/* ******************************************************************************* * * Copyright (C) 1999-2012, International Business Machines * Corporation and others. All Rights Reserved. * ******************************************************************************* * file name: gencnval.c * encoding: US-ASCII * tab size: 8 (not used) * indentation:4 * * created on: 1999nov05 * created by: Markus W. Scherer * * This program reads convrtrs.txt and writes a memory-mappable * converter name alias table to cnvalias.dat . * * This program currently writes version 2.1 of the data format. See * ucnv_io.c for more details on the format. Note that version 2.1 * is written in such a way that a 2.0 reader will be able to use it, * and a 2.1 reader will be able to read 2.0. */ #include "unicode/utypes.h" #include "unicode/putil.h" #include "unicode/ucnv.h" /* ucnv_compareNames() */ #include "ucnv_io.h" #include "cmemory.h" #include "cstring.h" #include "uinvchar.h" #include "filestrm.h" #include "unicode/uclean.h" #include "unewdata.h" #include "uoptions.h" #include <stdio.h> #include <stdlib.h> #include <ctype.h> /* TODO: Need to check alias name length is less than UCNV_MAX_CONVERTER_NAME_LENGTH */ /* STRING_STORE_SIZE + TAG_STORE_SIZE <= ((2^16 - 1) * 2) That is the maximum size for the string stores combined because the strings are index at 16-bit boundries by a 16-bit index, and there is only one section for the strings. */ #define STRING_STORE_SIZE 0x1FBFE /* 130046 */ #define TAG_STORE_SIZE 0x400 /* 1024 */ /* The combined tag and converter count can affect the number of lists created. The size of all lists must be less than (2^17 - 1) because the lists are indexed as a 16-bit array with a 16-bit index. */ #define MAX_TAG_COUNT 0x3F /* 63 */ #define MAX_CONV_COUNT UCNV_CONVERTER_INDEX_MASK #define MAX_ALIAS_COUNT 0xFFFF /* 65535 */ /* The maximum number of aliases that a standard tag/converter combination can have. At this moment 6/18/2002, IANA has 12 names for ASCII. Don't go below 15 for this value. I don't recommend more than 31 for this value. */ #define MAX_TC_ALIAS_COUNT 0x1F /* 31 */ #define MAX_LINE_SIZE 0x7FFF /* 32767 */ #define MAX_LIST_SIZE 0xFFFF /* 65535 */ #define DATA_NAME "cnvalias" #define DATA_TYPE "icu" /* ICU alias table */ #define ALL_TAG_STR "ALL" #define ALL_TAG_NUM 1 #define EMPTY_TAG_NUM 0 /* UDataInfo cf. udata.h */ static const UDataInfo dataInfo={ sizeof(UDataInfo), 0, U_IS_BIG_ENDIAN, U_CHARSET_FAMILY, sizeof(UChar), 0, {0x43, 0x76, 0x41, 0x6c}, /* dataFormat="CvAl" */ {3, 0, 1, 0}, /* formatVersion */ {1, 4, 2, 0} /* dataVersion */ }; typedef struct { char *store; uint32_t top; uint32_t max; } StringBlock; static char stringStore[STRING_STORE_SIZE]; static StringBlock stringBlock = { stringStore, 0, STRING_STORE_SIZE }; typedef struct { uint16_t aliasCount; uint16_t *aliases; /* Index into stringStore */ } AliasList; typedef struct { uint16_t converter; /* Index into stringStore */ uint16_t totalAliasCount; /* Total aliases in this column */ } Converter; static Converter converters[MAX_CONV_COUNT]; static uint16_t converterCount=0; static char tagStore[TAG_STORE_SIZE]; static StringBlock tagBlock = { tagStore, 0, TAG_STORE_SIZE }; typedef struct { uint16_t tag; /* Index into tagStore */ uint16_t totalAliasCount; /* Total aliases in this row */ AliasList aliasList[MAX_CONV_COUNT]; } Tag; /* Think of this as a 3D array. It's tagCount by converterCount by aliasCount */ static Tag tags[MAX_TAG_COUNT]; static uint16_t tagCount = 0; /* Used for storing all aliases */ static uint16_t knownAliases[MAX_ALIAS_COUNT]; static uint16_t knownAliasesCount = 0; /*static uint16_t duplicateKnownAliasesCount = 0;*/ /* Used for storing the lists section that point to aliases */ static uint16_t aliasLists[MAX_LIST_SIZE]; static uint16_t aliasListsSize = 0; /* Were the standard tags declared before the aliases. */ static UBool standardTagsUsed = FALSE; static UBool verbose = FALSE; static int lineNum = 1; static UConverterAliasOptions tableOptions = { UCNV_IO_STD_NORMALIZED, 1 /* containsCnvOptionInfo */ }; /** * path to convrtrs.txt */ const char *path; /* prototypes --------------------------------------------------------------- */ static void parseLine(const char *line); static void parseFile(FileStream *in); static int32_t chomp(char *line); static void addOfficialTaggedStandards(char *line, int32_t lineLen); static uint16_t addAlias(const char *alias, uint16_t standard, uint16_t converter, UBool defaultName); static uint16_t addConverter(const char *converter); static char * allocString(StringBlock *block, const char *s, int32_t length); static uint16_t addToKnownAliases(const char *alias); static int compareAliases(const void *alias1, const void *alias2); static uint16_t getTagNumber(const char *tag, uint16_t tagLen); /*static void addTaggedAlias(uint16_t tag, const char *alias, uint16_t converter);*/ static void writeAliasTable(UNewDataMemory *out); /* -------------------------------------------------------------------------- */ /* Presumes that you used allocString() */ #define GET_ALIAS_STR(index) (stringStore + ((size_t)(index) << 1)) #define GET_TAG_STR(index) (tagStore + ((size_t)(index) << 1)) /* Presumes that you used allocString() */ #define GET_ALIAS_NUM(str) ((uint16_t)((str - stringStore) >> 1)) #define GET_TAG_NUM(str) ((uint16_t)((str - tagStore) >> 1)) enum { HELP1, HELP2, VERBOSE, COPYRIGHT, DESTDIR, SOURCEDIR }; static UOption options[]={ UOPTION_HELP_H, UOPTION_HELP_QUESTION_MARK, UOPTION_VERBOSE, UOPTION_COPYRIGHT, UOPTION_DESTDIR, UOPTION_SOURCEDIR }; extern int main(int argc, char* argv[]) { int i, n; char pathBuf[512]; FileStream *in; UNewDataMemory *out; UErrorCode errorCode=U_ZERO_ERROR; U_MAIN_INIT_ARGS(argc, argv); /* preset then read command line options */ options[DESTDIR].value=options[SOURCEDIR].value=u_getDataDirectory(); argc=u_parseArgs(argc, argv, sizeof(options)/sizeof(options[0]), options); /* error handling, printing usage message */ if(argc<0) { fprintf(stderr, "error in command line argument \"%s\"\n", argv[-argc]); } if(argc<0 || options[HELP1].doesOccur || options[HELP2].doesOccur) { fprintf(stderr, "usage: %s [-options] [convrtrs.txt]\n" "\tread convrtrs.txt and create " U_ICUDATA_NAME "_" DATA_NAME "." DATA_TYPE "\n" "options:\n" "\t-h or -? or --help this usage text\n" "\t-v or --verbose prints out extra information about the alias table\n" "\t-c or --copyright include a copyright notice\n" "\t-d or --destdir destination directory, followed by the path\n" "\t-s or --sourcedir source directory, followed by the path\n", argv[0]); return argc<0 ? U_ILLEGAL_ARGUMENT_ERROR : U_ZERO_ERROR; } if(options[VERBOSE].doesOccur) { verbose = TRUE; } if(argc>=2) { path=argv[1]; } else { path=options[SOURCEDIR].value; if(path!=NULL && *path!=0) { char *end; uprv_strcpy(pathBuf, path); end = uprv_strchr(pathBuf, 0); if(*(end-1)!=U_FILE_SEP_CHAR) { *(end++)=U_FILE_SEP_CHAR; } uprv_strcpy(end, "convrtrs.txt"); path=pathBuf; } else { path = "convrtrs.txt"; } } uprv_memset(stringStore, 0, sizeof(stringStore)); uprv_memset(tagStore, 0, sizeof(tagStore)); uprv_memset(converters, 0, sizeof(converters)); uprv_memset(tags, 0, sizeof(tags)); uprv_memset(aliasLists, 0, sizeof(aliasLists)); uprv_memset(knownAliases, 0, sizeof(aliasLists)); in=T_FileStream_open(path, "r"); if(in==NULL) { fprintf(stderr, "gencnval: unable to open input file %s\n", path); exit(U_FILE_ACCESS_ERROR); } parseFile(in); T_FileStream_close(in); /* create the output file */ out=udata_create(options[DESTDIR].value, DATA_TYPE, DATA_NAME, &dataInfo, options[COPYRIGHT].doesOccur ? U_COPYRIGHT_STRING : NULL, &errorCode); if(U_FAILURE(errorCode)) { fprintf(stderr, "gencnval: unable to open output file - error %s\n", u_errorName(errorCode)); exit(errorCode); } /* write the table of aliases based on a tag/converter name combination */ writeAliasTable(out); /* finish */ udata_finish(out, &errorCode); if(U_FAILURE(errorCode)) { fprintf(stderr, "gencnval: error finishing output file - %s\n", u_errorName(errorCode)); exit(errorCode); } /* clean up tags */ for (i = 0; i < MAX_TAG_COUNT; i++) { for (n = 0; n < MAX_CONV_COUNT; n++) { if (tags[i].aliasList[n].aliases!=NULL) { uprv_free(tags[i].aliasList[n].aliases); } } } return 0; } static void parseFile(FileStream *in) { char line[MAX_LINE_SIZE]; char lastLine[MAX_LINE_SIZE]; int32_t lineSize = 0; int32_t lastLineSize = 0; UBool validParse = TRUE; lineNum = 0; /* Add the empty tag, which is for untagged aliases */ getTagNumber("", 0); getTagNumber(ALL_TAG_STR, 3); allocString(&stringBlock, "", 0); /* read the list of aliases */ while (validParse) { validParse = FALSE; /* Read non-empty lines that don't start with a space character. */ while (T_FileStream_readLine(in, lastLine, MAX_LINE_SIZE) != NULL) { lastLineSize = chomp(lastLine); if (lineSize == 0 || (lastLineSize > 0 && isspace((int)*lastLine))) { uprv_strcpy(line + lineSize, lastLine); lineSize += lastLineSize; } else if (lineSize > 0) { validParse = TRUE; break; } lineNum++; } if (validParse || lineSize > 0) { if (isspace((int)*line)) { fprintf(stderr, "%s:%d: error: cannot start an alias with a space\n", path, lineNum-1); exit(U_PARSE_ERROR); } else if (line[0] == '{') { if (!standardTagsUsed && line[lineSize - 1] != '}') { fprintf(stderr, "%s:%d: error: alias needs to start with a converter name\n", path, lineNum); exit(U_PARSE_ERROR); } addOfficialTaggedStandards(line, lineSize); standardTagsUsed = TRUE; } else { if (standardTagsUsed) { parseLine(line); } else { fprintf(stderr, "%s:%d: error: alias table needs to start a list of standard tags\n", path, lineNum); exit(U_PARSE_ERROR); } } /* Was the last line consumed */ if (lastLineSize > 0) { uprv_strcpy(line, lastLine); lineSize = lastLineSize; } else { lineSize = 0; } } lineNum++; } } /* This works almost like the Perl chomp. It removes the newlines, comments and trailing whitespace (not preceding whitespace). */ static int32_t chomp(char *line) { char *s = line; char *lastNonSpace = line; while(*s!=0) { /* truncate at a newline or a comment */ if(*s == '\r' || *s == '\n' || *s == '#') { *s = 0; break; } if (!isspace((int)*s)) { lastNonSpace = s; } ++s; } if (lastNonSpace++ > line) { *lastNonSpace = 0; s = lastNonSpace; } return (int32_t)(s - line); } static void parseLine(const char *line) { uint16_t pos=0, start, limit, length, cnv; char *converter, *alias; /* skip leading white space */ /* There is no whitespace at the beginning anymore */ /* while(line[pos]!=0 && isspace(line[pos])) { ++pos; } */ /* is there nothing on this line? */ if(line[pos]==0) { return; } /* get the converter name */ start=pos; while(line[pos]!=0 && !isspace((int)line[pos])) { ++pos; } limit=pos; /* store the converter name */ length=(uint16_t)(limit-start); converter=allocString(&stringBlock, line+start, length); /* add the converter to the converter table */ cnv=addConverter(converter); /* The name itself may be tagged, so let's added it to the aliases list properly */ pos = start; /* get all the real aliases */ for(;;) { /* skip white space */ while(line[pos]!=0 && isspace((int)line[pos])) { ++pos; } /* is there no more alias name on this line? */ if(line[pos]==0) { break; } /* get an alias name */ start=pos; while(line[pos]!=0 && line[pos]!='{' && !isspace((int)line[pos])) { ++pos; } limit=pos; /* store the alias name */ length=(uint16_t)(limit-start); if (start == 0) { /* add the converter as its own alias to the alias table */ alias = converter; addAlias(alias, ALL_TAG_NUM, cnv, TRUE); } else { alias=allocString(&stringBlock, line+start, length); addAlias(alias, ALL_TAG_NUM, cnv, FALSE); } addToKnownAliases(alias); /* add the alias/converter pair to the alias table */ /* addAlias(alias, 0, cnv, FALSE);*/ /* skip whitespace */ while (line[pos] && isspace((int)line[pos])) { ++pos; } /* handle tags if they are present */ if (line[pos] == '{') { ++pos; do { start = pos; while (line[pos] && line[pos] != '}' && !isspace((int)line[pos])) { ++pos; } limit = pos; if (start != limit) { /* add the tag to the tag table */ uint16_t tag = getTagNumber(line + start, (uint16_t)(limit - start)); addAlias(alias, tag, cnv, (UBool)(line[limit-1] == '*')); } while (line[pos] && isspace((int)line[pos])) { ++pos; } } while (line[pos] && line[pos] != '}'); if (line[pos] == '}') { ++pos; } else { fprintf(stderr, "%s:%d: Unterminated tag list\n", path, lineNum); exit(U_UNMATCHED_BRACES); } } else { addAlias(alias, EMPTY_TAG_NUM, cnv, (UBool)(tags[0].aliasList[cnv].aliasCount == 0)); } } } static uint16_t getTagNumber(const char *tag, uint16_t tagLen) { char *atag; uint16_t t; UBool preferredName = ((tagLen > 0) ? (tag[tagLen - 1] == '*') : (FALSE)); if (tagCount >= MAX_TAG_COUNT) { fprintf(stderr, "%s:%d: too many tags\n", path, lineNum); exit(U_BUFFER_OVERFLOW_ERROR); } if (preferredName) { /* puts(tag);*/ tagLen--; } for (t = 0; t < tagCount; ++t) { const char *currTag = GET_TAG_STR(tags[t].tag); if (uprv_strlen(currTag) == tagLen && !uprv_strnicmp(currTag, tag, tagLen)) { return t; } } /* we need to add this tag */ if (tagCount >= MAX_TAG_COUNT) { fprintf(stderr, "%s:%d: error: too many tags\n", path, lineNum); exit(U_BUFFER_OVERFLOW_ERROR); } /* allocate a new entry in the tag table */ atag = allocString(&tagBlock, tag, tagLen); if (standardTagsUsed) { fprintf(stderr, "%s:%d: error: Tag \"%s\" is not declared at the beginning of the alias table.\n", path, lineNum, atag); exit(1); } else if (tagLen > 0 && strcmp(tag, ALL_TAG_STR) != 0) { fprintf(stderr, "%s:%d: warning: Tag \"%s\" was added to the list of standards because it was not declared at beginning of the alias table.\n", path, lineNum, atag); } /* add the tag to the tag table */ tags[tagCount].tag = GET_TAG_NUM(atag); /* The aliasList should be set to 0's already */ return tagCount++; } /*static void addTaggedAlias(uint16_t tag, const char *alias, uint16_t converter) { tags[tag].aliases[converter] = alias; } */ static void addOfficialTaggedStandards(char *line, int32_t lineLen) { char *atag; char *endTagExp; char *tag; static const char WHITESPACE[] = " \t"; if (tagCount > UCNV_NUM_RESERVED_TAGS) { fprintf(stderr, "%s:%d: error: official tags already added\n", path, lineNum); exit(U_BUFFER_OVERFLOW_ERROR); } tag = strchr(line, '{'); if (tag == NULL) { /* Why were we called? */ fprintf(stderr, "%s:%d: error: Missing start of tag group\n", path, lineNum); exit(U_PARSE_ERROR); } tag++; endTagExp = strchr(tag, '}'); if (endTagExp == NULL) { fprintf(stderr, "%s:%d: error: Missing end of tag group\n", path, lineNum); exit(U_PARSE_ERROR); } endTagExp[0] = 0; tag = strtok(tag, WHITESPACE); while (tag != NULL) { /* printf("Adding original tag \"%s\"\n", tag);*/ /* allocate a new entry in the tag table */ atag = allocString(&tagBlock, tag, -1); /* add the tag to the tag table */ tags[tagCount++].tag = (uint16_t)((atag - tagStore) >> 1); /* The aliasList should already be set to 0's */ /* Get next tag */ tag = strtok(NULL, WHITESPACE); } } static uint16_t addToKnownAliases(const char *alias) { /* uint32_t idx; */ /* strict matching */ /* for (idx = 0; idx < knownAliasesCount; idx++) { uint16_t num = GET_ALIAS_NUM(alias); if (knownAliases[idx] != num && uprv_strcmp(alias, GET_ALIAS_STR(knownAliases[idx])) == 0) { fprintf(stderr, "%s:%d: warning: duplicate alias %s and %s found\n", path, lineNum, alias, GET_ALIAS_STR(knownAliases[idx])); duplicateKnownAliasesCount++; break; } else if (knownAliases[idx] != num && ucnv_compareNames(alias, GET_ALIAS_STR(knownAliases[idx])) == 0) { if (verbose) { fprintf(stderr, "%s:%d: information: duplicate alias %s and %s found\n", path, lineNum, alias, GET_ALIAS_STR(knownAliases[idx])); } duplicateKnownAliasesCount++; break; } } */ if (knownAliasesCount >= MAX_ALIAS_COUNT) { fprintf(stderr, "%s:%d: warning: Too many aliases defined for all converters\n", path, lineNum); exit(U_BUFFER_OVERFLOW_ERROR); } /* TODO: We could try to unlist exact duplicates. */ return knownAliases[knownAliasesCount++] = GET_ALIAS_NUM(alias); } /* @param standard When standard is 0, then it's the "empty" tag. */ static uint16_t addAlias(const char *alias, uint16_t standard, uint16_t converter, UBool defaultName) { uint32_t idx, idx2; UBool startEmptyWithoutDefault = FALSE; AliasList *aliasList; if(standard>=MAX_TAG_COUNT) { fprintf(stderr, "%s:%d: error: too many standard tags\n", path, lineNum); exit(U_BUFFER_OVERFLOW_ERROR); } if(converter>=MAX_CONV_COUNT) { fprintf(stderr, "%s:%d: error: too many converter names\n", path, lineNum); exit(U_BUFFER_OVERFLOW_ERROR); } aliasList = &tags[standard].aliasList[converter]; if (strchr(alias, '}')) { fprintf(stderr, "%s:%d: error: unmatched } found\n", path, lineNum); } if(aliasList->aliasCount + 1 >= MAX_TC_ALIAS_COUNT) { fprintf(stderr, "%s:%d: error: too many aliases for alias %s and converter %s\n", path, lineNum, alias, GET_ALIAS_STR(converters[converter].converter)); exit(U_BUFFER_OVERFLOW_ERROR); } /* Show this warning only once. All aliases are added to the "ALL" tag. */ if (standard == ALL_TAG_NUM && GET_ALIAS_STR(converters[converter].converter) != alias) { /* Normally these option values are parsed at runtime, and they can be discarded when the alias is a default converter. Options should only be on a converter and not an alias. */ if (uprv_strchr(alias, UCNV_OPTION_SEP_CHAR) != 0) { fprintf(stderr, "warning(line %d): alias %s contains a \""UCNV_OPTION_SEP_STRING"\". Options are parsed at run-time and do not need to be in the alias table.\n", lineNum, alias); } if (uprv_strchr(alias, UCNV_VALUE_SEP_CHAR) != 0) { fprintf(stderr, "warning(line %d): alias %s contains an \""UCNV_VALUE_SEP_STRING"\". Options are parsed at run-time and do not need to be in the alias table.\n", lineNum, alias); } } if (standard != ALL_TAG_NUM) { /* Check for duplicate aliases for this tag on all converters */ for (idx = 0; idx < converterCount; idx++) { for (idx2 = 0; idx2 < tags[standard].aliasList[idx].aliasCount; idx2++) { uint16_t aliasNum = tags[standard].aliasList[idx].aliases[idx2]; if (aliasNum && ucnv_compareNames(alias, GET_ALIAS_STR(aliasNum)) == 0) { if (idx == converter) { /* * (alias, standard) duplicates are harmless if they map to the same converter. * Only print a warning in verbose mode, or if the alias is a precise duplicate, * not just a lenient-match duplicate. */ if (verbose || 0 == uprv_strcmp(alias, GET_ALIAS_STR(aliasNum))) { fprintf(stderr, "%s:%d: warning: duplicate aliases %s and %s found for standard %s and converter %s\n", path, lineNum, alias, GET_ALIAS_STR(aliasNum), GET_TAG_STR(tags[standard].tag), GET_ALIAS_STR(converters[converter].converter)); } } else { fprintf(stderr, "%s:%d: warning: duplicate aliases %s and %s found for standard tag %s between converter %s and converter %s\n", path, lineNum, alias, GET_ALIAS_STR(aliasNum), GET_TAG_STR(tags[standard].tag), GET_ALIAS_STR(converters[converter].converter), GET_ALIAS_STR(converters[idx].converter)); } break; } } } /* Check for duplicate default aliases for this converter on all tags */ /* It's okay to have multiple standards prefer the same name */ /* if (verbose && !dupFound) { for (idx = 0; idx < tagCount; idx++) { if (tags[idx].aliasList[converter].aliases) { uint16_t aliasNum = tags[idx].aliasList[converter].aliases[0]; if (aliasNum && ucnv_compareNames(alias, GET_ALIAS_STR(aliasNum)) == 0) { fprintf(stderr, "%s:%d: warning: duplicate alias %s found for converter %s and standard tag %s\n", path, lineNum, alias, GET_ALIAS_STR(converters[converter].converter), GET_TAG_STR(tags[standard].tag)); break; } } } }*/ } if (aliasList->aliasCount <= 0) { aliasList->aliasCount++; startEmptyWithoutDefault = TRUE; } aliasList->aliases = (uint16_t *)uprv_realloc(aliasList->aliases, (aliasList->aliasCount + 1) * sizeof(aliasList->aliases[0])); if (startEmptyWithoutDefault) { aliasList->aliases[0] = 0; } if (defaultName) { if (aliasList->aliases[0] != 0) { fprintf(stderr, "%s:%d: error: Alias %s and %s cannot both be the default alias for standard tag %s and converter %s\n", path, lineNum, alias, GET_ALIAS_STR(aliasList->aliases[0]), GET_TAG_STR(tags[standard].tag), GET_ALIAS_STR(converters[converter].converter)); exit(U_PARSE_ERROR); } aliasList->aliases[0] = GET_ALIAS_NUM(alias); } else { aliasList->aliases[aliasList->aliasCount++] = GET_ALIAS_NUM(alias); } /* aliasList->converter = converter;*/ converters[converter].totalAliasCount++; /* One more to the column */ tags[standard].totalAliasCount++; /* One more to the row */ return aliasList->aliasCount; } static uint16_t addConverter(const char *converter) { uint32_t idx; if(converterCount>=MAX_CONV_COUNT) { fprintf(stderr, "%s:%d: error: too many converters\n", path, lineNum); exit(U_BUFFER_OVERFLOW_ERROR); } for (idx = 0; idx < converterCount; idx++) { if (ucnv_compareNames(converter, GET_ALIAS_STR(converters[idx].converter)) == 0) { fprintf(stderr, "%s:%d: error: duplicate converter %s found!\n", path, lineNum, converter); exit(U_PARSE_ERROR); break; } } converters[converterCount].converter = GET_ALIAS_NUM(converter); converters[converterCount].totalAliasCount = 0; return converterCount++; } /* resolve this alias based on the prioritization of the standard tags. */ static void resolveAliasToConverter(uint16_t alias, uint16_t *tagNum, uint16_t *converterNum) { uint16_t idx, idx2, idx3; for (idx = UCNV_NUM_RESERVED_TAGS; idx < tagCount; idx++) { for (idx2 = 0; idx2 < converterCount; idx2++) { for (idx3 = 0; idx3 < tags[idx].aliasList[idx2].aliasCount; idx3++) { uint16_t aliasNum = tags[idx].aliasList[idx2].aliases[idx3]; if (aliasNum == alias) { *tagNum = idx; *converterNum = idx2; return; } } } } /* Do the leftovers last, just in case */ /* There is no need to do the ALL tag */ idx = 0; for (idx2 = 0; idx2 < converterCount; idx2++) { for (idx3 = 0; idx3 < tags[idx].aliasList[idx2].aliasCount; idx3++) { uint16_t aliasNum = tags[idx].aliasList[idx2].aliases[idx3]; if (aliasNum == alias) { *tagNum = idx; *converterNum = idx2; return; } } } *tagNum = UINT16_MAX; *converterNum = UINT16_MAX; fprintf(stderr, "%s: warning: alias %s not found\n", path, GET_ALIAS_STR(alias)); return; } /* The knownAliases should be sorted before calling this function */ static uint32_t resolveAliases(uint16_t *uniqueAliasArr, uint16_t *uniqueAliasToConverterArr, uint16_t aliasOffset) { uint32_t uniqueAliasIdx = 0; uint32_t idx; uint16_t currTagNum, oldTagNum; uint16_t currConvNum, oldConvNum; const char *lastName; resolveAliasToConverter(knownAliases[0], &oldTagNum, &currConvNum); uniqueAliasToConverterArr[uniqueAliasIdx] = currConvNum; oldConvNum = currConvNum; uniqueAliasArr[uniqueAliasIdx] = knownAliases[0] + aliasOffset; uniqueAliasIdx++; lastName = GET_ALIAS_STR(knownAliases[0]); for (idx = 1; idx < knownAliasesCount; idx++) { resolveAliasToConverter(knownAliases[idx], &currTagNum, &currConvNum); if (ucnv_compareNames(lastName, GET_ALIAS_STR(knownAliases[idx])) == 0) { /* duplicate found */ if ((currTagNum < oldTagNum && currTagNum >= UCNV_NUM_RESERVED_TAGS) || oldTagNum == 0) { oldTagNum = currTagNum; uniqueAliasToConverterArr[uniqueAliasIdx - 1] = currConvNum; uniqueAliasArr[uniqueAliasIdx - 1] = knownAliases[idx] + aliasOffset; if (verbose) { printf("using %s instead of %s -> %s", GET_ALIAS_STR(knownAliases[idx]), lastName, GET_ALIAS_STR(converters[currConvNum].converter)); if (oldConvNum != currConvNum) { printf(" (alias conflict)"); } puts(""); } } else { /* else ignore it */ if (verbose) { printf("folding %s into %s -> %s", GET_ALIAS_STR(knownAliases[idx]), lastName, GET_ALIAS_STR(converters[oldConvNum].converter)); if (oldConvNum != currConvNum) { printf(" (alias conflict)"); } puts(""); } } if (oldConvNum != currConvNum) { uniqueAliasToConverterArr[uniqueAliasIdx - 1] |= UCNV_AMBIGUOUS_ALIAS_MAP_BIT; } } else { uniqueAliasToConverterArr[uniqueAliasIdx] = currConvNum; oldConvNum = currConvNum; uniqueAliasArr[uniqueAliasIdx] = knownAliases[idx] + aliasOffset; uniqueAliasIdx++; lastName = GET_ALIAS_STR(knownAliases[idx]); oldTagNum = currTagNum; /*printf("%s -> %s\n", GET_ALIAS_STR(knownAliases[idx]), GET_ALIAS_STR(converters[currConvNum].converter));*/ } if (uprv_strchr(GET_ALIAS_STR(converters[currConvNum].converter), UCNV_OPTION_SEP_CHAR) != NULL) { uniqueAliasToConverterArr[uniqueAliasIdx-1] |= UCNV_CONTAINS_OPTION_BIT; } } return uniqueAliasIdx; } static void createOneAliasList(uint16_t *aliasArrLists, uint32_t tag, uint32_t converter, uint16_t offset) { uint32_t aliasNum; AliasList *aliasList = &tags[tag].aliasList[converter]; if (aliasList->aliasCount == 0) { aliasArrLists[tag*converterCount + converter] = 0; } else { aliasLists[aliasListsSize++] = aliasList->aliasCount; /* write into the array area a 1's based index. */ aliasArrLists[tag*converterCount + converter] = aliasListsSize; /* printf("tag %s converter %s\n", GET_TAG_STR(tags[tag].tag), GET_ALIAS_STR(converters[converter].converter));*/ for (aliasNum = 0; aliasNum < aliasList->aliasCount; aliasNum++) { uint16_t value; /* printf(" %s\n", GET_ALIAS_STR(aliasList->aliases[aliasNum]));*/ if (aliasList->aliases[aliasNum]) { value = aliasList->aliases[aliasNum] + offset; } else { value = 0; if (tag != 0) { /* Only show the warning when it's not the leftover tag. */ fprintf(stderr, "%s: warning: tag %s does not have a default alias for %s\n", path, GET_TAG_STR(tags[tag].tag), GET_ALIAS_STR(converters[converter].converter)); } } aliasLists[aliasListsSize++] = value; if (aliasListsSize >= MAX_LIST_SIZE) { fprintf(stderr, "%s: error: Too many alias lists\n", path); exit(U_BUFFER_OVERFLOW_ERROR); } } } } static void createNormalizedAliasStrings(char *normalizedStrings, const char *origStringBlock, int32_t stringBlockLength) { int32_t currStrLen; uprv_memcpy(normalizedStrings, origStringBlock, stringBlockLength); while ((currStrLen = (int32_t)uprv_strlen(origStringBlock)) < stringBlockLength) { int32_t currStrSize = currStrLen + 1; if (currStrLen > 0) { int32_t normStrLen; ucnv_io_stripForCompare(normalizedStrings, origStringBlock); normStrLen = uprv_strlen(normalizedStrings); if (normStrLen > 0) { uprv_memset(normalizedStrings + normStrLen, 0, currStrSize - normStrLen); } } stringBlockLength -= currStrSize; normalizedStrings += currStrSize; origStringBlock += currStrSize; } } static void writeAliasTable(UNewDataMemory *out) { uint32_t i, j; uint32_t uniqueAliasesSize; uint16_t aliasOffset = (uint16_t)(tagBlock.top/sizeof(uint16_t)); uint16_t *aliasArrLists = (uint16_t *)uprv_malloc(tagCount * converterCount * sizeof(uint16_t)); uint16_t *uniqueAliases = (uint16_t *)uprv_malloc(knownAliasesCount * sizeof(uint16_t)); uint16_t *uniqueAliasesToConverter = (uint16_t *)uprv_malloc(knownAliasesCount * sizeof(uint16_t)); qsort(knownAliases, knownAliasesCount, sizeof(knownAliases[0]), compareAliases); uniqueAliasesSize = resolveAliases(uniqueAliases, uniqueAliasesToConverter, aliasOffset); /* Array index starts at 1. aliasLists[0] is the size of the lists section. */ aliasListsSize = 0; /* write the offsets of all the aliases lists in a 2D array, and create the lists. */ for (i = 0; i < tagCount; ++i) { for (j = 0; j < converterCount; ++j) { createOneAliasList(aliasArrLists, i, j, aliasOffset); } } /* Write the size of the TOC */ if (tableOptions.stringNormalizationType == UCNV_IO_UNNORMALIZED) { udata_write32(out, 8); } else { udata_write32(out, 9); } /* Write the sizes of each section */ /* All sizes are the number of uint16_t units, not bytes */ udata_write32(out, converterCount); udata_write32(out, tagCount); udata_write32(out, uniqueAliasesSize); /* list of aliases */ udata_write32(out, uniqueAliasesSize); /* The preresolved form of mapping an untagged the alias to a converter */ udata_write32(out, tagCount * converterCount); udata_write32(out, aliasListsSize + 1); udata_write32(out, sizeof(tableOptions) / sizeof(uint16_t)); udata_write32(out, (tagBlock.top + stringBlock.top) / sizeof(uint16_t)); if (tableOptions.stringNormalizationType != UCNV_IO_UNNORMALIZED) { udata_write32(out, (tagBlock.top + stringBlock.top) / sizeof(uint16_t)); } /* write the table of converters */ /* Think of this as the column headers */ for(i=0; i<converterCount; ++i) { udata_write16(out, (uint16_t)(converters[i].converter + aliasOffset)); } /* write the table of tags */ /* Think of this as the row headers */ for(i=UCNV_NUM_RESERVED_TAGS; i<tagCount; ++i) { udata_write16(out, tags[i].tag); } /* The empty tag is considered the leftover list, and put that at the end of the priority list. */ udata_write16(out, tags[EMPTY_TAG_NUM].tag); udata_write16(out, tags[ALL_TAG_NUM].tag); /* Write the unique list of aliases */ udata_writeBlock(out, uniqueAliases, uniqueAliasesSize * sizeof(uint16_t)); /* Write the unique list of aliases */ udata_writeBlock(out, uniqueAliasesToConverter, uniqueAliasesSize * sizeof(uint16_t)); /* Write the array to the lists */ udata_writeBlock(out, (const void *)(aliasArrLists + (2*converterCount)), (((tagCount - 2) * converterCount) * sizeof(uint16_t))); /* Now write the leftover part of the array for the EMPTY and ALL lists */ udata_writeBlock(out, (const void *)aliasArrLists, (2 * converterCount * sizeof(uint16_t))); /* Offset the next array to make the index start at 1. */ udata_write16(out, 0xDEAD); /* Write the lists */ udata_writeBlock(out, (const void *)aliasLists, aliasListsSize * sizeof(uint16_t)); /* Write any options for the alias table. */ udata_writeBlock(out, (const void *)&tableOptions, sizeof(tableOptions)); /* write the tags strings */ udata_writeString(out, tagBlock.store, tagBlock.top); /* write the aliases strings */ udata_writeString(out, stringBlock.store, stringBlock.top); /* write the normalized aliases strings */ if (tableOptions.stringNormalizationType != UCNV_IO_UNNORMALIZED) { char *normalizedStrings = (char *)uprv_malloc(tagBlock.top + stringBlock.top); createNormalizedAliasStrings(normalizedStrings, tagBlock.store, tagBlock.top); createNormalizedAliasStrings(normalizedStrings + tagBlock.top, stringBlock.store, stringBlock.top); /* Write out the complete normalized array. */ udata_writeString(out, normalizedStrings, tagBlock.top + stringBlock.top); uprv_free(normalizedStrings); } uprv_free(uniqueAliasesToConverter); uprv_free(uniqueAliases); uprv_free(aliasArrLists); } static char * allocString(StringBlock *block, const char *s, int32_t length) { uint32_t top; char *p; if(length<0) { length=(int32_t)uprv_strlen(s); } /* * add 1 for the terminating NUL * and round up (+1 &~1) * to keep the addresses on a 16-bit boundary */ top=block->top + (uint32_t)((length + 1 + 1) & ~1); if(top >= block->max) { fprintf(stderr, "%s:%d: error: out of memory\n", path, lineNum); exit(U_MEMORY_ALLOCATION_ERROR); } /* get the pointer and copy the string */ p = block->store + block->top; uprv_memcpy(p, s, length); p[length] = 0; /* NUL-terminate it */ if((length & 1) == 0) { p[length + 1] = 0; /* set the padding byte */ } /* check for invariant characters now that we have a NUL-terminated string for easy output */ if(!uprv_isInvariantString(p, length)) { fprintf(stderr, "%s:%d: error: the name %s contains not just invariant characters\n", path, lineNum, p); exit(U_INVALID_TABLE_FORMAT); } block->top = top; return p; } static int compareAliases(const void *alias1, const void *alias2) { /* Names like IBM850 and ibm-850 need to be sorted together */ int result = ucnv_compareNames(GET_ALIAS_STR(*(uint16_t*)alias1), GET_ALIAS_STR(*(uint16_t*)alias2)); if (!result) { /* Sort the shortest first */ return (int)uprv_strlen(GET_ALIAS_STR(*(uint16_t*)alias1)) - (int)uprv_strlen(GET_ALIAS_STR(*(uint16_t*)alias2)); } return result; } /* * Hey, Emacs, please set the following: * * Local Variables: * indent-tabs-mode: nil * End: * */