scuffed-code/icu4c/source/tools/genprops/genprops.c
2002-06-03 03:37:59 +00:00

875 lines
29 KiB
C

/*
*******************************************************************************
*
* Copyright (C) 1999-2002, International Business Machines
* Corporation and others. All Rights Reserved.
*
*******************************************************************************
* file name: genprops.c
* encoding: US-ASCII
* tab size: 8 (not used)
* indentation:4
*
* created on: 1999dec08
* created by: Markus W. Scherer
*
* This program reads the Unicode character database text file,
* parses it, and extracts most of the properties for each character.
* It then writes a binary file containing the properties
* that is designed to be used directly for random-access to
* the properties of each Unicode character.
*/
#include <stdio.h>
#include <stdlib.h>
#include "unicode/utypes.h"
#include "unicode/uchar.h"
#include "unicode/putil.h"
#include "cmemory.h"
#include "cstring.h"
#include "unicode/udata.h"
#include "unewdata.h"
#include "uoptions.h"
#include "uparse.h"
U_CDECL_BEGIN
#include "genprops.h"
U_CDECL_END
UBool beVerbose=FALSE, haveCopyright=TRUE;
/* prototypes --------------------------------------------------------------- */
static void
parseBidiMirroring(const char *filename, UErrorCode *pErrorCode);
static void
parseSpecialCasing(const char *filename, UErrorCode *pErrorCode);
static void
parseCaseFolding(const char *filename, UErrorCode *pErrorCode);
static void
parseDB(const char *filename, UErrorCode *pErrorCode);
/* -------------------------------------------------------------------------- */
static UOption options[]={
UOPTION_HELP_H,
UOPTION_HELP_QUESTION_MARK,
UOPTION_VERBOSE,
UOPTION_COPYRIGHT,
UOPTION_DESTDIR,
UOPTION_SOURCEDIR,
{ "unicode", NULL, NULL, NULL, 'u', UOPT_REQUIRES_ARG, 0 }
};
extern int
main(int argc, char* argv[]) {
char filename[300];
const char *srcDir=NULL, *destDir=NULL, *suffix=NULL;
char *basename=NULL;
UErrorCode errorCode=U_ZERO_ERROR;
U_MAIN_INIT_ARGS(argc, argv);
/* preset then read command line options */
options[4].value=u_getDataDirectory();
options[5].value="";
options[6].value="3.0.0";
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[0].doesOccur || options[1].doesOccur) {
/*
* Broken into chucks because the C89 standard says the minimum
* required supported string length is 509 bytes.
*/
fprintf(stderr,
"Usage: %s [-options] [suffix]\n"
"\n"
"read the UnicodeData.txt file and other Unicode properties files and\n"
"create a binary file " DATA_NAME "." DATA_TYPE " with the character properties\n"
"\n",
argv[0]);
fprintf(stderr,
"Options:\n"
"\t-h or -? or --help this usage text\n"
"\t-v or --verbose verbose output\n"
"\t-c or --copyright include a copyright notice\n"
"\t-u or --unicode Unicode version, followed by the version like 3.0.0\n");
fprintf(stderr,
"\t-d or --destdir destination directory, followed by the path\n"
"\t-s or --sourcedir source directory, followed by the path\n"
"\tsuffix suffix that is to be appended with a '-'\n"
"\t to the source file basenames before opening;\n"
"\t 'genprops new' will read UnicodeData-new.txt etc.\n");
return argc<0 ? U_ILLEGAL_ARGUMENT_ERROR : U_ZERO_ERROR;
}
/* get the options values */
beVerbose=options[2].doesOccur;
haveCopyright=options[3].doesOccur;
srcDir=options[5].value;
destDir=options[4].value;
if(argc>=2) {
suffix=argv[1];
} else {
suffix=NULL;
}
setUnicodeVersion(options[6].value);
/* prepare the filename beginning with the source dir */
uprv_strcpy(filename, srcDir);
basename=filename+uprv_strlen(filename);
if(basename>filename && *(basename-1)!=U_FILE_SEP_CHAR) {
*basename++=U_FILE_SEP_CHAR;
}
/* initialize */
initStore();
/* process BidiMirroring.txt */
writeUCDFilename(basename, "BidiMirroring", suffix);
parseBidiMirroring(filename, &errorCode);
/* process SpecialCasing.txt */
writeUCDFilename(basename, "SpecialCasing", suffix);
parseSpecialCasing(filename, &errorCode);
/* process CaseFolding.txt */
writeUCDFilename(basename, "CaseFolding", suffix);
parseCaseFolding(filename, &errorCode);
/* process UnicodeData.txt */
writeUCDFilename(basename, "UnicodeData", suffix);
parseDB(filename, &errorCode);
/* process additional properties files */
*basename=0;
generateAdditionalProperties(filename, suffix, &errorCode);
/* process parsed data */
if(U_SUCCESS(errorCode)) {
/* write the properties data file */
generateData(destDir);
}
return errorCode;
}
U_CFUNC void
writeUCDFilename(char *basename, const char *filename, const char *suffix) {
int32_t length=uprv_strlen(filename);
uprv_strcpy(basename, filename);
if(suffix!=NULL) {
basename[length++]='-';
uprv_strcpy(basename+length, suffix);
length+=uprv_strlen(suffix);
}
uprv_strcpy(basename+length, ".txt");
}
U_CFUNC UBool
isToken(const char *token, const char *s) {
const char *z;
int32_t j;
s=u_skipWhitespace(s);
for(j=0;; ++j) {
if(token[j]!=0) {
if(s[j]!=token[j]) {
break;
}
} else {
z=u_skipWhitespace(s+j);
if(*z==';' || *z==0) {
return TRUE;
} else {
break;
}
}
}
return FALSE;
}
U_CFUNC int32_t
getTokenIndex(const char *const tokens[], int32_t countTokens, const char *s) {
const char *t, *z;
int32_t i, j;
s=u_skipWhitespace(s);
for(i=0; i<countTokens; ++i) {
t=tokens[i];
if(t!=NULL) {
for(j=0;; ++j) {
if(t[j]!=0) {
if(s[j]!=t[j]) {
break;
}
} else {
z=u_skipWhitespace(s+j);
if(*z==';' || *z==0) {
return i;
} else {
break;
}
}
}
}
}
return -1;
}
/* parser for BidiMirroring.txt --------------------------------------------- */
#define MAX_MIRROR_COUNT 2000
static uint32_t mirrorMappings[MAX_MIRROR_COUNT][2];
static int32_t mirrorCount=0;
static void
mirrorLineFn(void *context,
char *fields[][2], int32_t fieldCount,
UErrorCode *pErrorCode) {
char *end;
static uint32_t prevCode=0;
mirrorMappings[mirrorCount][0]=(uint32_t)uprv_strtoul(fields[0][0], &end, 16);
if(end<=fields[0][0] || end!=fields[0][1]) {
fprintf(stderr, "genprops: syntax error in BidiMirroring.txt field 0 at %s\n", fields[0][0]);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
mirrorMappings[mirrorCount][1]=(uint32_t)uprv_strtoul(fields[1][0], &end, 16);
if(end<=fields[1][0] || end!=fields[1][1]) {
fprintf(stderr, "genprops: syntax error in BidiMirroring.txt field 1 at %s\n", fields[1][0]);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
/* check that the code points (mirrorMappings[mirrorCount][0]) are in ascending order */
if(mirrorMappings[mirrorCount][0]<=prevCode && mirrorMappings[mirrorCount][0]>0) {
fprintf(stderr, "genprops: error - BidiMirroring entries out of order, U+%04lx after U+%04lx\n",
(unsigned long)mirrorMappings[mirrorCount][0],
(unsigned long)prevCode);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
prevCode=mirrorMappings[mirrorCount][0];
if(++mirrorCount==MAX_MIRROR_COUNT) {
fprintf(stderr, "genprops: too many mirror mappings\n");
*pErrorCode=U_INDEX_OUTOFBOUNDS_ERROR;
exit(U_INDEX_OUTOFBOUNDS_ERROR);
}
}
static void
parseBidiMirroring(const char *filename, UErrorCode *pErrorCode) {
char *fields[2][2];
if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
return;
}
u_parseDelimitedFile(filename, ';', fields, 2, mirrorLineFn, NULL, pErrorCode);
}
/* parser for SpecialCasing.txt --------------------------------------------- */
#define MAX_SPECIAL_CASING_COUNT 500
static SpecialCasing specialCasings[MAX_SPECIAL_CASING_COUNT];
static int32_t specialCasingCount=0;
static void
specialCasingLineFn(void *context,
char *fields[][2], int32_t fieldCount,
UErrorCode *pErrorCode) {
char *end;
/* get code point */
specialCasings[specialCasingCount].code=(uint32_t)uprv_strtoul(u_skipWhitespace(fields[0][0]), &end, 16);
end=(char *)u_skipWhitespace(end);
if(end<=fields[0][0] || end!=fields[0][1]) {
fprintf(stderr, "genprops: syntax error in SpecialCasing.txt field 0 at %s\n", fields[0][0]);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
/* is this a complex mapping? */
if(*u_skipWhitespace(fields[4][0])!=0) {
/* there is some condition text in the fifth field */
specialCasings[specialCasingCount].isComplex=TRUE;
/* do not store any actual mappings for this */
specialCasings[specialCasingCount].lowerCase[0]=0;
specialCasings[specialCasingCount].upperCase[0]=0;
specialCasings[specialCasingCount].titleCase[0]=0;
} else {
/* just set the "complex" flag and get the case mappings */
specialCasings[specialCasingCount].isComplex=FALSE;
specialCasings[specialCasingCount].lowerCase[0]=
(UChar)u_parseString(fields[1][0], specialCasings[specialCasingCount].lowerCase+1, 31, NULL, pErrorCode);
specialCasings[specialCasingCount].upperCase[0]=
(UChar)u_parseString(fields[3][0], specialCasings[specialCasingCount].upperCase+1, 31, NULL, pErrorCode);
specialCasings[specialCasingCount].titleCase[0]=
(UChar)u_parseString(fields[2][0], specialCasings[specialCasingCount].titleCase+1, 31, NULL, pErrorCode);
if(U_FAILURE(*pErrorCode)) {
fprintf(stderr, "genprops: error parsing special casing at %s\n", fields[0][0]);
exit(*pErrorCode);
}
}
if(++specialCasingCount==MAX_SPECIAL_CASING_COUNT) {
fprintf(stderr, "genprops: too many special casing mappings\n");
*pErrorCode=U_INDEX_OUTOFBOUNDS_ERROR;
exit(U_INDEX_OUTOFBOUNDS_ERROR);
}
}
static int
compareSpecialCasings(const void *left, const void *right) {
return ((const SpecialCasing *)left)->code-((const SpecialCasing *)right)->code;
}
static void
parseSpecialCasing(const char *filename, UErrorCode *pErrorCode) {
char *fields[5][2];
int32_t i, j;
if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
return;
}
u_parseDelimitedFile(filename, ';', fields, 5, specialCasingLineFn, NULL, pErrorCode);
/* sort the special casing entries by code point */
if(specialCasingCount>0) {
qsort(specialCasings, specialCasingCount, sizeof(SpecialCasing), compareSpecialCasings);
}
/* replace multiple entries for any code point by one "complex" one */
j=0;
for(i=1; i<specialCasingCount; ++i) {
if(specialCasings[i-1].code==specialCasings[i].code) {
/* there is a duplicate code point */
specialCasings[i-1].code=0x7fffffff; /* remove this entry in the following qsort */
specialCasings[i].isComplex=TRUE; /* make the following one complex */
specialCasings[i].lowerCase[0]=0;
specialCasings[i].upperCase[0]=0;
specialCasings[i].titleCase[0]=0;
++j;
}
}
/* if some entries just were removed, then re-sort */
if(j>0) {
qsort(specialCasings, specialCasingCount, sizeof(SpecialCasing), compareSpecialCasings);
specialCasingCount-=j;
}
}
/* parser for CaseFolding.txt ----------------------------------------------- */
#define MAX_CASE_FOLDING_COUNT 2000
static CaseFolding caseFoldings[MAX_CASE_FOLDING_COUNT];
static int32_t caseFoldingCount=0;
static void
caseFoldingLineFn(void *context,
char *fields[][2], int32_t fieldCount,
UErrorCode *pErrorCode) {
char *end;
static uint32_t prevCode=0;
int32_t count;
char status;
/* get code point */
caseFoldings[caseFoldingCount].code=(uint32_t)uprv_strtoul(u_skipWhitespace(fields[0][0]), &end, 16);
end=(char *)u_skipWhitespace(end);
if(end<=fields[0][0] || end!=fields[0][1]) {
fprintf(stderr, "genprops: syntax error in CaseFolding.txt field 0 at %s\n", fields[0][0]);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
/* get the status of this mapping */
caseFoldings[caseFoldingCount].status=status=*u_skipWhitespace(fields[1][0]);
if(status!='L' && status!='E' && status!='C' && status!='S' && status!='F' && status!='I' && status!='T') {
fprintf(stderr, "genprops: unrecognized status field in CaseFolding.txt at %s\n", fields[0][0]);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
/* ignore all case folding mappings that are the same as the UnicodeData.txt lowercase mappings */
if(status=='L') {
return;
}
/* get the mapping */
count=caseFoldings[caseFoldingCount].full[0]=
(UChar)u_parseString(fields[2][0], caseFoldings[caseFoldingCount].full+1, 31, &caseFoldings[caseFoldingCount].simple, pErrorCode);
if(U_FAILURE(*pErrorCode)) {
fprintf(stderr, "genprops: error parsing CaseFolding.txt mapping at %s\n", fields[0][0]);
exit(*pErrorCode);
}
/* there is a simple mapping only if there is exactly one code point (count is in UChars) */
if(count==0 || count>2 || (count==2 && UTF_IS_SINGLE(caseFoldings[caseFoldingCount].full[1]))) {
caseFoldings[caseFoldingCount].simple=0;
}
/* check the status */
if(status=='S') {
/* check if there was a full mapping for this code point before */
if( caseFoldingCount>0 &&
caseFoldings[caseFoldingCount-1].code==caseFoldings[caseFoldingCount].code &&
caseFoldings[caseFoldingCount-1].status=='F'
) {
/* merge the two entries */
caseFoldings[caseFoldingCount-1].simple=caseFoldings[caseFoldingCount].simple;
return;
}
} else if(status=='F') {
/* check if there was a simple mapping for this code point before */
if( caseFoldingCount>0 &&
caseFoldings[caseFoldingCount-1].code==caseFoldings[caseFoldingCount].code &&
caseFoldings[caseFoldingCount-1].status=='S'
) {
/* merge the two entries */
uprv_memcpy(caseFoldings[caseFoldingCount-1].full, caseFoldings[caseFoldingCount].full, 32*U_SIZEOF_UCHAR);
return;
}
} else if(status=='I' || status=='T') {
/* check if there was a default mapping for this code point before (remove it) */
while(caseFoldingCount>0 &&
caseFoldings[caseFoldingCount-1].code==caseFoldings[caseFoldingCount].code
) {
prevCode=0;
--caseFoldingCount;
}
/* store only a marker for special handling for cases like dotless i */
caseFoldings[caseFoldingCount].simple=0;
caseFoldings[caseFoldingCount].full[0]=0;
}
/* check that the code points (caseFoldings[caseFoldingCount].code) are in ascending order */
if(caseFoldings[caseFoldingCount].code<=prevCode && caseFoldings[caseFoldingCount].code>0) {
fprintf(stderr, "genprops: error - CaseFolding entries out of order, U+%04lx after U+%04lx\n",
(unsigned long)caseFoldings[caseFoldingCount].code,
(unsigned long)prevCode);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
prevCode=caseFoldings[caseFoldingCount].code;
if(++caseFoldingCount==MAX_CASE_FOLDING_COUNT) {
fprintf(stderr, "genprops: too many case folding mappings\n");
*pErrorCode=U_INDEX_OUTOFBOUNDS_ERROR;
exit(U_INDEX_OUTOFBOUNDS_ERROR);
}
}
static void
parseCaseFolding(const char *filename, UErrorCode *pErrorCode) {
char *fields[3][2];
if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
return;
}
u_parseDelimitedFile(filename, ';', fields, 3, caseFoldingLineFn, NULL, pErrorCode);
}
/* parser for UnicodeData.txt ----------------------------------------------- */
/* general categories */
const char *const
genCategoryNames[U_CHAR_CATEGORY_COUNT]={
"Cn",
"Lu", "Ll", "Lt", "Lm", "Lo", "Mn", "Me",
"Mc", "Nd", "Nl", "No",
"Zs", "Zl", "Zp",
"Cc", "Cf", "Co", "Cs",
"Pd", "Ps", "Pe", "Pc", "Po",
"Sm", "Sc", "Sk", "So",
"Pi", "Pf"
};
const char *const
bidiNames[U_CHAR_DIRECTION_COUNT]={
"L", "R", "EN", "ES", "ET", "AN", "CS", "B", "S",
"WS", "ON", "LRE", "LRO", "AL", "RLE", "RLO", "PDF", "NSM", "BN"
};
static struct {
uint32_t first, last, props;
char name[80];
} unicodeAreas[32];
static int32_t unicodeAreaIndex=0, mirrorIndex=0, specialCasingIndex=0, caseFoldingIndex=0;
static void
unicodeDataLineFn(void *context,
char *fields[][2], int32_t fieldCount,
UErrorCode *pErrorCode) {
Props p;
char *end;
static uint32_t prevCode=0;
uint32_t value;
int32_t i;
/* reset the properties */
uprv_memset(&p, 0, sizeof(Props));
/* get the character code, field 0 */
p.code=(uint32_t)uprv_strtoul(fields[0][0], &end, 16);
if(end<=fields[0][0] || end!=fields[0][1]) {
fprintf(stderr, "genprops: syntax error in field 0 at %s\n", fields[0][0]);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
/* get general category, field 2 */
i=getTokenIndex(genCategoryNames, U_CHAR_CATEGORY_COUNT, fields[2][0]);
if(i>=0) {
p.generalCategory=(uint8_t)i;
} else {
fprintf(stderr, "genprops: unknown general category \"%s\" at code 0x%lx\n",
fields[2][0], (unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
/* get BiDi category, field 4 */
i=getTokenIndex(bidiNames, U_CHAR_DIRECTION_COUNT, fields[4][0]);
if(i>=0) {
p.bidi=(uint8_t)i;
} else {
fprintf(stderr, "genprops: unknown BiDi category \"%s\" at code 0x%lx\n",
fields[4][0], (unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
/* decimal digit value, field 6 */
if(fields[6][0]<fields[6][1]) {
value=(uint32_t)uprv_strtoul(fields[6][0], &end, 10);
if(end!=fields[6][1] || value>0x7fff) {
fprintf(stderr, "genprops: syntax error in field 6 at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
p.numericValue=(int32_t)value;
p.numericType=1;
}
/* digit value, field 7 */
if(fields[7][0]<fields[7][1]) {
value=(uint32_t)uprv_strtoul(fields[7][0], &end, 10);
if(end!=fields[7][1] || value>0x7fff) {
fprintf(stderr, "genprops: syntax error in field 7 at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
if(p.numericType==0) {
p.numericValue=(int32_t)value;
p.numericType=2;
} else if((int32_t)value!=p.numericValue) {
fprintf(stderr, "genprops error: numeric values in fields 6 & 7 different at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
}
/* numeric value, field 8 */
if(fields[8][0]<fields[8][1]) {
char *s=fields[8][0];
UBool isNegative;
/* get a possible minus sign */
if(*s=='-') {
isNegative=TRUE;
++s;
} else {
isNegative=FALSE;
}
value=(uint32_t)uprv_strtoul(s, &end, 10);
if(value>0 && *end=='/') {
/* field 8 may contain a fractional value, get the denominator */
if(p.numericType>0) {
fprintf(stderr, "genprops error: numeric values in fields 6..8 different at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
p.denominator=(uint32_t)uprv_strtoul(end+1, &end, 10);
if(p.denominator==0) {
fprintf(stderr, "genprops: denominator is 0 in field 8 at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
}
if(end!=fields[8][1] || value>0x7fffffff) {
fprintf(stderr, "genprops: syntax error in field 8 at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
if(p.numericType==0) {
if(isNegative) {
p.numericValue=-(int32_t)value;
} else {
p.numericValue=(int32_t)value;
}
p.numericType=3;
} else if((int32_t)value!=p.numericValue) {
fprintf(stderr, "genprops error: numeric values in fields 6..8 different at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
}
/* get Mirrored flag, field 9 */
if(*fields[9][0]=='Y') {
p.isMirrored=1;
} else if(fields[9][1]-fields[9][0]!=1 || *fields[9][0]!='N') {
fprintf(stderr, "genprops: syntax error in field 9 at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
/* get uppercase mapping, field 12 */
value=(uint32_t)uprv_strtoul(fields[12][0], &end, 16);
if(end!=fields[12][1]) {
fprintf(stderr, "genprops: syntax error in field 12 at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
p.upperCase=value;
/* get lowercase value, field 13 */
value=(uint32_t)uprv_strtoul(fields[13][0], &end, 16);
if(end!=fields[13][1]) {
fprintf(stderr, "genprops: syntax error in field 13 at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
p.lowerCase=value;
/* get titlecase value, field 14 */
value=(uint32_t)uprv_strtoul(fields[14][0], &end, 16);
if(end!=fields[14][1]) {
fprintf(stderr, "genprops: syntax error in field 14 at code 0x%lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
p.titleCase=value;
/* set additional properties from previously parsed files */
if(mirrorIndex<mirrorCount && p.code==mirrorMappings[mirrorIndex][0]) {
p.mirrorMapping=mirrorMappings[mirrorIndex++][1];
}
if(specialCasingIndex<specialCasingCount && p.code==specialCasings[specialCasingIndex].code) {
p.specialCasing=specialCasings+specialCasingIndex++;
} else {
p.specialCasing=NULL;
}
if(caseFoldingIndex<caseFoldingCount && p.code==caseFoldings[caseFoldingIndex].code) {
p.caseFolding=caseFoldings+caseFoldingIndex++;
/* ignore "Common" mappings (simple==full) that map to the same code point as the regular lowercase mapping */
if( p.caseFolding->status=='C' &&
p.caseFolding->simple==p.lowerCase
) {
p.caseFolding=NULL;
}
} else {
p.caseFolding=NULL;
}
value=makeProps(&p);
if(*fields[1][0]=='<') {
/* first or last entry of a Unicode area */
size_t length=fields[1][1]-fields[1][0];
if(length<9) {
/* name too short for an area name */
} else if(0==uprv_memcmp(", First>", fields[1][1]-8, 8)) {
/* set the current area */
if(unicodeAreas[unicodeAreaIndex].first==0xffffffff) {
length-=9;
unicodeAreas[unicodeAreaIndex].first=p.code;
unicodeAreas[unicodeAreaIndex].props=value;
uprv_memcpy(unicodeAreas[unicodeAreaIndex].name, fields[1][0]+1, length);
unicodeAreas[unicodeAreaIndex].name[length]=0;
} else {
/* error: a previous area is incomplete */
fprintf(stderr, "genprops: error - area \"%s\" is incomplete\n", unicodeAreas[unicodeAreaIndex].name);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
return;
} else if(0==uprv_memcmp(", Last>", fields[1][1]-7, 7)) {
/* check that the current area matches, and complete it with the last code point */
length-=8;
if( unicodeAreas[unicodeAreaIndex].props==value &&
0==uprv_memcmp(unicodeAreas[unicodeAreaIndex].name, fields[1][0]+1, length) &&
unicodeAreas[unicodeAreaIndex].name[length]==0 &&
unicodeAreas[unicodeAreaIndex].first<p.code
) {
unicodeAreas[unicodeAreaIndex].last=p.code;
if(beVerbose) {
printf("Unicode area U+%04lx..U+%04lx \"%s\"\n",
(unsigned long)unicodeAreas[unicodeAreaIndex].first,
(unsigned long)unicodeAreas[unicodeAreaIndex].last,
unicodeAreas[unicodeAreaIndex].name);
}
unicodeAreas[++unicodeAreaIndex].first=0xffffffff;
} else {
/* error: different properties between first & last, different area name, first>=last */
fprintf(stderr, "genprops: error - Last of area \"%s\" is incorrect\n", unicodeAreas[unicodeAreaIndex].name);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
return;
} else {
/* not an area name */
}
}
/* check for non-character code points */
if((p.code&0xfffe)==0xfffe || (uint32_t)(p.code-0xfdd0)<0x20) {
fprintf(stderr, "genprops: error - properties for non-character code point U+%04lx\n",
(unsigned long)p.code);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
/* check that the code points (p.code) are in ascending order */
if(p.code<=prevCode && p.code>0) {
fprintf(stderr, "genprops: error - UnicodeData entries out of order, U+%04lx after U+%04lx\n",
(unsigned long)p.code, (unsigned long)prevCode);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
prevCode=p.code;
/* properties for a single code point */
addProps(p.code, value);
}
/* set repeated properties for the areas */
static void
repeatAreaProps() {
uint32_t puaProps;
int32_t i;
UBool hasPlane15PUA, hasPlane16PUA;
/*
* UnicodeData.txt before 3.0.1 did not contain the PUAs on
* planes 15 and 16.
* If that is the case, then we add them here, using the properties
* from the BMP PUA.
*/
puaProps=0;
hasPlane15PUA=hasPlane16PUA=FALSE;
for(i=0; i<unicodeAreaIndex; ++i) {
repeatProps(unicodeAreas[i].first,
unicodeAreas[i].last,
unicodeAreas[i].props);
if(unicodeAreas[i].first==0xe000) {
puaProps=unicodeAreas[i].props;
} else if(unicodeAreas[i].first==0xf0000) {
hasPlane15PUA=TRUE;
} else if(unicodeAreas[i].first==0x100000) {
hasPlane16PUA=TRUE;
}
}
if(puaProps!=0) {
if(!hasPlane15PUA) {
repeatProps(0xf0000, 0xffffd, puaProps);
}
if(!hasPlane16PUA) {
repeatProps(0x100000, 0x10fffd, puaProps);
}
}
}
static void
parseDB(const char *filename, UErrorCode *pErrorCode) {
char *fields[15][2];
if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
return;
}
/* while unicodeAreas[unicodeAreaIndex] is unused, set its first to a bogus value */
unicodeAreas[0].first=0xffffffff;
u_parseDelimitedFile(filename, ';', fields, 15, unicodeDataLineFn, NULL, pErrorCode);
if(unicodeAreas[unicodeAreaIndex].first!=0xffffffff) {
fprintf(stderr, "genprops: error - the last area \"%s\" from U+%04lx is incomplete\n",
unicodeAreas[unicodeAreaIndex].name,
(unsigned long)unicodeAreas[unicodeAreaIndex].first);
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
repeatAreaProps();
/* are all sub-properties consumed? */
if(mirrorIndex<mirrorCount) {
fprintf(stderr, "genprops: error - some code points in BidiMirroring.txt are missing from UnicodeData.txt\n");
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
if(specialCasingIndex<specialCasingCount) {
fprintf(stderr, "genprops: error - some code points in SpecialCasing.txt are missing from UnicodeData.txt\n");
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
if(caseFoldingIndex<caseFoldingCount) {
fprintf(stderr, "genprops: error - some code points in CaseFolding.txt are missing from UnicodeData.txt\n");
*pErrorCode=U_PARSE_ERROR;
exit(U_PARSE_ERROR);
}
}
/*
* Hey, Emacs, please set the following:
*
* Local Variables:
* indent-tabs-mode: nil
* End:
*
*/