles\n" "\t defaults to ICU's data\n" "\t-i or --ignore-collation Ignores collation generation\n" "\t-b or --base the base tailoring for collation if any\n" "\t-t or --base-type the type of base tailoring for collation in the base. Defaults to standard\n" "\t-c or --ignore-specials Ignores specials in collations\n" "\t-l or --ignore-layout Ignores layout element\n" "\t-r or --draft The LDML file being generated will marked as draft\n" "\t-g or --only-specials Produces on special elements\n" ; UBool ignoreCollation = FALSE; const char* baseCollation = NULL; const char* baseType = NULL; UBool ignoreSpecials = FALSE; UBool ignoreLayout = FALSE; UBool isDraft = FALSE; UBool onlySpecials = FALSE; int main (int32_t argc, const char* argv[]) { const char* srcDir =NULL; const char* destDir = NULL; const char* packageName=NULL; UErrorCode err= U_ZERO_ERROR; char* path= NULL; //initialize the argument list U_MAIN_INIT_ARGS(argc, argv); //parse the arguments int32_t _remainingArgc = u_parseArgs(argc, (char**)argv, (int32_t)(sizeof(options)/sizeof(options[0])), options); // Now setup the arguments if(argc==1 || options[HELP1].doesOccur || options[HELP2].doesOccur) { fprintf(stderr,usageString); return -1; } if(options[SOURCEDIR].doesOccur) { srcDir = options[SOURCEDIR].value; } if(options[DESTDIR].doesOccur) { destDir = options[DESTDIR].value; } if(options[PACKAGE_NAME].doesOccur) { packageName = options[PACKAGE_NAME].value; } if(options[IGNORE_COLLATION].doesOccur){ ignoreCollation = TRUE; } if(options[BASE].doesOccur){ baseCollation = options[BASE].value; } if(options[BASE_TYPE].doesOccur){ baseCollation = options[BASE_TYPE].value; } if(options[IGNORE_SPECIALS].doesOccur){ ignoreSpecials = TRUE; } if(options[IGNORE_LAYOUT].doesOccur){ ignoreLayout = TRUE; } if(options[DRAFT].doesOccur){ isDraft = TRUE; } if(options[ONLY_SPECIALS].doesOccur){ onlySpecials = TRUE; } #ifndef GENLDML_NOSETAPPDATA /* Tell ICU where our resource data is located in memory. * The data lives in the genldml_resources dll, and we just * pass the address of an exported symbol from that library * to ICU. */ udata_setAppData("genldml_resources", &genldml_resources_dat, &err); if (U_FAILURE(err)) { fprintf(stderr, "%s: ures_open failed with error \"%s\"\n", argv[0], u_errorName(err)); exit(-1); } #endif if(srcDir!=NULL){ path = (char*) malloc(strlen(srcDir)+((packageName!=NULL) ? strlen(packageName) : 0 )+2); strcpy(path,srcDir); if(path[(strlen(srcDir)-1)]!=U_FILE_SEP_CHAR){ strcat(path,U_FILE_SEP_STRING); } if(packageName!=NULL){ strcat(path,packageName); } } if(_remainingArgc<0) { fprintf(stderr,usageString); return -1; } for(int i=1; i<_remainingArgc; i++){ GenerateXML gen(path,argv[i],destDir,err); if(U_FAILURE(err)){ fprintf(stderr,"Reading of resource file failed. Error: %s\n",u_errorName(err)); return -1; } gen.DoIt(); } free(path); return 0; } static int32_t itou (UChar * buffer, uint32_t i, uint32_t radix, int32_t pad) { int32_t length = 0; int32_t num = 0; int digit; int32_t j; UChar temp; do{ digit = (int)(i % radix); buffer[length++]=(UChar)(digit<=9?(0x0030+digit):(0x0030+digit+7)); i=i/radix; } while(i); while (length < pad){ buffer[length++] = (UChar) 0x0030;/*zero padding */ } /* null terminate the buffer */ if(length<MAX_DIGITS){ buffer[length] = (UChar) 0x0000; } num= (pad>=length) ? pad :length; /* Reverses the string */ for (j = 0; j < (num / 2); j++){ temp = buffer[(length-1) - j]; buffer[(length-1) - j] = buffer[j]; buffer[j] = temp; } return length; } GenerateXML::GenerateXML(const char* path, const char* locName,const char* destDir, UErrorCode& err) : mSourceBundle(path, locName,err), mStringsBundle("genldml_resources","root", err),mError(err){ mFile=NULL; if(U_SUCCESS(err)){ mLocale=Locale(locName); mFile=getFileHandle(destDir,locName); GenerateXML::locName = locName; GenerateXML::path = path; GenerateXML::destDir = destDir; // GenerateXML::packageName = packageName; if(mFile==NULL){ closeFileHandle(); exit(U_FILE_ACCESS_ERROR); } indentOffset=""; } } GenerateXML::~GenerateXML() { closeFileHandle(); } void GenerateXML::closeFileHandle(){ if(mFile){ fclose(mFile); } } void GenerateXML::DoIt(){ writeXMLVersionAndComments(); writeIdentity(); if(onlySpecials==FALSE){ writeDisplayNames(); writeLayout(); } // WARNING: do not change the order // the generated XML will not validate!!! writeEncodings(); if(onlySpecials==FALSE){ writeDelimiters(); writeMeasurement(); writeDates(); writeNumberFormat(); } if(ignoreCollation == FALSE){ writeCollations(); } writeSpecial(); //if(strcmp(locName, "root")==0){ writeSupplementalData(); //} /* writeTransliteration(); writeBoundary(); // writeMisc(); writePosixAdditions(); writePosixCompData(); */ closeXMLDocument(); } void GenerateXML::chopIndent(){ indentOffset.remove((indentOffset.length()-1),1); } int32_t GenerateXML::copyUnicodeStringToChars(const UnicodeString& str, char* buf, int32_t bufCapacity) { int32_t len = str.length(); if (buf != 0) { // copy whatever will fit into buf int32_t len2 = (len<(bufCapacity - 1))? len : (bufCapacity-1); str.extract(0, len2, buf, ""); buf[len2] = 0; // zero-terminate } return len; // return actual length } void GenerateXML::closeXMLDocument(){ chopIndent(); Formattable args[] = {UnicodeString(XML_END_SLASH), ""}; UnicodeString xmlString; formatString(mStringsBundle.getStringEx("localeData",mError),args,2,xmlString); printString(&xmlString); } UnicodeString GenerateXML::formatString(UnicodeString& str,UnicodeString& argument,UnicodeString& result){ Formattable args[] ={ argument}; MessageFormat format(str,mError); FieldPosition fpos=0; result.remove(); format.format(args,1, result,fpos,mError); // if(U_FAILURE(mError)) { // return UnicodeString("Illegal argument"); // } return result; } UnicodeString GenerateXML::formatString(UnicodeString& str,const Formattable* args,int32_t num,UnicodeString& result){ FieldPosition fpos=0; MessageFormat format(str,mError); result.remove(); format.format(args,num, result,fpos,mError); // if(U_FAILURE(mError)) { // return UnicodeString("Illegal argument"); // } return result; } FILE* GenerateXML::getFileHandle(const char* path, const char* name) { FILE* file; char fileName[256]; if(!path){ path="."; } if(U_FAILURE(mError) ) { return NULL; } strcpy(fileName,path); if(path[ strlen(path)-1] !='\\'){ strcat(fileName,"\\"); } strcat(fileName, name ); strcat(fileName, ".xml"); /* open the output file */ file=fopen(fileName,"w"); if(file==NULL) { mError=U_FILE_ACCESS_ERROR; printf("Could not open file %s for writing.\n",fileName); exit(U_FILE_ACCESS_ERROR); return NULL; }else{ printf("opened file %s in directory %s\n", fileName, path); } return file; } int32_t GenerateXML::fillOutputString(const UnicodeString &temp, UChar *dest, int32_t destCapacity) { int32_t length = temp.length(); if (destCapacity > 0) { // copy the contents; extract() will check if it needs to copy anything at all temp.extract(0, destCapacity, dest, 0); // zero-terminate the dest buffer if possible if (length < destCapacity) { dest[length] = 0; } } // set the error code according to the necessary buffer length if (length > destCapacity && U_SUCCESS(mError)) { mError = U_BUFFER_OVERFLOW_ERROR; } // return the full string length return length; } void GenerateXML::printString(UnicodeString* uString){ printString(uString,mFile); } void GenerateXML::printString(UnicodeString* uString, FILE* file){ //UChar result[256]; char *dest = NULL; int32_t destLen = 0; int32_t destCap =0; const UChar* src = uString->getBuffer(); int32_t srcLen=uString->length(); if(U_FAILURE(mError)){ fprintf(stderr,"Error on entering the printString fucntion. Error: %s. Returning.", u_errorName(mError)); } u_strToUTF8(dest,destCap, &destLen,src,srcLen,&mError); if(mError == U_BUFFER_OVERFLOW_ERROR){ destCap = destLen+2; dest = (char*) malloc(destCap); mError = U_ZERO_ERROR; dest = u_strToUTF8(dest,destCap, &destLen,src,srcLen,&mError); fwrite(dest,destLen,sizeof(char),file); } uString->releaseBuffer(); free(dest); if(U_FAILURE(mError)){ fprintf(stderr,"Conversion of string to UTF-8 failed with error: %s\n",u_errorName(mError)); exit(mError); } } void GenerateXML::writeXMLVersionAndComments(){ UnicodeString xmlString; if(U_FAILURE(mError)) { return; } UnicodeString temp; if(ignoreSpecials==FALSE){ temp = mStringsBundle.getStringEx("declaration",mError); }else{ temp = mStringsBundle.getStringEx("declarationNoSpecials",mError); } xmlString.append(temp); Formattable arguments[] = {"", (isDraft==TRUE)? " draft=\"true\"" : ""}; UnicodeString tempStr; xmlString.append(formatString(mStringsBundle.getStringEx("localeData",mError),arguments,2,tempStr)); printString(&xmlString); mError=U_ZERO_ERROR; } void GenerateXML::writeVersion(UnicodeString& xmlString){ UnicodeString tempStr; UnicodeString version; if(U_FAILURE(mError)) { return; } version=mSourceBundle.getStringEx("Version",mError); // if version is not available provide a default version. if( mError == U_USING_DEFAULT_WARNING || mError == U_USING_FALLBACK_WARNING || mError == U_MISSING_RESOURCE_ERROR){ version="1.0"; mError = U_ZERO_ERROR; } Formattable args[] = {indentOffset,""}; UnicodeString result; if(!version.isEmpty()){ args[0]=indentOffset; args[1]=version; //TODO: remove this //args[1] = "1.0-alpha"; xmlString.append(formatString(mStringsBundle.getStringEx("version",mError),args,2,result)); } args[0]=indentOffset; args[1]= UnicodeString(XML_END_SLASH); args[2]=""; xmlString.append(formatString(mStringsBundle.getStringEx("versioning",mError), args,3,result)); //printString(&xmlString); mError=U_ZERO_ERROR; } void GenerateXML::writeIdentity(){ UnicodeString xmlString, tempStr,tempStr1,tempStr2; indentOffset.append("\t"); Formattable args[]={indentOffset,"",""}; formatString(mStringsBundle.getStringEx("identity",mError),args,2,xmlString); indentOffset.append("\t"); //version writeVersion(xmlString); //genrationDate SimpleDateFormat format(UnicodeString("yyyy-MM-dd"), mError); format.format(Calendar::getNow(),tempStr); args[0]=indentOffset; args[1]=tempStr; tempStr.remove(); xmlString.append(formatString(mStringsBundle.getStringEx("generationDate",mError),args,2,tempStr)); tempStr1=mLocale.getISO3Language() ; tempStr2=mLocale.getLanguage(); if(! tempStr2.isEmpty()){ //if(tempStr2 == "root"){ // tempStr2 =""; //} Formattable args1[] = {indentOffset, tempStr2,""}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("languageElem",mError),args1,3,t)); } tempStr1.remove(); tempStr2.remove(); mError = U_ZERO_ERROR; tempStr.remove(); tempStr = mLocale.getScript(); if(!tempStr.isEmpty() && tempStr!="t"){ Formattable args1[] = {indentOffset, tempStr}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("scriptElem",mError),args1,2,t)); } mError = U_ZERO_ERROR; tempStr1=mLocale.getCountry(); tempStr2=mLocale.getISO3Country(); if(!(tempStr1.isEmpty() && tempStr2.isEmpty())){ Formattable args1[] = {indentOffset,tempStr1,tempStr2}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("territoryElem",mError),args1,2,t)); } if(mError==U_MISSING_RESOURCE_ERROR){ mError=U_ZERO_ERROR; } tempStr.remove(); tempStr=mLocale.getVariant(); if(!tempStr.isEmpty() && tempStr!="t"){ Formattable args1[] = {indentOffset, tempStr}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("variantElem",mError),args1,2,t)); } ResourceBundle tb = mSourceBundle.get("LocaleID",mError); UResType type = tb.getType(); chopIndent(); args[0]=indentOffset; args[1]= (UnicodeString(XML_END_SLASH)); args[2]= ""; mError =U_ZERO_ERROR; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("identity",mError),args,2,t)); printString(&xmlString); } void GenerateXML::writeDisplayNames(){ UnicodeString xmlString; UBool print = FALSE; if(U_FAILURE(mError)) { return; } Formattable args[]={indentOffset,"",""}; UnicodeString t; xmlString= formatString(mStringsBundle.getStringEx("localeDisplayNames",mError),args,3,t); UnicodeString tempStr; indentOffset.append("\t"); writeLanguage(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } writeScript(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } writeCountryNames(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } writeVariantNames(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } writeKeywordNames(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } writeTypeNames(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } chopIndent(); Formattable args1[]={indentOffset,(UnicodeString(XML_END_SLASH)),""}; xmlString.append(formatString(mStringsBundle.getStringEx("localeDisplayNames",mError) ,args1,3,t)); if(print) printString(&xmlString); } void GenerateXML::writeTable(const char* key, const char* resMain, const char* resElement, UnicodeString& xmlString){ if(U_FAILURE(mError)) { return; } Formattable args[]={indentOffset,"",""}; UnicodeString t; xmlString= formatString(UnicodeString(mStringsBundle.getStringEx(resMain,mError)),args,3,t); ResourceBundle dBundle=mSourceBundle.get(key,mError); if( U_SUCCESS(mError) && mError != U_USING_FALLBACK_WARNING && mError != U_USING_DEFAULT_WARNING){ UnicodeString fallbackName = dBundle.getStringEx("Fallback",mError); if(U_SUCCESS(mError) && fallbackName.length()>0){ // we know that we are processing ICU bundles char fbName[100]={0}; int32_t len = fallbackName.extract(0,fallbackName.length(),fbName, 100); fbName[len]=0;//null terminate the array ResourceBundle rootBundle(NULL, "root",mError); ResourceBundle fallbackBundle(NULL, fbName, mError); ResourceBundle rootDelta = rootBundle.get(key, mError); ResourceBundle fallbackDelta = fallbackBundle.get(key, mError); indentOffset.append("\t"); while(rootDelta.hasNext()){ ResourceBundle delta1 = rootDelta.getNext(mError); const char* mykey = delta1.getKey(); UnicodeString string = dBundle.getStringEx(mykey, mError); if(strcmp(mykey, "Fallback") == 0){ continue; } if(fallbackName.length() > 0 && (mError == U_MISSING_RESOURCE_ERROR)){ // explicit fallback is set mError=U_ZERO_ERROR; string = fallbackDelta.getStringEx(mykey, mError); }else if(string.length()==0){ string = rootDelta.getStringEx(mykey, mError); } Formattable args1[]={indentOffset,mykey,string}; xmlString.append(formatString(mStringsBundle.getStringEx(resElement,mError),args1,3,t)); mError=U_ZERO_ERROR; } chopIndent(); Formattable args1[]={indentOffset,(UnicodeString(XML_END_SLASH)),""}; xmlString.append(formatString(mStringsBundle.getStringEx(resMain,mError) ,args1,3,t)); return; }else{ mError = U_ZERO_ERROR; indentOffset.append("\t"); while(dBundle.hasNext()){ ResourceBundle dBundle1 = dBundle.getNext(mError); const char* mykey=dBundle1.getKey(); if(strcmp(mykey, "Fallback")==0){ continue; } UnicodeString string = dBundle.getStringEx(mykey,mError); Formattable args1[]={indentOffset,mykey,string}; xmlString.append(formatString(mStringsBundle.getStringEx(resElement,mError),args1,3,t)); mError=U_ZERO_ERROR; } chopIndent(); Formattable args1[]={indentOffset,(UnicodeString(XML_END_SLASH)),""}; xmlString.append(formatString(mStringsBundle.getStringEx(resMain,mError) ,args1,3,t)); return; } } mError=U_ZERO_ERROR; xmlString.remove(); } void GenerateXML::writeLocaleScript(UnicodeString& xmlString){ if(ignoreSpecials == FALSE){ ResourceBundle scripts= mSourceBundle.get("LocaleScript",mError); UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ Formattable args[]={indentOffset,mStringsBundle.getStringEx("xmlns_icu",mError),"",""}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx( "special",mError),args,4,t)); indentOffset.append("\t"); args[0]=indentOffset; args[1]=""; xmlString.append(formatString(mStringsBundle.getStringEx("icu_scripts",mError),args,2,t)); indentOffset.append("\t"); for(int i=0;scripts.hasNext();i++){ char c[10]={0}; itoa(i+1,c,10); args[0] = indentOffset; args[1] = UnicodeString(c); args[2] = scripts.getNextString(mError); xmlString.append(formatString(mStringsBundle.getStringEx("icu_script",mError),args,3,t)); } chopIndent(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("icu_scripts",mError),args,2,t)); chopIndent(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("specialEnd",mError),args,2,t)); mError=U_ZERO_ERROR; return; } xmlString.remove(); mError= U_ZERO_ERROR; } } void GenerateXML::writeScript(UnicodeString& xmlString){ writeTable("Scripts","scripts","script",xmlString); } void GenerateXML::writeLanguage(UnicodeString& xmlString){ writeTable("Languages","languages","language",xmlString); } void GenerateXML::writeCountryNames(UnicodeString& xmlString){ writeTable("Countries","territories","territory",xmlString); } void GenerateXML::writeVariantNames(UnicodeString& xmlString){ writeTable("Variants","variants","variant",xmlString); } void GenerateXML::writeKeywordNames(UnicodeString& xmlString){ writeTable("Keys","keys","key",xmlString); } void GenerateXML::writeTypeNames(UnicodeString& xmlString){ UnicodeString tempStr; Formattable args[] = { indentOffset, "","",""}; formatString(mStringsBundle.getStringEx("types",mError),args,2,xmlString); ResourceBundle dBundle=mSourceBundle.get("Types",mError); UnicodeString t; if( U_SUCCESS(mError) && mError != U_USING_FALLBACK_WARNING && mError != U_USING_DEFAULT_WARNING){ mError = U_ZERO_ERROR; indentOffset.append("\t"); while(dBundle.hasNext()){ ResourceBundle dBundle1 = dBundle.getNext(mError); const char* key=dBundle1.getKey(); if(strcmp(key, "Fallback")==0){ continue; } ResourceBundle dBundle2 = dBundle.get(key,mError); while(dBundle2.hasNext()){ ResourceBundle dBundle3 = dBundle2.getNext(mError); const char* type = dBundle3.getKey(); if(strcmp(type, "Fallback")==0){ continue; } UnicodeString value = dBundle3.getString(mError); Formattable args1[]={indentOffset,type, key, value}; xmlString.append(formatString(mStringsBundle.getStringEx("type",mError),args1,4,t)); } mError=U_ZERO_ERROR; } chopIndent(); Formattable args1[]={indentOffset,(UnicodeString(XML_END_SLASH)),""}; xmlString.append(formatString(mStringsBundle.getStringEx("types",mError) ,args1,3,t)); return; } xmlString.append(tempStr); args[0] = indentOffset; args[1] = "/"; xmlString.append(formatString(mStringsBundle.getStringEx("types",mError),args,2,t)); if(tempStr.isEmpty()){ xmlString.remove(); } mError =U_ZERO_ERROR; } void GenerateXML::writeLayout(){ if(ignoreLayout == FALSE){ UnicodeString xmlString; Formattable args[] = {indentOffset,"",""}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("layout", mError), args,2,t)); UnicodeString lang = mLocale.getLanguage(); UnicodeString country = mLocale.getCountry(); indentOffset.append("\t"); UBool rightToLeft = FALSE; if(lang=="ar" || lang=="he" || lang=="il" || lang=="ps" || lang=="fa" ){ args[0] = indentOffset; args[1] = "top-to-bottom"; args[2] = "right-to-left"; xmlString.append(formatString(mStringsBundle.getStringEx("orientation",mError), args,3,t)); rightToLeft = TRUE; }else if(lang== "root"){ args[0] = indentOffset; args[1] = "top-to-bottom"; args[2] = "left-to-right"; xmlString.append(formatString(mStringsBundle.getStringEx("orientation",mError), args,3,t)); } chopIndent(); args[0] = indentOffset; args[1] = "/"; xmlString.append(formatString(mStringsBundle.getStringEx("layout",mError),args,2,t)); mError = U_ZERO_ERROR; //print this only in the root language locale if(lang=="root" || rightToLeft == TRUE){ printString(&xmlString); } } } void GenerateXML::writeEncodings(){ UnicodeString xmlString; Formattable args[] = {indentOffset,"",""}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("characters",mError),args,2,t)); indentOffset.append("\t"); UnicodeString temp; UBool writeData = FALSE; if(onlySpecials==FALSE){ writeExemplarCharacters(temp); } if(temp.length()>0){ xmlString.append(temp); writeData = TRUE; } temp.remove(); //if(ignoreSpecials==TRUE){ writeLocaleScript(temp); //} if(temp.length()>0){ xmlString.append(temp); writeData = TRUE; } // currently no mappings are defined in ICU // so we donot add them if(writeData == TRUE){ chopIndent(); args[0] = indentOffset; args[1] = "/"; xmlString.append(formatString(mStringsBundle.getStringEx("characters",mError),args,2,t)); printString(&xmlString); }else{ xmlString.remove(); } mError = U_ZERO_ERROR; } void GenerateXML::writeExemplarCharacters(UnicodeString& xmlString){ Formattable args[] = {"","",""}; args[0] = indentOffset; args[1] = mSourceBundle.getStringEx("ExemplarCharacters",mError); UnicodeString t; if( mError != U_USING_FALLBACK_WARNING && mError != U_USING_DEFAULT_WARNING && U_SUCCESS(mError)){ xmlString.append(formatString(mStringsBundle.getStringEx("exemplarCharacters",mError),args,2,t)); } mError = U_ZERO_ERROR; } void GenerateXML::writeDelimiters(){ // Data not available in ICU } void GenerateXML::writeMeasurement(){ UnicodeString xmlString; writeMeasurement(xmlString); if(xmlString.length()>0) printString(&xmlString); } void GenerateXML::writeDates(){ UnicodeString xmlString; UBool print = FALSE; if(U_FAILURE(mError)) { return; } Formattable args[]={indentOffset,"",""}; formatString(mStringsBundle.getStringEx("dates",mError),args,3,xmlString); UnicodeString tempStr; indentOffset.append("\t"); writeLocalePatternChars(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeCalendars(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeTimeZoneNames(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } chopIndent(); Formattable args1[]={indentOffset,(UnicodeString(XML_END_SLASH)),""}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("dates",mError) ,args1,3,t)); if(print) printString(&xmlString); } void GenerateXML::writeTimeZoneNames(UnicodeString& xmlString){ if(U_FAILURE(mError)) { return; } UBool isDefault =TRUE; Formattable args[4] ={indentOffset,"","",""}; UnicodeString t; ResourceBundle dBundle = mSourceBundle.get("zoneStrings", mError); UBool remove = TRUE; if(mError!=U_USING_DEFAULT_WARNING && U_SUCCESS(mError) && mError!=U_USING_FALLBACK_WARNING){ xmlString.append(formatString(mStringsBundle.getStringEx("timeZone",mError),args,2,t)); indentOffset.append("\t"); while(dBundle.hasNext()){ ResourceBundle dBundle1 = dBundle.getNext(mError); if(U_SUCCESS(mError)){ int i = 0; UnicodeString data =dBundle1.getStringEx((int32_t)0,mError); if(U_SUCCESS(mError)){ remove = FALSE; args[0] =indentOffset; args[1] = data; args[2] = ""; xmlString.append(formatString(mStringsBundle.getStringEx("zoneStart",mError),args,3,t)); isDefault=FALSE; indentOffset.append("\t"); args[0] =indentOffset; args[1] = ""; //long format xmlString.append(formatString(mStringsBundle.getStringEx("long",mError),args,2,t)); indentOffset.append("\t"); /* // Currently ICU does not have support for generic args[0]=indentOffset; args[1]=dBundle1.getStringEx((int32_t)1,mError); if(U_SUCCESS(mError)){ xmlString.append(formatString(mStringsBundle.getStringEx("generic",mError),args,2,t)); } */ mError=U_ZERO_ERROR; args[1]=dBundle1.getStringEx((int32_t)1,mError); if(U_SUCCESS(mError)){ xmlString.append(formatString(mStringsBundle.getStringEx("standard",mError),args,2,t)); } mError =U_ZERO_ERROR; args[1]=dBundle1.getStringEx((int32_t)3,mError); if(U_SUCCESS(mError)){ xmlString.append(formatString(mStringsBundle.getStringEx("daylight",mError),args,2,t)); } mError=U_ZERO_ERROR; chopIndent(); args[0]=indentOffset; args[1]=UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("long",mError),args,2,t)); args[1]=""; // short format xmlString.append(formatString(mStringsBundle.getStringEx("short",mError),args,2,t)); indentOffset.append("\t"); args[0]=indentOffset; /* // Currently ICU does not have support for generic data=dBundle1.getStringEx((int32_t)0,mError); if(U_SUCCESS(mError)){ args[1]=data; xmlString.append(formatString(mStringsBundle.getStringEx("generic",mError),args,2,t)); } */ data=dBundle1.getStringEx((int32_t)2,mError); if(U_SUCCESS(mError)){ args[1]=data; xmlString.append(formatString(mStringsBundle.getStringEx("standard",mError),args,2,t)); } data = dBundle1.getStringEx((int32_t)4,mError); if(U_SUCCESS(mError)){ args[1]=data; xmlString.append(formatString(mStringsBundle.getStringEx("daylight",mError),args,2,t)); } mError = U_ZERO_ERROR; chopIndent(); args[0]=indentOffset; args[1]=UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("short",mError),args,2,t)); args[1].setString(dBundle1.getStringEx((int32_t)5,mError)); if(U_SUCCESS(mError)){ xmlString.append(formatString(mStringsBundle.getStringEx("exemplarCity",mError),args,2,t)); } mError=U_ZERO_ERROR; chopIndent(); xmlString.append(formatString(mStringsBundle.getStringEx("zoneEnd",mError),indentOffset,t)); } } mError=U_ZERO_ERROR; } chopIndent(); args[0]=indentOffset; args[1]=UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("timeZone",mError),args,2,t)); //printString(&xmlString); if(remove==TRUE){ xmlString.remove(); } mError=U_ZERO_ERROR; return; } mError=U_ZERO_ERROR; } void GenerateXML::writeCalendars(UnicodeString& xmlString){ UnicodeString tempStr; UBool print =FALSE; Formattable args[2]={indentOffset,""}; xmlString.append(formatString(mStringsBundle.getStringEx("calendars",mError),args,2,tempStr)); ResourceBundle calendars = mSourceBundle.get("calendar", mError); indentOffset.append("\t"); if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ ResourceBundle defaultCalendar = calendars.getWithFallback("default", mError); UnicodeString defaultC = defaultCalendar.getString(mError); args[0] = indentOffset; args[1] = defaultC; if(U_FAILURE(mError)){ fprintf(stderr, "Could not find the default calendar. Dying.\n"); exit(U_INTERNAL_PROGRAM_ERROR); } xmlString.append(formatString(mStringsBundle.getStringEx( "default",mError),args,2,tempStr)); while(calendars.hasNext()){ ResourceBundle calendar = calendars.getNext(mError); if(U_SUCCESS(mError)){ UnicodeString key = UnicodeString(calendar.getKey()); mError=U_ZERO_ERROR; tempStr.remove(); writeCalendar(calendar, key, (defaultC==key),tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } } } } chopIndent(); args[0] = indentOffset; args[1]=UnicodeString(XML_END_SLASH); if(print ==TRUE){ xmlString.append(formatString(mStringsBundle.getStringEx("calendars",mError),args,2,tempStr)); }else{ xmlString.remove(); } } void GenerateXML::writeCalendar(ResourceBundle& calendar, UnicodeString& cal,UBool isDefault,UnicodeString& xmlString){ UnicodeString tempStr; UBool print =FALSE; Formattable args[]={indentOffset,cal}; // TODO : Figure out a way to find default // xmlString.append(formatString(mStringsBundle.getStringEx( "default",mError),args,2,tempStr)); xmlString.append(formatString(mStringsBundle.getStringEx("calendarStart",mError),args,2,tempStr)); indentOffset.append("\t"); tempStr.remove(); writeMonthNames(calendar, tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeDayNames(calendar, tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeWeek(calendar, tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeAMPMmarkers(calendar, tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeEra(calendar, tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeDateFormat(calendar,tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeTimeFormat(calendar, tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeDateTimeFormat(calendar, tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } chopIndent(); mError =U_ZERO_ERROR; if(print == TRUE){ xmlString.append(formatString(mStringsBundle.getStringEx("calendarEnd",mError),indentOffset,tempStr)); }else{ xmlString.remove(); } } const char* getDayName(int index){ switch(index){ case 0: return "sun"; case 1: return "mon"; case 2: return "tue"; case 3: return "wed"; case 4: return "thu"; case 5: return "fri"; case 6: return "sat"; default: return ""; } } const char* getDayNameDTE(int index){ switch(index){ case 1: return "sun"; case 2: return "mon"; case 3: return "tue"; case 4: return "wed"; case 5: return "thu"; case 6: return "fri"; case 7: return "sat"; default: return ""; } } void GenerateXML::writeMonthNames(ResourceBundle& calendar, UnicodeString& xmlString){ ResourceBundle monthNames = calendar.get("monthNames",mError); UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ Formattable args[4] ={ indentOffset, "", "", "" }; xmlString.append(formatString(mStringsBundle.getStringEx("months", mError), args, 2, t)); indentOffset.append("\t"); while(monthNames.hasNext()){ ResourceBundle context = monthNames.getNext(mError); UnicodeString ctxKey = UnicodeString(context.getKey()); if(U_FAILURE(mError)){ exit(U_INTERNAL_PROGRAM_ERROR); } if(ctxKey=="default"){ args[0] = indentOffset; args[1] = context.getString(mError); xmlString.append(formatString(mStringsBundle.getStringEx("default",mError),args,2,t)); continue; } args[0] = indentOffset; args[1] = ctxKey; xmlString.append(formatString(mStringsBundle.getStringEx("monthContext",mError),args,2,t)); indentOffset.append("\t"); UnicodeString defaultWidth = context.getStringEx("default", mError); if(U_SUCCESS(mError)){ args[0] = indentOffset; args[1] = defaultWidth; xmlString.append(formatString(mStringsBundle.getStringEx("default",mError),args,2,t)); } mError = U_ZERO_ERROR; while(context.hasNext()){ ResourceBundle width = context.getNext(mError); if(U_FAILURE(mError)){ fprintf(stderr, "Unexpected Error: %s \n", u_errorName(mError)); exit(U_INTERNAL_PROGRAM_ERROR); } UnicodeString widthKey = UnicodeString(width.getKey()); if(widthKey=="default"){ continue; } args[0] = indentOffset; args[1] = widthKey; xmlString.append(formatString(mStringsBundle.getStringEx("monthWidth",mError),args,2,t)); indentOffset.append("\t"); for(int i=0;width.hasNext();i++){ char c[10]={0}; itoa(i+1,c,10); args[0] = indentOffset; args[1] = UnicodeString(c); args[2] = width.getNextString(mError); xmlString.append(formatString(mStringsBundle.getStringEx("month",mError),args,3,t)); } chopIndent(); args[0] = indentOffset; xmlString.append(formatString(mStringsBundle.getStringEx("monthWidthEnd",mError),args,1,t)); } chopIndent(); args[0] = indentOffset; xmlString.append(formatString(mStringsBundle.getStringEx("monthContextEnd",mError),args,1,t)); } chopIndent(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("months",mError),args,2,t)); mError=U_ZERO_ERROR; return; } xmlString.remove(); mError= U_ZERO_ERROR; } void GenerateXML::writeDayNames(ResourceBundle& calendar, UnicodeString& xmlString){ ResourceBundle dayNames = calendar.get("dayNames",mError); UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ Formattable args[4] ={ indentOffset, "", "", "" }; xmlString.append(formatString(mStringsBundle.getStringEx("days", mError), args, 2, t)); indentOffset.append("\t"); while(dayNames.hasNext()){ ResourceBundle context = dayNames.getNext(mError); UnicodeString ctxKey = UnicodeString(context.getKey()); if(ctxKey=="default"){ args[0] = indentOffset; args[1] = context.getString(mError); xmlString.append(formatString(mStringsBundle.getStringEx("default",mError),args,2,t)); continue; } if(U_FAILURE(mError)){ exit(U_INTERNAL_PROGRAM_ERROR); } args[0] = indentOffset; args[1] = ctxKey; xmlString.append(formatString(mStringsBundle.getStringEx("dayContext",mError),args,2,t)); indentOffset.append("\t"); UnicodeString defaultWidth = context.getStringEx("default", mError); if(U_SUCCESS(mError)){ args[0] = indentOffset; args[1] = defaultWidth; xmlString.append(formatString(mStringsBundle.getStringEx("default",mError),args,2,t)); } mError = U_ZERO_ERROR; while(context.hasNext()){ ResourceBundle width = context.getNext(mError); if(U_FAILURE(mError)){ fprintf(stderr, "Unexpected Error: %s \n", u_errorName(mError)); exit(U_INTERNAL_PROGRAM_ERROR); } UnicodeString widthKey = UnicodeString(width.getKey()); if(widthKey == "default"){ continue; } args[0] = indentOffset; args[1] = widthKey; xmlString.append(formatString(mStringsBundle.getStringEx("dayWidth",mError),args,2,t)); indentOffset.append("\t"); for(int i=0;width.hasNext();i++){ args[0] = indentOffset; args[1] = getDayName(i); args[2] = width.getNextString(mError); xmlString.append(formatString(mStringsBundle.getStringEx("day",mError),args,3,t)); } chopIndent(); args[0] = indentOffset; xmlString.append(formatString(mStringsBundle.getStringEx("dayWidthEnd",mError),args,1,t)); } chopIndent(); args[0] = indentOffset; xmlString.append(formatString(mStringsBundle.getStringEx("dayContextEnd",mError),args,1,t)); } chopIndent(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("days",mError),args,2,t)); mError=U_ZERO_ERROR; return; } xmlString.remove(); mError= U_ZERO_ERROR; } UnicodeString getTimeString(UnicodeString& val, int32_t milliSecs){ int32_t minutes = milliSecs / (60000); /* number of milli seconds in 1 hr*/ int32_t deltaMin = minutes % 60; int32_t hours = (minutes-deltaMin)/60; char c[10]={0}; itoa(hours, c, 10); if(strcmp(c,"0")==0){ val.append("00"); }else{ if(strlen(c)==1){ val.append("0"); } val.append(c); } val.append(":"); c[0] = 0; itoa(minutes, c, 10); if(strcmp(c,"0")==0){ val.append("00"); }else{ if(strlen(c)==1){ val.append("0"); } val.append(c); } return val; } void GenerateXML::writeWeek(ResourceBundle& calendar, UnicodeString& xmlString){ UnicodeString t; Formattable args[3] = {indentOffset,"",""}; xmlString.append(formatString(mStringsBundle.getStringEx("week",mError),args,2,t)); indentOffset.append("\t"); ResourceBundle dtElements = calendar.get("DateTimeElements", mError); UnicodeString temp; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ int32_t len =0; const int32_t* vector = dtElements.getIntVector(len,mError); args[0] = indentOffset; // write min days in a week if(len > 1){ args[1] = vector[1]; }else{ args[1] = ""; } temp.append(formatString(mStringsBundle.getStringEx("minDays",mError),args,2,t)); // write first day of the week args[1] = getDayNameDTE(vector[0]); temp.append(formatString(mStringsBundle.getStringEx("firstDay",mError),args,2,t)); } mError = U_ZERO_ERROR; // now write weekend information ResourceBundle weekend = calendar.get("weekend", mError); if(U_SUCCESS(mError)){ int32_t len = 0; const int32_t* vector = weekend.getIntVector(len, mError); UnicodeString time; args[0] = indentOffset; args[1] = getDayNameDTE(vector[0]); args[2] = getTimeString(time, vector[1]); temp.append(formatString(mStringsBundle.getStringEx("weekendStart", mError), args, 3, t)); time.remove(); args[1] = getDayNameDTE(vector[2]); args[2] = getTimeString(time, vector[3]); temp.append(formatString(mStringsBundle.getStringEx("weekendEnd", mError), args, 3, t)); } mError = U_ZERO_ERROR; if(temp.length()>0){ xmlString.append(temp); chopIndent(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("week",mError),args,2,t)); mError=U_ZERO_ERROR; return; } chopIndent(); xmlString.remove(); mError= U_ZERO_ERROR; } void GenerateXML::writeEra(ResourceBundle& calendar,UnicodeString& xmlString){ ResourceBundle eras= calendar.get("eras",mError); UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ Formattable args[3] = {indentOffset,"",""}; xmlString.append(formatString(mStringsBundle.getStringEx("eras",mError),args,2,t)); indentOffset.append("\t"); args[0] = indentOffset; xmlString.append(formatString(mStringsBundle.getStringEx("eraAbbr",mError),args,2,t)); indentOffset.append("\t"); args[0] = indentOffset; for(int i=0;eras.hasNext();i++){ char c[10]={0}; itoa(i+1,c,10); args[1] = UnicodeString(c); args[2] = eras.getNextString(mError); xmlString.append(formatString(mStringsBundle.getStringEx("era",mError),args,3,t)); } chopIndent(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("eraAbbr",mError),args,2,t)); chopIndent(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("eras",mError),args,2,t)); mError=U_ZERO_ERROR; return; } xmlString.remove(); mError =U_ZERO_ERROR; } void GenerateXML::writeAMPMmarkers( ResourceBundle& calendar, UnicodeString& xmlString){ ResourceBundle markers = calendar.get("AmPmMarkers",mError); UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ Formattable args[] = {indentOffset,markers.getStringEx((int32_t)0,mError)}; xmlString.append(formatString(mStringsBundle.getStringEx("am",mError),args ,3,t)); args[1] = markers.getStringEx((int32_t)1,mError); xmlString.append(formatString(mStringsBundle.getStringEx("pm",mError),args ,3,t)); mError= U_ZERO_ERROR; return; } xmlString.remove(); mError= U_ZERO_ERROR; } void GenerateXML::writeFormat(const char* elemName, const char* style, const char* start, const char* end, const char* typeName,UnicodeString& pattern, UnicodeString& xmlString, UBool split){ if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ UnicodeString t; Formattable args[] = {indentOffset,"",""}; xmlString.append(formatString(mStringsBundle.getStringEx(elemName,mError),args ,3,t)); indentOffset.append("\t"); writeFormat(style, start, end, NULL, pattern, xmlString, split); chopIndent(); args[1]=UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx( elemName,mError),args,3,t)); mError= U_ZERO_ERROR; return; } xmlString.remove(); mError= U_ZERO_ERROR; } void GenerateXML::writeFormat(const char* style, const char* start, const char* end, const char* typeName,UnicodeString& pattern, UnicodeString& xmlString, UBool split){ UnicodeString t; UnicodeString type; if(typeName!=NULL){ type.append("type=\""); type.append(typeName); type.append("\""); } if(!split){ Formattable args[4]={indentOffset,"",type,""}; if(*style!=0){ xmlString.append(formatString(mStringsBundle.getStringEx(style,mError),args,3,t)); indentOffset.append("\t"); args[0]= indentOffset; }else{ args[1] = type; } xmlString.append(formatString(mStringsBundle.getStringEx(start,mError),args,2,t)); indentOffset.append("\t"); args[0]=indentOffset; args[1]=pattern; xmlString.append(formatString(mStringsBundle.getStringEx("pattern",mError),args,2,t)); chopIndent(); xmlString.append(formatString(mStringsBundle.getStringEx(end, mError), indentOffset,t)); if(*style!=0){ chopIndent(); args[0]=indentOffset; args[1]=UnicodeString(XML_END_SLASH); args[2]=""; xmlString.append(formatString(mStringsBundle.getStringEx(style,mError),args,3,t)); } }else{ Formattable args[4]={indentOffset,"",type,""}; if(*style!=0){ xmlString.append(formatString(mStringsBundle.getStringEx(style,mError),args,3,t)); indentOffset.append("\t"); args[0]= indentOffset; }else{ args[1]=type; } xmlString.append(formatString(mStringsBundle.getStringEx(start,mError),args,2,t)); UnicodeString positive; UnicodeString negative; pattern.extractBetween(0,pattern.indexOf(";"),positive); pattern.extractBetween(pattern.indexOf(";")+1,pattern.length(),negative); indentOffset.append("\t"); args[0]=indentOffset; if(!positive.isEmpty()){ args[1]=positive; xmlString.append(formatString(mStringsBundle.getStringEx("pattern",mError),args,2,t)); } if(!negative.isEmpty()){ args[1]=negative; xmlString.append(formatString(mStringsBundle.getStringEx("pattern",mError),args,2,t)); } chopIndent(); xmlString.append(formatString(mStringsBundle.getStringEx(end, mError), indentOffset,t)); if(*style!=0){ chopIndent(); args[0]=indentOffset; args[1]=UnicodeString(XML_END_SLASH); args[2]=""; xmlString.append(formatString(mStringsBundle.getStringEx(style,mError),args,3,t)); } } } void GenerateXML::writeDateFormat(ResourceBundle& calendar, UnicodeString& xmlString){ ResourceBundle dtPatterns = calendar.get("DateTimePatterns", mError); UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ // hard code default to medium pattern for ICU Formattable args[4]= {indentOffset,"","",""}; xmlString.append(formatString(mStringsBundle.getStringEx("dateFormats",mError),args,2,t)); indentOffset.append("\t"); args[0]= indentOffset; args[1] = "medium"; xmlString.append(formatString(mStringsBundle.getStringEx( "default",mError),args,2,t)); UnicodeString tempStr; writeFormat("dateFormatLength","dateFormatStart","dateFormatEnd","full",dtPatterns.getStringEx((int32_t)4,mError),xmlString); writeFormat("dateFormatLength","dateFormatStart","dateFormatEnd","long",dtPatterns.getStringEx((int32_t)5,mError),xmlString); writeFormat("dateFormatLength","dateFormatStart","dateFormatEnd","medium",dtPatterns.getStringEx((int32_t)6,mError),xmlString); writeFormat("dateFormatLength","dateFormatStart","dateFormatEnd","short",dtPatterns.getStringEx((int32_t)7,mError),xmlString); chopIndent(); args[0]=indentOffset; args[1]=UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("dateFormats",mError),args,2,t)); } mError= U_ZERO_ERROR; // if(!print) xmlString.remove(); } void GenerateXML::writeTimeFormat(ResourceBundle& calendar, UnicodeString& xmlString){ ResourceBundle dtPatterns = calendar.get("DateTimePatterns", mError); UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ // hard code default to medium pattern for ICU Formattable args[4]= {indentOffset,"","",""}; xmlString.append(formatString(mStringsBundle.getStringEx("timeFormats",mError),args,2,t)); indentOffset.append("\t"); args[0]= indentOffset; args[1]="medium"; xmlString.append(formatString(mStringsBundle.getStringEx( "default",mError),args,2,t)); UnicodeString tempStr; writeFormat("timeFormatLength","timeFormatStart","timeFormatEnd","full",dtPatterns.getStringEx((int32_t)0,mError),xmlString); writeFormat("timeFormatLength","timeFormatStart","timeFormatEnd","long",dtPatterns.getStringEx((int32_t)1,mError),xmlString); writeFormat("timeFormatLength","timeFormatStart","timeFormatEnd","medium",dtPatterns.getStringEx((int32_t)2,mError),xmlString); writeFormat("timeFormatLength","timeFormatStart","timeFormatEnd","short",dtPatterns.getStringEx((int32_t)3,mError),xmlString); chopIndent(); args[0]=indentOffset; args[1]=UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("timeFormats",mError),args,2,t)); } mError= U_ZERO_ERROR; // if(!print) xmlString.remove(); } void GenerateXML::writeDateTimeFormat(ResourceBundle& calendar, UnicodeString& xmlString){ ResourceBundle dtPatterns = calendar.get("DateTimePatterns", mError); UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ Formattable args[4]= {indentOffset,"","",""}; xmlString.append(formatString(mStringsBundle.getStringEx("dateTimeFormats",mError),args,2,t)); indentOffset.append("\t"); args[0]= indentOffset; UnicodeString tempStr; writeFormat("dateTimeFormatLength","dateTimeFormatStart","dateTimeFormatEnd",NULL,dtPatterns.getStringEx((int32_t)8,mError),xmlString); chopIndent(); args[0]=indentOffset; args[1]=UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("dateTimeFormats",mError),args,2,t)); } mError= U_ZERO_ERROR; // if(!print) xmlString.remove(); } void GenerateXML::writeLocalePatternChars(UnicodeString& xmlString){ UnicodeString temp=mSourceBundle.getStringEx("localPatternChars",mError); Formattable args[]={indentOffset,""}; UnicodeString t; if(U_SUCCESS(mError) && mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING){ args[1] = temp; xmlString.append(formatString(mStringsBundle.getStringEx( "localizedChars",mError),args,2,t)); mError = U_ZERO_ERROR; return; } xmlString.remove(); mError = U_ZERO_ERROR; } void GenerateXML::writeNumberFormat(){ UnicodeString xmlString, tempStr; Formattable args[2]={indentOffset,""}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx( "numbers",mError),args,2,t)); indentOffset.append("\t"); UBool print = FALSE; writeNumberElements(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeNumberPatterns(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeCurrencies(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } chopIndent(); args[1]=UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx( "numbers",mError),args,2,t)); if(print) printString(&xmlString); } void GenerateXML::writeNumberElements(UnicodeString& xmlString){ DecimalFormatSymbols mySymbols(mLocale,mError); UnicodeString symbol; mError = U_ZERO_ERROR; ResourceBundle numFormats = mSourceBundle.get("NumberElements", mError); UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && mError != U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ Formattable args[]={indentOffset,""}; xmlString.append(formatString(mStringsBundle.getStringEx( "symbols",mError),args,2,t)); indentOffset.append("\t"); UnicodeString pattern= numFormats.getStringEx((int32_t)0,mError); args[0] = indentOffset; args[1] = pattern; xmlString.append(formatString(mStringsBundle.getStringEx( "decimal",mError),args,2,t)); args[1]=numFormats.getStringEx((int32_t)1,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "group",mError),args,2,t)); args[1]=numFormats.getStringEx((int32_t)2,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "list",mError),args,2,t)); args[1]=numFormats.getStringEx((int32_t)3,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "percentSign",mError),args,2,t)); args[1]=numFormats.getStringEx((int32_t)4,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "negativeZero",mError),args,2,t)); args[1]=numFormats.getStringEx((int32_t)5,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "patternDigit",mError),args,2,t)); args[1]=numFormats.getStringEx((int32_t)11,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "plusSign",mError),args,2,t)); if(mError == U_MISSING_RESOURCE_ERROR){ mError = U_ZERO_ERROR; } args[1]=numFormats.getStringEx((int32_t)6,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "minusSign",mError),args,2,t)); args[1]=numFormats.getStringEx((int32_t)7,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "exponential",mError),args,2,t)); args[1]=numFormats.getStringEx((int32_t)8,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "perMille",mError),args,2,t)); args[1]=numFormats.getStringEx((int32_t)9,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "infinity",mError),args,2,t)); args[1]=numFormats.getStringEx((int32_t)10,mError); xmlString.append(formatString(mStringsBundle.getStringEx( "nan",mError),args,2,t)); chopIndent(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx( "symbols",mError),args,2,t)); return; } mError= U_ZERO_ERROR; xmlString.remove(); } void GenerateXML::writeNumberPatterns(UnicodeString& xmlString){ mError =U_ZERO_ERROR; ResourceBundle dtPatterns = mSourceBundle.get("NumberPatterns", mError); UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ UnicodeString tempStr; writeFormat("decimalFormats","decimalFormatLength","decimalFormatStart","decimalFormatEnd",NULL,dtPatterns.getStringEx((int32_t)0,mError),xmlString,FALSE); writeFormat("scientificFormats","scientificFormatLength","scientificFormatStart","scientificFormatEnd",NULL,dtPatterns.getStringEx((int32_t)3,mError),xmlString,FALSE); writeFormat("percentFormats","percentFormatLength","percentFormatStart","percentFormatEnd",NULL,dtPatterns.getStringEx((int32_t)2,mError),xmlString,FALSE); writeFormat("currencyFormats","currencyFormatLength","currencyFormatStart","currencyFormatEnd",NULL,dtPatterns.getStringEx((int32_t)1,mError),xmlString,FALSE); if(mError == U_MISSING_RESOURCE_ERROR){ mError = U_ZERO_ERROR; } } mError= U_ZERO_ERROR; } void GenerateXML::writeCurrencies(UnicodeString& xmlString){ UnicodeString tempStr; Formattable args[2] = { indentOffset,"" }; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("currencies",mError),args,2,t)); indentOffset.append("\t"); writeCurrency(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); chopIndent(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("currencies",mError),args,2,t)); //printString(&xmlString); mError = U_ZERO_ERROR; return; } xmlString.remove(); chopIndent(); mError= U_ZERO_ERROR; } void GenerateXML::writeCurrency(UnicodeString& xmlString){ UBool isDefault =TRUE; ResourceBundle currency =mSourceBundle.get("Currencies", mError); UnicodeString t; if( U_SUCCESS(mError) && mError != U_USING_FALLBACK_WARNING && mError != U_USING_DEFAULT_WARNING){ while(currency.hasNext()){ ResourceBundle dBundle1 = currency.getNext(mError); const char* mykey=dBundle1.getKey(); UnicodeString symbol = dBundle1.getStringEx((int32_t)0, mError); UnicodeString displayName = dBundle1.getStringEx((int32_t)1, mError); Formattable args[] = {indentOffset,UnicodeString(mykey),""}; //xmlString.append(formatString(mStringsBundle.getStringEx( "default",mError),args,2,t)); xmlString.append(formatString(mStringsBundle.getStringEx("currencyStart",mError),args,3,t)); indentOffset.append("\t"); args[0] = indentOffset; args[1] = displayName; xmlString.append(formatString(mStringsBundle.getStringEx("displayName",mError),args,2,t)); escape(symbol); args[1] = symbol; xmlString.append(formatString(mStringsBundle.getStringEx("symbol",mError),args,2,t)); int32_t size = dBundle1.getSize(); if(size>2){ ResourceBundle elements = dBundle1.get((int32_t)2, mError); UnicodeString key = elements.getKey(); if(elements.getType()!= URES_ARRAY){ fprintf(stderr,"Did not get the expected type for Elements\n"); exit(-1); } if(U_SUCCESS(mError)){ UnicodeString pattern = elements.getStringEx((int32_t)0, mError); UnicodeString decimalSep = elements.getStringEx((int32_t)1, mError); UnicodeString groupSep = elements.getStringEx((int32_t)2, mError); args[1] = pattern; xmlString.append(formatString(mStringsBundle.getStringEx("pattern",mError),args,2,t)); args[1] = decimalSep; xmlString.append(formatString(mStringsBundle.getStringEx("decimal",mError),args,2,t)); args[1] = groupSep; xmlString.append(formatString(mStringsBundle.getStringEx("group",mError),args,2,t)); } } chopIndent(); args[0] = indentOffset; args[1] = ""; xmlString.append(formatString(mStringsBundle.getStringEx("currencyEnd",mError),args,2,t)); } return; } xmlString.remove(); mError=U_ZERO_ERROR; } void GenerateXML::writeSpecial(){ if(ignoreSpecials == FALSE){ UnicodeString xmlString, tempStr; Formattable args[]={indentOffset,mStringsBundle.getStringEx("xmlns_icu",mError),"",""}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx( "special",mError),args,4,t)); indentOffset.append("\t"); UBool print = FALSE; writeBoundary(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeRuleBasedNumberFormat(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } chopIndent(); args[1]=UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx( "specialEnd",mError),args,2,t)); if(print) printString(&xmlString); } } void GenerateXML::writeRuleBasedNumberFormat(UnicodeString& xmlString){ if(ignoreSpecials == FALSE){ UnicodeString tempStr; Formattable args[] = {indentOffset,"","",""}; UBool print = FALSE; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("ruleBasedNFS",mError),args,2,t)); indentOffset.append("\t"); UnicodeString spellout = mSourceBundle.getStringEx("SpelloutRules",mError); if( mError != U_USING_DEFAULT_WARNING && U_SUCCESS(mError) && mError != U_USING_FALLBACK_WARNING){ escape(spellout); args[0] = indentOffset; args[1] = "spellout"; args[2] = spellout; args[3] = indentOffset; tempStr.append(formatString(mStringsBundle.getStringEx("ruleBasedNF",mError),args,4,t)); } mError=U_ZERO_ERROR; UnicodeString ordinal = mSourceBundle.getStringEx("OrdinalRules", mError); if( mError != U_USING_DEFAULT_WARNING && U_SUCCESS(mError) && mError != U_USING_FALLBACK_WARNING){ escape(ordinal); args[0] = indentOffset; args[1] = "ordinal"; args[2] = ordinal; args[3] = indentOffset; tempStr.append(formatString(mStringsBundle.getStringEx("ruleBasedNF",mError),args,4,t)); } mError=U_ZERO_ERROR; UnicodeString duration = mSourceBundle.getStringEx("DurationRules", mError); if( mError != U_USING_DEFAULT_WARNING && U_SUCCESS(mError) && mError != U_USING_FALLBACK_WARNING){ escape(duration); args[0] = indentOffset; args[1] = "duration"; args[2] = duration; args[3] = indentOffset; tempStr.append(formatString(mStringsBundle.getStringEx("ruleBasedNF",mError),args,4,t)); } if(tempStr.isEmpty()){ xmlString.remove(); }else{ chopIndent(); xmlString.append(tempStr); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("ruleBasedNFS",mError),args,2,t)); } mError= U_ZERO_ERROR; } } /* void GenerateXML::writeTransliteration(){ UnicodeString xmlString; const UnicodeString translit= mSourceBundle.getStringEx("TransliteratorNamePattern",mError); if(mError != U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ Formattable args[] = {indentOffset,translit}; xmlString.append(formatString(UnicodeString(TL_NAME),args,2)); printString(&xmlString); } mError=U_ZERO_ERROR; } */ void GenerateXML::writeCharBrkRules(UnicodeString& xmlString){ ResourceBundle brkRules = mSourceBundle.get("CharacterBreakRules",mError); UnicodeString t; if( mError != U_USING_DEFAULT_WARNING && mError != U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ xmlString.append(formatString(mStringsBundle.getStringEx("graphemeStart",mError),indentOffset,t)); indentOffset.append("\t"); while(brkRules.hasNext()){ UnicodeString rule =brkRules.getNextString(mError); escape(rule); xmlString.append("\n"); xmlString.append(indentOffset); xmlString.append(rule); } xmlString.append("\n\n"); chopIndent(); xmlString.append(formatString(mStringsBundle.getStringEx("graphemeEnd",mError),indentOffset,t)); return; } xmlString.remove(); mError= U_ZERO_ERROR; } void GenerateXML::writeSentBrkRules(UnicodeString& xmlString){ ResourceBundle brkRules = mSourceBundle.get("SentenceBreakRules",mError); UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("sentenceStart",mError),indentOffset,t)); if( mError != U_USING_DEFAULT_WARNING && mError != U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ indentOffset.append("\t"); while(brkRules.hasNext()){ UnicodeString rule =brkRules.getNextString(mError); escape(rule); xmlString.append("\n"); xmlString.append(indentOffset); xmlString.append(rule); } xmlString.append("\n\n"); chopIndent(); xmlString.append(formatString(mStringsBundle.getStringEx("graphemeEnd",mError),indentOffset,t)); return; } xmlString.remove(); mError= U_ZERO_ERROR; } void GenerateXML::writeLineBrkRules(UnicodeString& xmlString){ ResourceBundle brkRules = mSourceBundle.get("LineBreakRules",mError); UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("lineStart",mError),indentOffset,t)); if( mError != U_USING_DEFAULT_WARNING && mError != U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ indentOffset.append("\t"); while(brkRules.hasNext()){ UnicodeString rule =brkRules.getNextString(mError); escape(rule); xmlString.append("\n"); xmlString.append(indentOffset); xmlString.append(rule); } xmlString.append("\n\n"); chopIndent(); xmlString.append(formatString(mStringsBundle.getStringEx("lineEnd",mError),indentOffset,t)); return; } xmlString.remove(); mError= U_ZERO_ERROR; } void GenerateXML::writeBoundary(UnicodeString& xmlString){ UnicodeString tempStr; UBool print=FALSE; Formattable args[3] = { indentOffset,"",""}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("boundaries",mError),args,2,t)); indentOffset.append("\t"); writeCharBrkRules(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeSentBrkRules(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeLineBrkRules(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); chopIndent(); xmlString.append(formatString(mStringsBundle.getStringEx("boundaries",mError),args,2,t)); if(!print) xmlString.remove(); } void GenerateXML::writeCollations(){ UnicodeString tempStr,xmlString; UBool print=FALSE; Formattable args[3] = { indentOffset,""}; UnicodeString t; xmlString.append(formatString(mStringsBundle.getStringEx("collations",mError),args,2,t)); indentOffset.append("\t"); ResourceBundle dBundle = mSourceBundle.get("collations", mError); if(U_SUCCESS(mError)){ while(dBundle.hasNext()){ writeCollation(dBundle.getNext(mError), tempStr); if(tempStr.length()!=0){ xmlString.append(tempStr); print =TRUE; } tempStr.remove(); } } /*writeSentBrkRules(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); writeLineBrkRules(tempStr); if(!tempStr.isEmpty()){ xmlString.append(tempStr); print = TRUE; }*/ chopIndent(); args[1]=UnicodeString(XML_END_SLASH); args[2]=""; xmlString.append(formatString(mStringsBundle.getStringEx("collations",mError),args,3,t)); if(print) printString(&xmlString); mError =U_ZERO_ERROR; } void GenerateXML::writeBase(UnicodeString& xmlString){ if(baseCollation != NULL){ Formattable args[] = {indentOffset, "", ""}; UnicodeString temp; xmlString.append(formatString(mStringsBundle.getStringEx("baseStart", mError), args, 1, temp)); indentOffset.append("\t"); args[0] = indentOffset; args[1] = baseCollation; args[2] = (baseType==NULL) ? "standard" : baseType; xmlString.append(formatString(mStringsBundle.getStringEx("alias", mError), args, 3, temp)); chopIndent(); args[0] = indentOffset; xmlString.append(formatString(mStringsBundle.getStringEx("baseEnd", mError), args, 1, temp)); } if(U_FAILURE(mError)){ mError = U_ZERO_ERROR; xmlString.remove(); } } void GenerateXML::writeUCARules(UnicodeString& sequence,UnicodeString& xmlString){ UnicodeString rules; const char* key = "UCA"; UnicodeString t; if( mError!=U_USING_DEFAULT_WARNING && U_SUCCESS(mError) && mError!=U_USING_FALLBACK_WARNING){ Formattable args[]={indentOffset,"","","",""}; UnicodeString str = "type=\""; str.append(key); str.append("\""); args[2] = str; xmlString.append(formatString(mStringsBundle.getStringEx("collation",mError),args,3,t)); indentOffset.append("\t"); // wirte the base element writeBase(t.remove()); if(t.length() != 0){ xmlString.append(t); } rules = parseRules((UChar*)sequence.getBuffer(),sequence.length(),rules); xmlString.append(rules); sequence.releaseBuffer(); chopIndent(); args[0] = indentOffset; args[1] = "/"; args[2] =""; xmlString.append(formatString(mStringsBundle.getStringEx("collation",mError),args,3,t)); //printString(&xmlString); } mError = U_ZERO_ERROR; } void GenerateXML::writeCollation(ResourceBundle& bundle,UnicodeString& xmlString, UnicodeString* collKey){ UnicodeString version; UnicodeString overide="FALSE"; UnicodeString sequence; UnicodeString rules; const char* key = bundle.getKey(); UnicodeString t; if(stricmp(key, "default") == 0) { Formattable args[]={indentOffset,"","","",""}; sequence = bundle.getString(mError); args[0] = indentOffset; args[1] = sequence; xmlString.append(formatString(mStringsBundle.getStringEx("default",mError),args,2,t)); }else { if( mError!=U_USING_DEFAULT_WARNING && U_SUCCESS(mError) && mError!=U_USING_FALLBACK_WARNING){ Formattable args[]={indentOffset,"","","",""}; UnicodeString str = "type=\""; str.append(key); str.append("\""); args[2] = str; xmlString.append(formatString(mStringsBundle.getStringEx("collation",mError),args,3,t)); indentOffset.append("\t"); // wirte the base element writeBase(t.remove()); if(t.length() != 0){ xmlString.append(t); } while(bundle.hasNext()){ ResourceBundle dBundle1 = bundle.getNext(mError); const char* mykey=dBundle1.getKey(); if(stricmp(mykey,"Version")==0 && ignoreSpecials==FALSE){ version = bundle.getStringEx(mykey,mError); UnicodeString temp = UnicodeString("icu:version=\"").append(version); temp.append("\""); args[0] = indentOffset; args[1] = mStringsBundle.getStringEx("xmlns_icu",mError); args[2] = temp; args[3] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("special",mError),args,4,t)); }else if(stricmp(mykey,"Sequence")==0 && onlySpecials==FALSE){ sequence = bundle.getStringEx(mykey,mError); rules = parseRules((UChar*)sequence.getBuffer(),sequence.length(),rules); xmlString.append(rules); sequence.releaseBuffer(); }else if(stricmp(mykey,"Override")==0 && onlySpecials==FALSE){ overide = bundle.getStringEx(mykey,mError); } } chopIndent(); args[0] = indentOffset; args[1] = "/"; args[2] =""; xmlString.append(formatString(mStringsBundle.getStringEx("collation",mError),args,3,t)); //printString(&xmlString); } } mError = U_ZERO_ERROR; } UnicodeString& appendHex(uint32_t number, int32_t digits, UnicodeString& target) { static const UChar digitString[] = { 0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46, 0 }; /* "0123456789ABCDEF" */ switch (digits) { case 8: target += digitString[(number >> 28) & 0xF]; case 7: target += digitString[(number >> 24) & 0xF]; case 6: target += digitString[(number >> 20) & 0xF]; case 5: target += digitString[(number >> 16) & 0xF]; case 4: target += digitString[(number >> 12) & 0xF]; case 3: target += digitString[(number >> 8) & 0xF]; case 2: target += digitString[(number >> 4) & 0xF]; case 1: target += digitString[(number >> 0) & 0xF]; break; default: target += "**"; } return target; } // Replace nonprintable characters with unicode escapes UnicodeString& prettify(const UnicodeString &source,UnicodeString &target) { int32_t i; target.remove(); target += "\""; for (i = 0; i < source.length(); ) { UChar32 ch = source.char32At(i); i += UTF_CHAR_LENGTH(ch); if (ch < 0x09 || (ch > 0x0A && ch < 0x20)|| ch > 0x7E) { if (ch <= 0xFFFF) { target += "\\u"; appendHex(ch, 4, target); } else { target += "\\U"; appendHex(ch, 8, target); } } else { target += ch; } } target += "\""; return target; } #define UCOL_TOK_UNSET 0xFFFFFFFF #define UCOL_TOK_RESET 0xDEADBEEF #define UCOL_TOK_SETTING 0xFFFFFFFE #define UCOL_TOK_OVERRIDE 0xFFFFFFFD #define UCOL_TOK_DONE 0xFFFFFFFC #define UCOL_TOK_EXPANSION_MARKER 0xFFFF UBool uprv_isRuleWhiteSpace(UChar32 c) { /* "white space" in the sense of ICU rule parsers: Cf+White_Space */ return u_charType(c)==U_FORMAT_CHAR || u_hasBinaryProperty(c, UCHAR_WHITE_SPACE); } /* strength primary (1) [strength 1] strength = "primary" secondary (2) tertiary (3) quarternary (4) identical (5) alternate non-ignorable [alternate non-ignorable] alternate = "non-ignorable" shifted backwards on [backwards on] backwards = "on" off normalization on off [normalization on] normalization = "off" caseLevel on [caseLevel on] caseLevel = "off" off caseFirst upper [caseFirst off] caseFirst = "off" lower off hiraganaQ on [hiraganaQ on] hiraganaQuarternary = "on" off numeric on [numeric on] numeric = "on" off */ void GenerateXML::writeSettings(UnicodeString& src , UnicodeString& xmlString){ const UChar* saveStart = src.getBuffer(); const UChar* start = saveStart; const UChar* limit = start + src.length(); int32_t valueLen=0,settingLen =0; UBool isValue = FALSE; UnicodeString t; int32_t index = 0; UnicodeString setting, value; Formattable args[] = {indentOffset, "", "" }; while(index < src.length()){ index = getSettingAndValue(src, index, setting, value); if(setting == "suppressContractions"){ args[1] = value; xmlString.append(formatString(mStringsBundle.getStringEx("suppressContractions",mError),args,2,t)); }else if(setting =="optimize"){ args[1] = value; xmlString.append(formatString(mStringsBundle.getStringEx("optimize",mError),args,2,t)); }else{ if(setting == "strength"){ UChar val = value.charAt(0); value.remove(); switch (val){ case '1': value.append("primary"); break; case '2': value.append("secondary"); break; case '3': value.append("tertiary"); break; case '4': value.append("quaternary"); break; case '5': value.append("identical"); break; default: mError = U_ILLEGAL_ARGUMENT_ERROR; exit (mError); } }else if(setting == "alternate"){ }else if(setting == "backwards"){ if(value == "2"){ value.remove(); value.append ("on"); }else{ fprintf(stderr, "Unrecognized value for setting backwards!."); exit(-1); } }else if(setting == "normalization"){ }else if(setting == "caseLevel"){ }else if(setting == "casefirst"){ setting = "caseFirst"; }else if(setting == "hiraganaQ"){ setting = "hiraganaQuarternary"; }else if(setting == "numeric"){ }else{ fprintf(stderr,"Could not recogize setting!!"); exit(-1); } mSettings.append(setting); mSettings.append("=\""); mSettings.append(value); mSettings.append("\" "); } setting.remove(); value.remove(); } } int32_t GenerateXML::getSettingAndValue(UnicodeString& source, int32_t index, UnicodeString& setting, UnicodeString& value){ const UChar* src = source.getBuffer(); int32_t start = index; int32_t end = source.length(); int32_t open=0; UBool startVal=FALSE, initialSpace = TRUE; /* [ setting value ]*/ while(start < end){ UChar ch = src[start++]; switch(ch){ case '[': open++; if(open > 1 && startVal==TRUE){ value.append(ch); } break; case ']': if(open > 1 && startVal==TRUE){ value.append(ch); }else if(open == 1){ goto OUTER; } open--; case ' ': if(initialSpace){ break; } startVal = TRUE; break; default: initialSpace = FALSE; if(startVal == TRUE){ value.append(ch); }else{ setting.append(ch); } } } OUTER: source.releaseBuffer(); return start; } void GenerateXML::writeReset(UnicodeString& src, UnicodeString& xmlString){ const UChar* start = src.getBuffer(); const UChar* limit = start + src.length(); UChar setting[256]; UChar value[20]; UChar chars[20]; UnicodeString t; char* target; int32_t valueLen=0,settingLen =0, charsLen=0; UBool isValue = FALSE, isChars=FALSE; if(src.indexOf("top")>=0 || src.indexOf("last regular")>=0){ Formattable args[] = {indentOffset, mStringsBundle.getStringEx("lastNonIgnorable",mError)}; xmlString.append(formatString(mStringsBundle.getStringEx("reset",mError),args,2,t)); }else if(src.indexOf("first primary ignorable")>=0){ Formattable args[] = {indentOffset, mStringsBundle.getStringEx("firstPIgnorable",mError)}; xmlString.append(formatString(mStringsBundle.getStringEx("reset",mError),args,2,t)); }else if(src.indexOf("first secondary ignorable")>=0){ Formattable args[] = {indentOffset, mStringsBundle.getStringEx("firstSIgnorable",mError)}; xmlString.append(formatString(mStringsBundle.getStringEx("reset",mError),args,2,t)); }else if(src.indexOf("first tertiary ignorable")>=0){ Formattable args[] = {indentOffset, mStringsBundle.getStringEx("fristTIgnorable",mError)}; xmlString.append(formatString(mStringsBundle.getStringEx("reset",mError),args,2,t)); }else if(src.indexOf("last primary ignorable")>=0){ Formattable args[] = {indentOffset, mStringsBundle.getStringEx("lastPIgnorable",mError)}; xmlString.append(formatString(mStringsBundle.getStringEx("reset",mError),args,2,t)); }else if(src.indexOf("last secondary ignorable")>=0){ Formattable args[] = {indentOffset, mStringsBundle.getStringEx("lastSIgnorable",mError)}; xmlString.append(formatString(mStringsBundle.getStringEx("reset",mError),args,2,t)); }else if(src.indexOf("last tertiary ignorable")>=0){ Formattable args[] = {indentOffset, mStringsBundle.getStringEx("lastTIgnorable",mError)}; xmlString.append(formatString(mStringsBundle.getStringEx("reset",mError),args,2,t)); }else if(src.indexOf("[")>=0 && src.length() > 1){ while(start < limit ){ UChar ch = *start++; if(uprv_isRuleWhiteSpace(ch)){ if(settingLen>0){ isValue = TRUE; }else if(valueLen>0){ isChars = TRUE; } continue; //skip white spaces }else if(ch == 0x5b){ // skip '[' && ']' continue; }else if( ch == 0x5d ){ isValue = FALSE; isChars = TRUE; continue; } if(isValue){ value[valueLen++] = ch; }else if(isChars){ chars[charsLen++] =ch; }else{ setting[settingLen++] = ch; } } switch(value[0]){ case 0x31: target = "primary"; break; case 0x32: target = "secondary"; break; case 0x33: target = "tertiary"; break; case 0x34: target = "quaternary"; break; default: target = "unknown"; break; } Formattable args[] = {indentOffset, UnicodeString(setting,settingLen), UnicodeString(target), UnicodeString(chars,charsLen)}; xmlString.append(formatString(mStringsBundle.getStringEx("resetWithValue",mError),args,4,t)); }else{ Formattable args[] = {indentOffset, src}; xmlString.append(formatString(mStringsBundle.getStringEx("reset",mError),args,2,t)); } } UnicodeString GenerateXML::parseRules(UChar* rules, int32_t ruleLen, UnicodeString& xmlString){ Token src; src.start = rules; src.current = rules; src.prevCurrent = rules; src.end = rules+ruleLen; src.chars=(UChar*) malloc((ruleLen + 10)* U_SIZEOF_UCHAR); src.charsCapacity = ruleLen+10; UnicodeString collStr ; uint32_t prevStrength=UCOL_DEFAULT; int32_t count = 0; UBool appendedRules = FALSE; UnicodeString t; UBool startOfRules = TRUE; UBool writtenSettings = FALSE; UBool isTempStrContraction =FALSE, isCollStrContraction = FALSE; if(src.start != src.end){ for(;;){ uint32_t strength = parseRules(&src,startOfRules); UnicodeString tempStr; startOfRules = FALSE; tempStr.append(src.chars,src.charsLen); if(U_FAILURE(mError)){ fprintf(stderr,"parseRules returned NULL for strength!. Error: %s", u_errorName(mError)); exit(1); } // int32_t indexOfPipe = tempStr.indexOf((UChar)0x7c); if((prevStrength == strength) && (prevStrength == UCOL_TOK_DONE)){ if(mSettings.length()!=0 && writtenSettings == FALSE){ Formattable args[]={ indentOffset, mSettings} ; xmlString.append(formatString(mStringsBundle.getStringEx("settings",mError),args,2,t)); writtenSettings = TRUE; mSettings.truncate(0); } break; } /* verify that tempStr is a contraction */ isTempStrContraction = tempStr.countChar32()>1; if((prevStrength != strength) || isTempStrContraction==TRUE/* contraction */ || isCollStrContraction==TRUE/* contraction */ || tempStr.indexOf((UChar)UCOL_TOK_EXPANSION_MARKER) >=0 || /* expansion */ collStr.indexOf((UChar)UCOL_TOK_EXPANSION_MARKER) >=0 ||/* expansion */ tempStr.indexOf((UChar)0x7c) >=0 || /*context */ collStr.indexOf((UChar)0x7c) >=0 /*context*/){ char* singleKey = NULL; char* seqKey = NULL; // assume that settings always preceed rule strings Formattable args[] = {indentOffset,collStr,""}; if(prevStrength != UCOL_DEFAULT){ if(prevStrength == UCOL_TOK_SETTING){ writeSettings(collStr,xmlString); }else if(prevStrength==UCOL_TOK_RESET){ if(writtenSettings == FALSE && mSettings.length() > 0){ args[0] = indentOffset; args[1] = mSettings; xmlString.append(formatString(mStringsBundle.getStringEx("settings",mError),args,2,t)); writtenSettings = TRUE; mSettings.truncate(0); } if(appendedRules == FALSE){ args[0] = indentOffset; args[1] = ""; xmlString.append(formatString(mStringsBundle.getStringEx("rules",mError),args,2,t)); indentOffset.append("\t"); appendedRules = TRUE; } escape(collStr); writeReset(collStr,xmlString); }else if(prevStrength==UCOL_TOK_OVERRIDE){ UnicodeString temp("[backwards on]"); writeSettings(temp,xmlString); }else{ if(writtenSettings == FALSE && mSettings.length() > 0){ args[0] = indentOffset; args[1] = mSettings; xmlString.append(formatString(mStringsBundle.getStringEx("settings",mError),args,2,t)); writtenSettings = TRUE; mSettings.truncate(0); } if(appendedRules == FALSE){ args[0] = indentOffset; args[1] = ""; xmlString.append(formatString(mStringsBundle.getStringEx("rules",mError),args,2,t)); indentOffset.append("\t"); appendedRules = TRUE; } args[1] = collStr; switch(prevStrength){ case UCOL_IDENTICAL: singleKey = "identical"; seqKey = "identicalSeq"; break; case UCOL_PRIMARY: singleKey = "primary"; seqKey = "primarySeq"; break; case UCOL_SECONDARY: singleKey = "secondary"; seqKey = "secondarySeq"; break; case UCOL_TERTIARY: singleKey = "tertiary"; seqKey = "tertiarySeq"; break; case UCOL_QUATERNARY: singleKey = "quaternary"; seqKey = "quaternarySeq"; break; } if(count <= 1){ //xmlString.append(formatString(mStringsBundle.getStringEx(singleKey,mError),args,2,t)); writeCollation(args[1].getString(),xmlString, prevStrength, singleKey); }else{ //xmlString.append(formatString(mStringsBundle.getStringEx(seqKey,mError),args,2,t)); writeCollation(args[1].getString(),xmlString, prevStrength, seqKey); } //if(src.current== src.end){ // break; //} } //reset count = 0; collStr.remove(); } } isCollStrContraction = isTempStrContraction; isTempStrContraction = FALSE; collStr.append(tempStr); count++; prevStrength = strength; } } if(appendedRules==TRUE){ chopIndent(); Formattable args[]= {indentOffset,UnicodeString(XML_END_SLASH)}; xmlString.append(formatString(mStringsBundle.getStringEx("rules",mError),args,2,t)); } free(src.chars); return xmlString; } int32_t findUChar(const UChar* src, int32_t len, UChar c){ int32_t i=0; while(i<len){ if(src[i]==c){ return i; } i++; } return -1; } void GenerateXML::writeCollation(UnicodeString& src, UnicodeString &xmlString,uint32_t prevStrength, const char* keyName){ // strength context string extension // <<<< <context> | <string> / <extension> Formattable args[] = {"" , ""}; UnicodeString context, string, extension, temp; int32_t index = src.indexOf((UChar) 0x7C); int32_t contextMarker = (index>-1 && src.length() > 1) ? index : -1 ; if(contextMarker >=0 ){ src.extract(0, contextMarker, context); escape(context); args[1] = context; context = formatString(mStringsBundle.getStringEx("context", mError), args, 2, temp); } int32_t extensionMarker = src.indexOf((UChar) UCOL_TOK_EXPANSION_MARKER); if(extensionMarker >= 0){ src.extract(extensionMarker+1 /*skip past the extension marker*/, src.length(), extension); escape(extension); args[1] = extension; extension = formatString(mStringsBundle.getStringEx("extend",mError),args,2,temp); } if(contextMarker >=0 && extensionMarker >=0){ src.extract(contextMarker+1, extensionMarker - (contextMarker+1), string); }else if(contextMarker >=0){ src.extract(contextMarker+1, src.length()-contextMarker, string); }else if(extensionMarker >=0){ src.extract(0,extensionMarker, string); }else{ string = src; } escape(string); args[0] = ""; args[1] = string; string = formatString(mStringsBundle.getStringEx(keyName,mError),args,2,temp); temp.remove(); if(contextMarker>-1){ temp.append(context); } temp.append(string); if(extensionMarker>-1){ temp.append(extension); } if(contextMarker > -1 || extensionMarker > -1){ temp.insert(0,"<x>"); temp.append("</x>"); } temp.insert(0, indentOffset); temp.append("\n"); xmlString.append(temp); } void GenerateXML::escape(UnicodeString& str){ UnicodeString temp; UChar test[10] = {'\0'}; Formattable args[] = {indentOffset,""}; UnicodeString t; for(int i=0;i<str.length();i++){ UChar32 c = str.char32At(i); if(c >0xFFFF){ i++; } switch(c){ case '<': temp.append("<"); break; case '>': temp.append(">"); break; case '&': temp.append("&"); break; case '"': temp.append("""); break; case 0x00: case 0x01: case 0x02: case 0x03: case 0x04: case 0x05: case 0x06: case 0x07: case 0x08: case 0x09: /* case 0x0A: */ case 0x0b: case 0x0c: /* case 0x0D: */ case 0x0e: case 0x0f: case 0x10: case 0x11: case 0x12: case 0x13: case 0x14: case 0x15: case 0x16: case 0x17: case 0x18: case 0x19: case 0x1A: case 0x1b: case 0x1c: case 0x1d: case 0x1e: case 0x1f: itou(test,c,16,4); args[1] = UnicodeString(test); temp.append(formatString(mStringsBundle.getStringEx("cp",mError),args,2,t)); break; default: temp.append(c); } } str=temp; } static int32_t u_strncmpNoCase(const UChar *s1, const UChar *s2, int32_t n) { if(n > 0) { int32_t rc; for(;;) { rc = (int32_t)u_tolower(*s1) - (int32_t)u_tolower(*s2); if(rc != 0 || *s1 == 0 || --n == 0) { return rc; } ++s1; ++s2; } } return 0; } static inline void syntaxError(const UChar* rules, int32_t pos, int32_t rulesLen, UParseError* parseError) { parseError->offset = pos; parseError->line = 0 ; /* we are not using line numbers */ // for pre-context int32_t start = (pos <=U_PARSE_CONTEXT_LEN)? 0 : (pos - (U_PARSE_CONTEXT_LEN-1)); int32_t stop = pos; u_memcpy(parseError->preContext,rules+start,stop-start); //null terminate the buffer parseError->preContext[stop-start] = 0; //for post-context start = pos+1; stop = ((pos+U_PARSE_CONTEXT_LEN)<= rulesLen )? (pos+(U_PARSE_CONTEXT_LEN-1)) : u_strlen(rules); u_memcpy(parseError->postContext,rules+start,stop-start); //null terminate the buffer parseError->postContext[stop-start]= 0; UnicodeString preCon,postCon; prettify(UnicodeString(parseError->preContext),preCon); prettify(parseError->postContext,postCon); char preChar[256], postChar[256]; preCon.extract(0,preCon.length(),preChar,sizeof(preChar)); postCon.extract(0,postCon.length(),postChar,sizeof(postChar)); printf("parseRules() failed. Pre-context: %s \t post-context: %s \n",preChar, postChar); exit(-1); } #define ucol_tok_isSpecialChar(ch) \ (((((ch) <= 0x002F) && ((ch) > 0x0020)) || \ (((ch) <= 0x003F) && ((ch) >= 0x003A)) || \ /* (((ch) <= 0x0060) && ((ch) >= 0x005B)) || \ */ \ (((ch) == 0x0060) || ((ch) == 0x005c) || ((ch) == 0x005e) || ((ch) == 0x005f) ) || \ (((ch) <= 0x007E) && ((ch) >= 0x007D)) || \ (ch) == 0x007B)) void GenerateXML::growBuffer(UChar* src, int32_t len, int32_t size, int32_t requiredCapacity, UErrorCode* status){ UChar* temp =NULL; if(status ==NULL || U_FAILURE(*status)){ return; } if(requiredCapacity < len ){ *status = U_ILLEGAL_ARGUMENT_ERROR; return; } temp = (UChar*) malloc ( size * requiredCapacity); if(temp ==NULL){ *status = U_MEMORY_ALLOCATION_ERROR; return; } memmove(temp,src,len*size); free(src); src = temp; } /* * * "& a << befg << c << d << d" * ^ ^ ^ ^ * start prevCurrent current end */ uint32_t GenerateXML::parseRules(Token* src,UBool startOfRules){ /* parsing part */ UBool variableTop = FALSE; //UBool top = FALSE; UBool inChars = TRUE; UBool inQuote = FALSE; UBool wasInQuote = FALSE; UChar *optionEnd = NULL; uint8_t before = 0; UBool isEscaped = FALSE; UParseError parseError; uint32_t newExtensionLen = 0; uint32_t extensionOffset = 0; uint32_t newStrength = UCOL_TOK_UNSET; UBool isSetting = FALSE; const UChar top[] = {0x005b,0x0074,0x006f,0x0070,0x005d}; src->prevCurrent = src->current; src->charsLen = 0; while (src->current < src->end) { UChar ch = *(src->current); if (inQuote) { if (ch == 0x0027/*'\''*/) { inQuote = FALSE; }else{ if(src->charsLen >= (src->charsCapacity-1)){ src->charsCapacity*=2; growBuffer(src->chars,src->charsLen,U_SIZEOF_UCHAR, src->charsCapacity,&mError); } src->chars[src->charsLen++] =ch; } }else if(isEscaped){ isEscaped =FALSE; if (newStrength == UCOL_TOK_UNSET) { mError = U_INVALID_FORMAT_ERROR; syntaxError(src->start,(int32_t)(src->current-src->start),(int32_t)(src->end-src->start),&parseError); return NULL; // enabling rules to start with non-tokens a < b // newStrength = UCOL_TOK_RESET; } }else if(isSetting==TRUE ||!uprv_isRuleWhiteSpace(ch)) { /* Sets the strength for this entry */ switch (ch) { case 0x003D/*'='*/ : if (newStrength != UCOL_TOK_UNSET) { goto EndOfLoop; } /* if we start with strength, we'll reset to top */ if(startOfRules == TRUE) { newStrength = UCOL_TOK_RESET; u_strcpy(src->chars+src->charsLen,top); src->charsLen+=u_strlen(top); goto EndOfLoop; } newStrength = UCOL_IDENTICAL; break; case 0x002C/*','*/: if (newStrength != UCOL_TOK_UNSET) { goto EndOfLoop; } /* if we start with strength, we'll reset to top */ if(startOfRules == TRUE) { newStrength = UCOL_TOK_RESET; u_strcpy(src->chars+src->charsLen,top); src->charsLen+=u_strlen(top); goto EndOfLoop; } newStrength = UCOL_TERTIARY; break; case 0x002D: /* - add to src->chars and continue */ if(src->charsLen >= (src->charsCapacity-1)){ src->charsCapacity*=2; growBuffer(src->chars,src->charsLen,U_SIZEOF_UCHAR, src->charsCapacity,&mError); } src->chars[src->charsLen++] = ch; break; case 0x003B/*';'*/: if (newStrength != UCOL_TOK_UNSET) { goto EndOfLoop; } /* if we start with strength, we'll reset to top */ if(startOfRules == TRUE) { u_strcpy(src->chars+src->charsLen,top); src->charsLen+=u_strlen(top); newStrength = UCOL_TOK_RESET; goto EndOfLoop; } newStrength = UCOL_SECONDARY; break; case 0x003C/*'<'*/: if (newStrength != UCOL_TOK_UNSET) { goto EndOfLoop; } /* if we start with strength, we'll reset to top */ if(startOfRules == TRUE) { u_strcpy(src->chars+src->charsLen,top); src->charsLen+=u_strlen(top); newStrength = UCOL_TOK_RESET; goto EndOfLoop; } /* before this, do a scan to verify whether this is */ /* another strength */ if(*(src->current+1) == 0x003C) { src->current++; if(*(src->current+1) == 0x003C) { src->current++; /* three in a row! */ newStrength = UCOL_TERTIARY; } else { /* two in a row */ newStrength = UCOL_SECONDARY; } } else { /* just one */ newStrength = UCOL_PRIMARY; } break; case 0x0026/*'&'*/: if (newStrength != UCOL_TOK_UNSET) { /**/ goto EndOfLoop; } newStrength = UCOL_TOK_RESET; /* PatternEntry::RESET = 0 */ break; case 0x005B: if (newStrength == UCOL_TOK_UNSET){ newStrength = UCOL_TOK_SETTING; } if(!inQuote){ isSetting=TRUE; } if(src->charsLen >= (src->charsCapacity-1)){ src->charsCapacity*=2; growBuffer(src->chars,src->charsLen,U_SIZEOF_UCHAR, src->charsCapacity,&mError); } src->chars[src->charsLen++] =ch; break; case 0x005D: if(isSetting==TRUE){ isSetting = FALSE; } if(src->charsLen >= (src->charsCapacity-1)){ src->charsCapacity*=2; growBuffer(src->chars,src->charsLen,U_SIZEOF_UCHAR, src->charsCapacity,&mError); } src->chars[src->charsLen++] = ch; break; case 0x0021/*! skip java thai modifier reordering*/: break; case 0x002F/*'/'*/: wasInQuote = FALSE; /* if we were copying source characters, we want to stop now */ /* RAM: expansion just add the character back */ src->chars[src->charsLen++] = UCOL_TOK_EXPANSION_MARKER; inChars = FALSE; /* we're now processing expansion */ break; case 0x005C /* back slash for escaped chars */: isEscaped = TRUE; break; /* found a quote, we're gonna start copying */ case 0x0027/*'\''*/: if (newStrength == UCOL_TOK_UNSET) { /* quote is illegal until we have a strength */ mError = U_INVALID_FORMAT_ERROR; syntaxError(src->start,(int32_t)(src->current-src->start),(int32_t)(src->end-src->start),&parseError); return NULL; // enabling rules to start with a non-token character a < b // newStrength = UCOL_TOK_RESET; } if(inQuote==FALSE){ inQuote = TRUE; wasInQuote = TRUE; }else{ inQuote =FALSE; wasInQuote = FALSE; } // removed inChars ch = *(++(src->current)); if(ch == 0x0027) { /* copy the double quote */ //*src->extraCurrent++ = ch; if(src->charsLen >= (src->charsCapacity-1)){ src->charsCapacity*=2; growBuffer(src->chars,src->charsLen,U_SIZEOF_UCHAR, src->charsCapacity,&mError); } src->chars[src->charsLen++] = ch; if(*(src->current+1)!=0x0027){ inQuote = FALSE; } }else{ --src->current; } break; /* '@' is french only if the strength is not currently set */ /* if it is, it's just a regular character in collation rules */ case 0x0040/*'@'*/: if (newStrength == UCOL_TOK_UNSET) { //src->opts->frenchCollation = UCOL_ON; //french secondary newStrength = UCOL_TOK_OVERRIDE; break; } case 0x007C /*|*/: /* this means we have actually been reading prefix part */ // we want to store read characters to the prefix part and continue reading // the characters (proper way would be to restart reading the chars, but in // that case we would have to complicate the token hasher, which I do not // intend to play with. Instead, we will do prefixes when prefixes are due // (before adding the elements). //wasInQuote = TRUE; if(src->charsLen >= (src->charsCapacity-1)){ src->charsCapacity*=2; growBuffer(src->chars,src->charsLen,U_SIZEOF_UCHAR, src->charsCapacity,&mError); } src->chars[src->charsLen++]=ch; //ch = *(++(src->current)); break; //charsOffset = 0; //newCharsLen = 0; //break; // We want to store the whole prefix/character sequence. If we break // the '|' is going to get lost. default: if (newStrength == UCOL_TOK_UNSET) { mError = U_INVALID_FORMAT_ERROR; syntaxError(src->start,(int32_t)(src->current-src->start),(int32_t)(src->end-src->start),&parseError); return NULL; } if (ucol_tok_isSpecialChar(ch) && (inQuote == FALSE)) { mError = U_INVALID_FORMAT_ERROR; syntaxError(src->start,(int32_t)(src->current-src->start),(int32_t)(src->end-src->start),&parseError); return NULL; } if(src->charsLen >= (src->charsCapacity-1)){ src->charsCapacity*=2; growBuffer(src->chars,src->charsLen,U_SIZEOF_UCHAR, src->charsCapacity,&mError); } src->chars[src->charsLen++] =ch; if(ch == 0x0000 && src->current+1 == src->end) { break; } break; } } src->current++; } EndOfLoop: if(newStrength == UCOL_TOK_UNSET && src->current == src->end){ return UCOL_TOK_DONE; } wasInQuote = FALSE; return newStrength; } static UnicodeString suppIndent; void GenerateXML::addIndent(UnicodeString& indent){ indent.append(" "); } void GenerateXML::chopIndent(UnicodeString& indent){ indent.remove(indent.length()-4); } void GenerateXML::writeSupplementalData(){ FILE* sFile=getFileHandle(destDir,"supplementalData"); UErrorCode error = U_ZERO_ERROR; // write the xml version UnicodeString xmlString; UnicodeString temp = mStringsBundle.getStringEx("supplementalDeclaration",error); xmlString.append(temp); Formattable arguments[] = {"",""}; UnicodeString tempStr; xmlString.append(formatString(mStringsBundle.getStringEx("supplementalData",error),arguments,1,tempStr)); // TODO: change later UResourceBundle* root = ures_openDirect(path, "CurrencyData", &error); addIndent(suppIndent); arguments[0] = suppIndent; arguments[1] = ""; xmlString.append(formatString(mStringsBundle.getStringEx("currencyData",error),arguments,2,tempStr)); tempStr.remove(); writeCurrencyMeta(tempStr, root,error); if(tempStr.length()!=0){ xmlString.append(tempStr); } tempStr.remove(); writeCurrencyMap(tempStr, root, error); if(tempStr.length()!=0){ xmlString.append(tempStr); } arguments[0] = suppIndent; arguments[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("currencyData",error),arguments,2,tempStr)); chopIndent(suppIndent); arguments[0] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("supplementalData",error),arguments,1,tempStr)); printString(&xmlString, sFile); ures_close(root); } void GenerateXML::writeCurrencyMap(UnicodeString& xmlString, UResourceBundle* root, UErrorCode& error){ if(U_FAILURE(error)){ return; } UResourceBundle* curr = ures_getByKey(root, "CurrencyMap", NULL, &error); char altKey[100] = {0}; const char* preEuro = "_PREEURO"; const char* euro = "_EURO"; if(U_SUCCESS(error)){ addIndent(suppIndent); while(ures_hasNext(curr)){ UResourceBundle* element = ures_getNextResource(curr,NULL, &error); const char* country = ures_getKey(element); if(strstr(country, preEuro) != NULL || strstr(country, euro)!=NULL){ continue; } int32_t len =0; const UChar* temp = ures_getString(element,&len, &error); UnicodeString currency (temp, len); Formattable args[] = {suppIndent, country, "" }; UnicodeString tempStr; xmlString.append(formatString(mStringsBundle.getStringEx("regionStart",error),args,2,tempStr)); addIndent(suppIndent); args[0] = suppIndent; args[1] = currency; xmlString.append(formatString(mStringsBundle.getStringEx("suppCurrencyStart",mError),args,3,tempStr)); addIndent(suppIndent); strcpy(altKey, country); strcat(altKey, preEuro); len=0; temp = ures_getStringByKey(curr, altKey, &len, &error); UnicodeString altCurrency (temp, len); if(U_SUCCESS(error)){ args[0] = suppIndent; args[1] = altCurrency; xmlString.append(formatString(mStringsBundle.getStringEx("alternate",error),args,2,tempStr)); }else{ error = U_ZERO_ERROR; } chopIndent(suppIndent); args[0] = suppIndent; xmlString.append(formatString(mStringsBundle.getStringEx("suppCurrencyEnd",error),args,1,tempStr)); chopIndent(suppIndent); args[0] = suppIndent; xmlString.append(formatString(mStringsBundle.getStringEx("regionEnd",error),args,1,tempStr)); } chopIndent(suppIndent); } } void GenerateXML::writeCurrencyMeta(UnicodeString& xmlString, UResourceBundle* root, UErrorCode& error){ if(U_FAILURE(error)){ return; } UResourceBundle* curr = ures_getByKey(root, "CurrencyMeta", NULL, &error); if(U_SUCCESS(error)){ addIndent(suppIndent); Formattable args[] = {suppIndent, "", "", ""}; Formattable args1[] = {""}; UnicodeString tempStr; xmlString.append(formatString(mStringsBundle.getStringEx("fractions",error),args,2,tempStr)); addIndent(suppIndent); while(ures_hasNext(curr)){ UResourceBundle* element = ures_getNextResource(curr, NULL, &error); const char* key = ures_getKey(element); int32_t len =0; const int32_t* intVector = ures_getIntVector(element,&len, &error); ures_close(element); if(len < 2){ error = U_INTERNAL_PROGRAM_ERROR; return; } UChar buffer[100] = {0}; len = itou(buffer, intVector[0], 10, 0); args[0] = suppIndent; args[1] = key; args[2] = formatString(mStringsBundle.getStringEx("digits", error), UnicodeString(buffer, len), tempStr); if(intVector!=0){ len = itou(buffer, intVector[1], 10, 0); args[3] = formatString(mStringsBundle.getStringEx("rounding", error), UnicodeString(buffer, len), tempStr); }else{ args[3] = ""; } xmlString.append(formatString(mStringsBundle.getStringEx("info",mError),args,4,tempStr)); } chopIndent(suppIndent); args[0] = suppIndent; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString(mStringsBundle.getStringEx("fractions",mError),args,2,tempStr)); chopIndent(suppIndent); } } void GenerateXML::writePaperSize(UnicodeString& xmlString){ ResourceBundle paperSize = mSourceBundle.get("PaperSize", mError); int32_t len=0; const int32_t* sizes = paperSize.getIntVector(len,mError); UnicodeString tempStr; if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ Formattable args[] = {indentOffset, "", ""}; xmlString.append(formatString( mStringsBundle.getStringEx("paperSize", mError), args, 2, tempStr)); indentOffset.append("\t"); char c[10] = {0}; itoa(sizes[0], c, 10); args[0] = indentOffset; args[1] = UnicodeString(c); tempStr.remove(); xmlString.append(formatString( mStringsBundle.getStringEx("height", mError), args, 2, tempStr)); c[0] = 0; itoa(sizes[1], c, 10); args[1] = UnicodeString(c); tempStr.remove(); xmlString.append(formatString( mStringsBundle.getStringEx("width", mError), args, 2, tempStr)); chopIndent(); tempStr.remove(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString( mStringsBundle.getStringEx("paperSize", mError), args, 2, tempStr)); mError = U_ZERO_ERROR; return; } mError = U_ZERO_ERROR; xmlString.remove(); } void GenerateXML::writeMeasurement(UnicodeString& xmlString){ UnicodeString tempStr; Formattable args[] = { indentOffset, "", "" }; xmlString.append(formatString( mStringsBundle.getStringEx("measurement", mError), args, 2, tempStr)); UBool print = FALSE; ResourceBundle measurementSystem = mSourceBundle.get("MeasurementSystem", mError); indentOffset.append("\t"); if( mError!=U_USING_DEFAULT_WARNING && mError!=U_USING_FALLBACK_WARNING && U_SUCCESS(mError)){ args[0] = indentOffset; args[1] = (measurementSystem.getInt(mError)== 0) ? "metric" : "US"; if(U_SUCCESS(mError)){ tempStr.remove(); xmlString.append(formatString( mStringsBundle.getStringEx("measurementSystem", mError), args, 2, tempStr)); print = TRUE; } } tempStr.remove(); writePaperSize(tempStr); if(tempStr.length()>0){ xmlString.append(tempStr); print = TRUE; } tempStr.remove(); chopIndent(); args[0] = indentOffset; args[1] = UnicodeString(XML_END_SLASH); xmlString.append(formatString( mStringsBundle.getStringEx("measurement", mError), args, 2, tempStr)); if(print==FALSE){ xmlString.remove(); } mError = U_ZERO_ERROR; } /* void GenerateXML::writePosixCompData(){ char temp[50]={'\0'}; strcpy(temp,locName); strcat(temp,"_PCD"); Locale loc(temp); ResourceBundle bundle(path, loc,mError); if(mError==U_ZERO_ERROR){ UnicodeString xmlString; xmlString.append(formatString(UnicodeString(POSIX_START),indentOffset)); indentOffset.append("\t"); writeMessages(bundle,xmlString); addressFormat(bundle,xmlString); nameFormat(bundle, xmlString); identity(bundle, xmlString); telephoneFormat( bundle, xmlString); chopIndent(); xmlString.append(formatString(UnicodeString(POSIX_END), indentOffset)); printString(&xmlString); } } void GenerateXML::writeMessages(ResourceBundle& bundle, UnicodeString& xmlString){ UnicodeString temp,temp1; ResourceBundle dBundle = bundle.get("Messages",mError); if(U_SUCCESS(mError)){ temp.append(formatString(UnicodeString(MSG_START),indentOffset)); indentOffset.append("\t"); getStringRes("yesExpression",dBundle,temp1,UnicodeString(YES)); getStringRes("noExpression",dBundle,temp1, UnicodeString(NO)); if(temp1.length()!=0){ temp.append(temp1); temp.append(formatString(UnicodeString(MSG_END),indentOffset)); }else{ temp.remove(); } chopIndent(); xmlString.append(temp); } } void GenerateXML::addressFormat(ResourceBundle& bundle,UnicodeString& xmlString){ UnicodeString temp,temp1; ResourceBundle dBundle = bundle.get("AddressFormat",mError); if(U_SUCCESS(mError)){ temp.append(formatString(UnicodeString(ADDR_START),indentOffset)); indentOffset.append("\t"); getStringRes("PostalFormat",dBundle,temp1,UnicodeString(POSTAL)); if(temp1.length()!=0){ temp.append(temp1); temp.append(formatString(UnicodeString(ADDR_END),indentOffset)); }else{ temp.remove(); } chopIndent(); xmlString.append(temp); } } void GenerateXML::nameFormat(ResourceBundle& bundle,UnicodeString& xmlString){ UnicodeString temp,temp1; ResourceBundle dBundle = bundle.get("NameFormat",mError); if(U_SUCCESS(mError)){ temp.append(formatString(UnicodeString(NF_START),indentOffset)); indentOffset.append("\t"); getStringRes("NamePattern",dBundle,temp1,UnicodeString(NAME_PAT)); getStringRes("GeneralSalutaion",dBundle,temp1, UnicodeString(GEN_SALUT)); getStringRes("ShortSalutationMr",dBundle,temp1, UnicodeString(SH_SALUT_MR)); getStringRes("ShortSalutationMiss",dBundle,temp1, UnicodeString(SH_SALUT_MS)); getStringRes("ShortSalutationMrs",dBundle,temp1, UnicodeString(SH_SALUT_MI)); getStringRes("LongSalutationMr",dBundle,temp1, UnicodeString(LG_SALUT_MR)); getStringRes("LongSalutationMiss",dBundle,temp1, UnicodeString(LG_SALUT_MS)); getStringRes("LongSalutationMrs",dBundle,temp1, UnicodeString(LG_SALUT_MI)); if(temp1.length()!=0){ temp.append(temp1); temp.append(formatString(UnicodeString(NF_END),indentOffset)); }else{ temp.remove(); } chopIndent(); xmlString.append(temp); } } void GenerateXML::identity(ResourceBundle& bundle,UnicodeString& xmlString){ UnicodeString temp,temp1; ResourceBundle dBundle = bundle.get("Identification",mError); if(U_SUCCESS(mError)){ temp.append(formatString(UnicodeString(ID_START),indentOffset)); indentOffset.append("\t"); getStringRes("Title",dBundle,temp1,UnicodeString(TITLE)); getStringRes("Source",dBundle,temp1, UnicodeString(SOURCE)); getStringRes("Address",dBundle,temp1, UnicodeString(ADDR_1)); // getStringRes("Contact",dBundle,temp1, UnicodeString(CONTACT)); getStringRes("Email",dBundle,temp1, UnicodeString(EMAIL)); getStringRes("Telephone",dBundle,temp1, UnicodeString(TELEPH)); getStringRes("Fax",dBundle,temp1, UnicodeString(FAX)); getStringRes("u",dBundle,temp1, UnicodeString(LANG_1)); getStringRes("Territory",dBundle,temp1,UnicodeString(TRTRY)); getStringRes("Audience",dBundle,temp1, UnicodeString(AUDIENCE)); getStringRes("Application",dBundle,temp1, UnicodeString(APPLIC)); getStringRes("Abbreviation",dBundle,temp1, UnicodeString(ABBR_1)); getStringRes("Revision",dBundle,temp1, UnicodeString(REV)); getStringRes("Date",dBundle,temp1, UnicodeString(DATE_1)); if(temp1.length()!=0){ temp.append(temp1); temp.append(formatString(UnicodeString(ID_END),indentOffset)); }else{ temp.remove(); } chopIndent(); xmlString.append(temp); } } void GenerateXML::telephoneFormat(ResourceBundle& bundle,UnicodeString& xmlString){ UnicodeString temp,temp1; ResourceBundle dBundle = bundle.get("TelephoneFormat",mError); if(U_SUCCESS(mError)){ temp.append(formatString(UnicodeString(TF_START),indentOffset)); indentOffset.append("\t"); getStringRes("InternationalFormat",dBundle,temp1, UnicodeString(IP_TF)); getStringRes("DomesticFormat",dBundle,temp1, UnicodeString(DP_TF)); getStringRes("InternationalDialCode",dBundle,temp1, UnicodeString(IDC_TF)); getStringRes("InternationalPrefix",dBundle,temp1, UnicodeString(IPF_TF)); if(temp1.length()!=0){ temp.append(temp1); temp.append(formatString(UnicodeString(TF_END),indentOffset)); }else{ temp.remove(); } chopIndent(); xmlString.append(temp); } } void GenerateXML::writePosixAdditions(){ UnicodeString xmlString; writeMeasurement(xmlString); writeCountryPost(xmlString); writeCountryCar(xmlString); writeCountryISBNNumber(xmlString); writeLanguageLibraryUse(xmlString); writePaperSize(xmlString); if(xmlString.length()>0){ printString(&xmlString); } } void GenerateXML::writeCountryPost(UnicodeString& xmlString){ UnicodeString temp; getStringRes("CountryPost",temp,UnicodeString(POST)); if(temp.length()>0){ xmlString.append(temp); } } void GenerateXML::writeCountryCar(UnicodeString& xmlString){ UnicodeString temp; getStringRes("CountryCar",temp,UnicodeString(CNTRY_CAR)); if(temp.length()>0){ xmlString.append(temp); } } void GenerateXML::writeCountryISBNNumber(UnicodeString& xmlString){ UnicodeString temp; getStringRes("CountryISBN",temp,UnicodeString(ISBN_NUM)); if(temp.length()>0){ xmlString.append(temp); } } void GenerateXML::writeLanguageLibraryUse(UnicodeString& xmlString){ UnicodeString temp; getStringRes("LanguageLibUse",temp,UnicodeString(LANG_LIB)); if(temp.length()>0){ xmlString.append(temp); } } void GenerateXML::getStringRes(const char *key,ResourceBundle& bundle,UnicodeString& xmlString,UnicodeString pattern){ ResourceBundle myBundle = mSourceBundle; mSourceBundle = bundle; getStringRes(key,xmlString,pattern); mSourceBundle = myBundle; } void GenerateXML::getStringRes(const char* key,UnicodeString& xmlString,UnicodeString pattern){ UnicodeString temp=mSourceBundle.getStringEx(key,mError); Formattable args[]={indentOffset,""}; if(!U_FAILURE(mError)){ args[1] = temp; xmlString.append(formatString(pattern,args,2)); } mError = U_ZERO_ERROR; } */
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120.03 KB
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