/* ******************************************************************************* * * Copyright (C) 2000, International Business Machines * Corporation and others. All Rights Reserved. * ******************************************************************************* * * File wrtjava.c * * Modification History: * * Date Name Description * 01/11/02 Ram Creation. ******************************************************************************* */ #include #include "reslist.h" #include "unewdata.h" #include "unicode/ures.h" #include "errmsg.h" #include "filestrm.h" #include "cstring.h" #include "unicode/ucnv.h" #include "genrb.h" #include "rle.h" #include "ucol_tok.h" #include "uhash.h" void res_write_java(struct SResource *res,UErrorCode *status); static const char copyRight[] = "/* \n" " *******************************************************************************\n" " *\n" " * Copyright (C) International Business Machines\n" " * Corporation and others. All Rights Reserved.\n" " *\n" " *******************************************************************************\n" " * $Source: /xsrl/Nsvn/icu/icu/source/tools/genrb/wrtjava.c,v $ \n" " * $Date: 2002/04/30 19:07:18 $ \n" " * $Revision: 1.11 $ \n" " *******************************************************************************\n" " */\n\n"; static const char warningMsg[] = "/*********************************************************************\n" "######################################################################\n" "\n" " WARNING: This file is generated by genrb Version " GENRB_VERSION ".\n" " If you edit this file, please make sure that, the source\n" " of this file (XXXX.txt in LocaleElements_XXXX.java)\n" " is also edited.\n" "######################################################################\n" " *********************************************************************\n" " */\n\n"; static const char* openBrace="{\n"; static const char* closeBrace="}\n"; static const char* closeClass=" };\n" "}\n"; static const char* javaClass = "package com.ibm.icu.impl.data;\n\n" "import java.util.ListResourceBundle;\n" "import com.ibm.icu.impl.ICUListResourceBundle;\n\n" "public class "; static const char* javaClass1= " extends ICUListResourceBundle {\n\n" " /**\n" " * Overrides ListResourceBundle \n" " */\n" " public final Object[][] getContents() { \n" " return contents;\n" " }\n" " private static Object[][] contents = {\n"; static const char* javaClassICU= " extends ICUListResourceBundle {\n\n" " public %s () {\n" " contents = new Object[][] { \n"; static int tabCount = 3; static FileStream* out=NULL; static struct SRBRoot* srBundle ; static const char* outDir = NULL; static void write_tabs(FileStream* os){ int i=0; for(;i<=tabCount;i++){ T_FileStream_write(os," ",4); } } static const char* enc =""; static UConverter* conv = NULL; #define MAX_DIGITS 10 static int32_t itostr(char * buffer, int32_t i, uint32_t radix, int32_t pad) { int32_t length = 0; int32_t num = 0; int32_t save = i; int digit; int32_t j; char temp; /* if i is negative make it positive */ if(i<0){ i=-i; } do{ digit = (int)(i % radix); buffer[length++]=(char)(digit<=9?(0x0030+digit):(0x0030+digit+7)); i=i/radix; } while(i); while (length < pad){ buffer[length++] = 0x0030;/*zero padding */ } /* if i is negative add the negative sign */ if(save < 0){ buffer[length++]='-'; } /* null terminate the buffer */ if(length=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; } static int32_t uCharsToChars( char* target,int32_t targetLen, UChar* source, int32_t sourceLen,UErrorCode* status){ int i=0, j=0; char str[30]={'\0'}; while(i=0x20 && source[i]<0x7F/*ASCII*/){ if(j= source){ if(*tSourceEnd==find){ return (uint32_t)(tSourceEnd-source); } tSourceEnd--; } return (uint32_t)(tSourceEnd-source); } static void str_write_java( uint16_t* src, int32_t srcLen, UErrorCode *status){ uint32_t length = srcLen*8; uint32_t retVal = 0; char* buf = (char*) malloc(sizeof(char)*length); memset(buf,0,length); retVal = uCharsToChars(buf,length,src,srcLen,status); write_tabs(out); if(U_FAILURE(*status)){ return; } if(retVal+(tabCount*4) > 70 ){ uint32_t len = 0; char* current = buf; uint32_t add; uint32_t index; while(len < retVal){ index =0; add = 70-(tabCount*4)-5/* for ", +\n */; current = buf +len; index = strrch(current,add,'\\'); if(current[index+1]=='u'){ if((add-index)<6){ add+= (6-(add-index)); } }else{ if(current[index-1]!='\\'){ if((add-index)<2){ add+= (2-(add-index)); } } } T_FileStream_write(out,"\"",1); if(len+addu.fString.fChars,res->u.fString.fLength,status); if(uprv_strcmp(srBundle->fKeys+res->fKey,"Rule")==0){ UChar* buf = (UChar*) uprv_malloc(sizeof(UChar)*res->u.fString.fLength); uprv_memcpy(buf,res->u.fString.fChars,res->u.fString.fLength); uprv_free(buf); } } static void array_write_java( struct SResource *res, UErrorCode *status) { uint32_t i = 0; const char* arr ="new String[] { \n"; struct SResource *current = NULL; struct SResource *first =NULL; UBool decrementTabs = FALSE; UBool allStrings = TRUE; if (U_FAILURE(*status)) { return; } if (res->u.fArray.fCount > 0) { current = res->u.fArray.fFirst; i = 0; while(current != NULL){ if(current->fType!=RES_STRING){ allStrings = FALSE; break; } current= current->fNext; } current = res->u.fArray.fFirst; if(allStrings==FALSE){ const char* object = "new Object[]{\n"; write_tabs(out); T_FileStream_write(out, object, (int32_t)uprv_strlen(object)); tabCount++; decrementTabs = TRUE; }else{ write_tabs(out); T_FileStream_write(out, arr, (int32_t)uprv_strlen(arr)); tabCount++; } first=current; while (current != NULL) { /*if(current->fType==RES_STRING){ write_tabs(out); }*/ res_write_java(current, status); if(U_FAILURE(*status)){ return; } i++; current = current->fNext; } T_FileStream_write(out,"\n",1); tabCount--; write_tabs(out); T_FileStream_write(out,"},\n",3); } else { /* array is empty */ } } static void intvector_write_java( struct SResource *res, UErrorCode *status) { uint32_t i = 0; const char* intArr = "new Integer[] {\n"; const char* intC = "new Integer("; const char* stringArr = "new String[]{\n"; char buf[100]; int len =0; buf[0]=0; write_tabs(out); if(uprv_strcmp(srBundle->fKeys+res->fKey,"DateTimeElements")==0){ T_FileStream_write(out, stringArr, (int32_t)uprv_strlen(stringArr)); tabCount++; for(i = 0; iu.fIntVector.fCount; i++) { write_tabs(out); len=itostr(buf,res->u.fIntVector.fArray[i],10,0); T_FileStream_write(out,"\"",1); T_FileStream_write(out,buf,len); T_FileStream_write(out,"\",",2); T_FileStream_write(out,"\n",1); } }else{ T_FileStream_write(out, intArr, (int32_t)uprv_strlen(intArr)); tabCount++; for(i = 0; iu.fIntVector.fCount; i++) { write_tabs(out); T_FileStream_write(out, intC, (int32_t)uprv_strlen(intC)); len=itostr(buf,res->u.fIntVector.fArray[i],10,0); T_FileStream_write(out,buf,len); T_FileStream_write(out,"),",2); T_FileStream_write(out,"\n",1); } } tabCount--; write_tabs(out); T_FileStream_write(out,"},\n",3); } static void int_write_java(struct SResource *res,UErrorCode *status) { const char* intC = "new Integer("; char buf[100]; int len =0; buf[0]=0; /* write the binary data */ write_tabs(out); T_FileStream_write(out, intC, (int32_t)uprv_strlen(intC)); len=itostr(buf, res->u.fIntValue.fValue, 10, 0); T_FileStream_write(out,buf,len); T_FileStream_write(out,"),\n",3 ); } static void bin_write_java( struct SResource *res, UErrorCode *status) { const char* arr ="new Object[][]{\n"; const char* type = "COMPRESSED_BINARY, "; const char* ext; int32_t srcLen=res->u.fBinaryValue.fLength; if(srcLen>0 ){ uint16_t* target=NULL; uint16_t* saveTarget = NULL; int32_t tgtLen = 0; if(uprv_strcmp(srBundle->fKeys+res->fKey,"%%CollationBin")==0 || uprv_strcmp(srBundle->fKeys+res->fKey,"BreakDictionaryData")==0){ char fileName[1024] ={0}; char fn[1024] = {0}; FileStream* datFile = NULL; if(uprv_strcmp(srBundle->fKeys+res->fKey,"BreakDictionaryData")==0){ uprv_strcat(fileName,"BreakDictionaryData"); ext = ".ucs"; }else{ uprv_strcat(fileName,"CollationElements"); ext=".res"; } if(uprv_strcmp(srBundle->fLocale,"root")!=0){ uprv_strcat(fileName,"_"); uprv_strcat(fileName,srBundle->fLocale); } uprv_strcat(fileName,ext); uprv_strcat(fn,outDir); if(outDir[uprv_strlen(outDir)-1]!=U_FILE_SEP_CHAR){ uprv_strcat(fn,U_FILE_SEP_STRING); } uprv_strcat(fn,fileName); type = "RESOURCE_BINARY,"; write_tabs(out); T_FileStream_write(out, arr, (int32_t)uprv_strlen(arr)); tabCount++; write_tabs(out); T_FileStream_write(out, openBrace, (int32_t)uprv_strlen(openBrace)); tabCount++; write_tabs(out); T_FileStream_write(out, type, (int32_t)uprv_strlen(type)); T_FileStream_write(out, "\"", 1); T_FileStream_write(out, fileName, (int32_t)uprv_strlen(fileName)); T_FileStream_write(out, "\"\n", 2); tabCount--; write_tabs(out); T_FileStream_write(out, "},\n", 3); tabCount--; write_tabs(out); T_FileStream_write(out, "},\n", 3); datFile=T_FileStream_open(fn,"w"); T_FileStream_write(datFile, res->u.fBinaryValue.fData, res->u.fBinaryValue.fLength); T_FileStream_close(datFile); }else{ if(uprv_strcmp(srBundle->fKeys+res->fKey, "BreakDictionaryData")==0){ srcLen = res->u.fBinaryValue.fLength/2; target = (uint16_t*)malloc(sizeof(uint16_t) * srcLen); if(target){ saveTarget = target; type = "COMPRESSED_STRING, "; tgtLen = usArrayToRLEString((uint16_t*)res->u.fBinaryValue.fData, srcLen,target, srcLen, status); if(U_FAILURE(*status)){ printf("Could not encode got error : %s \n", u_errorName(*status)); return; } #if DEBUG { /***************** Test Roundtripping *********************/ int32_t myTargetLen = rleStringToUCharArray(target,tgtLen,NULL,0,status); uint16_t* myTarget = (uint16_t*) malloc(sizeof(uint16_t) * myTargetLen); int i=0; int32_t retVal=0; uint16_t* saveSrc = (uint16_t*)res->u.fBinaryValue.fData; *status = U_ZERO_ERROR; retVal=rleStringToUCharArray(target,tgtLen,myTarget,myTargetLen,status); if(U_SUCCESS(*status)){ for(i=0; i< srcLen;i++){ if(saveSrc[i]!= myTarget[i]){ printf("the encoded string cannot be decoded Expected : 0x%04X Got : %: 0x%04X at %i\n",res->u.fBinaryValue.fData[i],myTarget[i], i); } } }else{ printf("Could not decode got error : %s \n", u_errorName(*status)); } free(myTarget); } #endif }else{ *status= U_MEMORY_ALLOCATION_ERROR; return; } }else{ srcLen = res->u.fBinaryValue.fLength; target = (uint16_t*)malloc(sizeof(uint16_t) * srcLen); saveTarget = target; if(target){ tgtLen = byteArrayToRLEString(res->u.fBinaryValue.fData, srcLen,target, srcLen,status); if(U_FAILURE(*status)){ printf("Could not encode got error : %s \n", u_errorName(*status)); return; } #if DEBUG /***************** Test Roundtripping *********************/ { int32_t myTargetLen = rleStringToByteArray(target,tgtLen,NULL,0,status); uint8_t* myTarget = (uint8_t*) malloc(sizeof(uint8_t) * myTargetLen); int i=0; int32_t retVal=0; *status = U_ZERO_ERROR; retVal=rleStringToByteArray(target,tgtLen,myTarget,myTargetLen,status); if(U_SUCCESS(*status)){ for(i=0; i< srcLen;i++){ if(res->u.fBinaryValue.fData[i]!= myTarget[i]){ printf("the encoded string cannot be decoded Expected : 0x%02X Got : %: 0x%02X at %i\n",res->u.fBinaryValue.fData[i],myTarget[i], i); } } }else{ printf("Could not decode got error : %s \n", u_errorName(*status)); } free(myTarget); } #endif }else{ *status = U_MEMORY_ALLOCATION_ERROR; return; } } write_tabs(out); T_FileStream_write(out, arr, (int32_t)uprv_strlen(arr)); tabCount++; write_tabs(out); T_FileStream_write(out, openBrace, (int32_t)uprv_strlen(openBrace)); tabCount++; write_tabs(out); T_FileStream_write(out, type, (int32_t)uprv_strlen(type)); str_write_java(target, tgtLen, status); tabCount--; write_tabs(out); T_FileStream_write(out, "},\n", 3); tabCount--; write_tabs(out); T_FileStream_write(out, "},\n", 3); free(target); } } /* uprv_strcpy(buffer,"(byte) 0x"); if(res->u.fBinaryValue.fLength>0 ){ write_tabs(out); T_FileStream_write(out,byte,uprv_strlen(byte)); tabCount++; write_tabs(out); while(iu.fBinaryValue.fLength){ uint8_t data= res->u.fBinaryValue.fData[i]; buffer[9] =0; len=itostr(&buffer[9],data,16,2); T_FileStream_write(out,buffer,len+9); T_FileStream_write(out,", ",2); if(count==10){ count=0; T_FileStream_write(out,"\n",1); write_tabs(out); } count++; i++; } T_FileStream_write(out,"\n",1); tabCount--; write_tabs(out); T_FileStream_write(out,"},\n",3); }*/ } static UBool start = TRUE; static void table_write_java(struct SResource *res, UErrorCode *status) { uint32_t i = 0; UBool allStrings =TRUE; struct SResource *current = NULL; struct SResource *save = NULL; const char* obj = "new Object[][]{\n"; if (U_FAILURE(*status)) { return ; } if (res->u.fTable.fCount > 0) { if(start==FALSE){ write_tabs(out); T_FileStream_write(out, obj, (int32_t)uprv_strlen(obj)); tabCount++; } start = FALSE; save = current = res->u.fTable.fFirst; i = 0; while (current != NULL) { assert(i < res->u.fTable.fCount); write_tabs(out); T_FileStream_write(out, "{\n", 2); tabCount++; allStrings=FALSE; write_tabs(out); T_FileStream_write(out, "\"", 1); T_FileStream_write(out, srBundle->fKeys+current->fKey, (int32_t)uprv_strlen(srBundle->fKeys+current->fKey)); T_FileStream_write(out, "\",\n", 2); T_FileStream_write(out, "\n", 1); res_write_java(current, status); if(U_FAILURE(*status)){ return; } i++; current = current->fNext; tabCount--; write_tabs(out); T_FileStream_write(out, "},\n", 3); } if(tabCount>4){ tabCount--; write_tabs(out); T_FileStream_write(out, "},\n", 3); } } else { /* table is empty */ } } void res_write_java(struct SResource *res,UErrorCode *status) { if (U_FAILURE(*status)) { return ; } if (res != NULL) { switch (res->fType) { case RES_STRING: string_write_java (res, status); return; case RES_INT_VECTOR: intvector_write_java (res, status); return; case RES_BINARY: bin_write_java (res, status); return; case RES_INT: int_write_java (res, status); return; case RES_ARRAY: array_write_java (res, status); return; case RES_TABLE: table_write_java (res, status); return; default: break; } } *status = U_INTERNAL_PROGRAM_ERROR; } void bundle_write_java(struct SRBRoot *bundle, const char *outputDir,const char* outputEnc, char *writtenFilename, int writtenFilenameLen, UErrorCode *status) { char fileName[256] = {'\0'}; char className[256]={'\0'}; char constructor[1000] = { 0 }; UBool j1 =FALSE; outDir = outputDir; uprv_strcpy(className, "LocaleElements"); srBundle = bundle; if(uprv_strcmp(srBundle->fLocale,"root")!=0){ uprv_strcat(className,"_"); uprv_strcat(className,srBundle->fLocale); } if(outputDir){ uprv_strcpy(fileName, outputDir); if(outputDir[uprv_strlen(outputDir)-1] !=U_FILE_SEP_CHAR){ uprv_strcat(fileName,U_FILE_SEP_STRING); } uprv_strcat(fileName,className); uprv_strcat(fileName,".java"); }else{ uprv_strcat(fileName,className); uprv_strcat(fileName,".java"); } if (writtenFilename) { uprv_strncpy(writtenFilename, fileName, writtenFilenameLen); } if (U_FAILURE(*status)) { return; } out= T_FileStream_open(fileName,"w"); if(out==NULL){ *status = U_FILE_ACCESS_ERROR; return; } if(getIncludeCopyright()){ T_FileStream_write(out, copyRight, (int32_t)uprv_strlen(copyRight)); T_FileStream_write(out, warningMsg, (int32_t)uprv_strlen(warningMsg)); } T_FileStream_write(out, javaClass, (int32_t)uprv_strlen(javaClass)); T_FileStream_write(out, className, (int32_t)uprv_strlen(className)); if(j1){ T_FileStream_write(out, javaClass1, (int32_t)uprv_strlen(javaClass1)); }else{ sprintf(constructor,javaClassICU,className); T_FileStream_write(out, constructor, (int32_t)uprv_strlen(constructor)); } if(outputEnc && *outputEnc!='\0'){ /* store the output encoding */ enc = outputEnc; conv=ucnv_open(enc,status); if(U_FAILURE(*status)){ return; } } res_write_java(bundle->fRoot, status); if(j1){ T_FileStream_write(out, closeClass, (int32_t)uprv_strlen(closeClass)); }else{ tabCount--; write_tabs(out); T_FileStream_write(out,"};\n",3); tabCount--; write_tabs(out); T_FileStream_write(out, closeBrace, (int32_t)uprv_strlen(closeBrace)); T_FileStream_write(out, closeBrace, (int32_t)uprv_strlen(closeBrace)); } T_FileStream_close(out); ucnv_close(conv); }