#include "genrb.h"
#include "unicode/uclean.h"
#include "ucmndata.h"
void processFile(const char *filename, const char* cp, const char *inputDir, const char *outputDir,
const char *packageName, UBool omitBinaryCollation, UErrorCode *status);
static char *make_res_filename(const char *filename, const char *outputDir,
const char *packageName, UErrorCode *status);
#define RES_SUFFIX ".res"
#define COL_SUFFIX ".col"
static char theCurrentFileName[2048];
const char *gCurrentFileName = theCurrentFileName;
#ifdef XP_MAC_CONSOLE
#include <console.h>
#endif
enum
{
HELP1,
HELP2,
VERBOSE,
QUIET,
VERSION,
SOURCEDIR,
DESTDIR,
ENCODING,
ICUDATADIR,
WRITE_JAVA,
COPYRIGHT,
BUNDLE_NAME,
WRITE_XLIFF,
STRICT,
NO_BINARY_COLLATION,
LANGUAGE,
NO_COLLATION_RULES,
FORMAT_VERSION,
WRITE_POOL_BUNDLE,
USE_POOL_BUNDLE,
INCLUDE_UNIHAN_COLL
};
UOption options[]={
UOPTION_HELP_H,
UOPTION_HELP_QUESTION_MARK,
UOPTION_VERBOSE,
UOPTION_QUIET,
UOPTION_VERSION,
UOPTION_SOURCEDIR,
UOPTION_DESTDIR,
UOPTION_ENCODING,
UOPTION_ICUDATADIR,
UOPTION_WRITE_JAVA,
UOPTION_COPYRIGHT,
UOPTION_BUNDLE_NAME,
UOPTION_DEF("write-xliff", 'x', UOPT_OPTIONAL_ARG),
UOPTION_DEF("strict", 'k', UOPT_NO_ARG),
UOPTION_DEF("noBinaryCollation", 'C', UOPT_NO_ARG),
UOPTION_DEF("language", 'l', UOPT_REQUIRES_ARG),
UOPTION_DEF("omitCollationRules", 'R', UOPT_NO_ARG),
UOPTION_DEF("formatVersion", '\x01', UOPT_REQUIRES_ARG),
UOPTION_DEF("writePoolBundle", '\x01', UOPT_NO_ARG),
UOPTION_DEF("usePoolBundle", '\x01', UOPT_OPTIONAL_ARG),
UOPTION_DEF("includeUnihanColl", '\x01', UOPT_NO_ARG),
};
static UBool write_java = FALSE;
static UBool write_xliff = FALSE;
static const char* outputEnc ="";
static const char* gPackageName=NULL;
static const char* bundleName=NULL;
static struct SRBRoot *newPoolBundle = NULL;
UBool gIncludeUnihanColl = FALSE;
typedef struct ResFile {
uint8_t *fBytes;
const int32_t *fIndexes;
const char *fKeys;
int32_t fKeysLength;
int32_t fKeysCount;
int32_t fChecksum;
} ResFile;
static ResFile poolBundle = { NULL };
static const char* language = NULL;
static const char* xliffOutputFileName = NULL;
int
main(int argc,
char* argv[])
{
UErrorCode status = U_ZERO_ERROR;
const char *arg = NULL;
const char *outputDir = NULL;
const char *inputDir = NULL;
const char *encoding = "";
int i;
U_MAIN_INIT_ARGS(argc, argv);
argc = u_parseArgs(argc, argv, (int32_t)(sizeof(options)/sizeof(options[0])), options);
if(argc<0) {
fprintf(stderr, "%s: error in command line argument \"%s\"\n", argv[0], argv[-argc]);
} else if(argc<2) {
argc = -1;
}
if(options[WRITE_POOL_BUNDLE].doesOccur && options[USE_POOL_BUNDLE].doesOccur) {
fprintf(stderr, "%s: cannot combine --writePoolBundle and --usePoolBundle\n", argv[0]);
argc = -1;
}
if(options[FORMAT_VERSION].doesOccur) {
const char *s = options[FORMAT_VERSION].value;
if(uprv_strlen(s) != 1 || (s[0] != '1' && s[0] != '2')) {
fprintf(stderr, "%s: unsupported --formatVersion %s\n", argv[0], s);
argc = -1;
} else if(s[0] == '1' &&
(options[WRITE_POOL_BUNDLE].doesOccur || options[USE_POOL_BUNDLE].doesOccur)
) {
fprintf(stderr, "%s: cannot combine --formatVersion 1 with --writePoolBundle or --usePoolBundle\n", argv[0]);
argc = -1;
} else {
setFormatVersion(s[0] - '0');
}
}
if(options[VERSION].doesOccur) {
fprintf(stderr,
"%s version %s (ICU version %s).\n"
"%s\n",
argv[0], GENRB_VERSION, U_ICU_VERSION, U_COPYRIGHT_STRING);
return U_ZERO_ERROR;
}
if(argc<0 || options[HELP1].doesOccur || options[HELP2].doesOccur) {
fprintf(stderr,
"Usage: %s [OPTIONS] [FILES]\n"
"\tReads the list of resource bundle source files and creates\n"
"\tbinary version of resource bundles (.res files)\n",
argv[0]);
fprintf(stderr,
"Options:\n"
"\t-h or -? or --help this usage text\n"
"\t-q or --quiet do not display warnings\n"
"\t-v or --verbose print extra information when processing files\n"
"\t-V or --version prints out version number and exits\n"
"\t-c or --copyright include copyright notice\n");
fprintf(stderr,
"\t-e or --encoding encoding of source files\n"
"\t-d of --destdir destination directory, followed by the path, defaults to %s\n"
"\t-s or --sourcedir source directory for files followed by path, defaults to %s\n"
"\t-i or --icudatadir directory for locating any needed intermediate data files,\n"
"\t followed by path, defaults to %s\n",
u_getDataDirectory(), u_getDataDirectory(), u_getDataDirectory());
fprintf(stderr,
"\t-j or --write-java write a Java ListResourceBundle for ICU4J, followed by optional encoding\n"
"\t defaults to ASCII and \\uXXXX format.\n");
fprintf(stderr,
"\t-b or --bundle-name bundle name for writing the ListResourceBundle for ICU4J,\n"
"\t defaults to LocaleElements\n"
"\t-x or --write-xliff write an XLIFF file for the resource bundle. Followed by\n"
"\t an optional output file name.\n"
"\t-k or --strict use pedantic parsing of syntax\n"
"\t-l or --language for XLIFF: language code compliant with BCP 47.\n");
fprintf(stderr,
"\t-C or --noBinaryCollation do not generate binary collation image;\n"
"\t makes .res file smaller but collator instantiation much slower;\n"
"\t maintains ability to get tailoring rules\n"
"\t-R or --omitCollationRules do not include collation (tailoring) rules;\n"
"\t makes .res file smaller and maintains collator instantiation speed\n"
"\t but tailoring rules will not be available (they are rarely used)\n");
fprintf(stderr,
"\t --formatVersion write a .res file compatible with the requested formatVersion (single digit);\n"
"\t for example, --formatVersion 1\n");
fprintf(stderr,
"\t --writePoolBundle write a pool.res file with all of the keys of all input bundles\n"
"\t --usePoolBundle [path-to-pool.res] point to keys from the pool.res keys pool bundle if they are available there;\n"
"\t makes .res files smaller but dependent on the pool bundle\n"
"\t (--writePoolBundle and --usePoolBundle cannot be combined)\n");
return argc < 0 ? U_ILLEGAL_ARGUMENT_ERROR : U_ZERO_ERROR;
}
if(options[VERBOSE].doesOccur) {
setVerbose(TRUE);
}
if(options[QUIET].doesOccur) {
setShowWarning(FALSE);
}
if(options[STRICT].doesOccur) {
setStrict(TRUE);
}
if(options[COPYRIGHT].doesOccur){
setIncludeCopyright(TRUE);
}
if(options[SOURCEDIR].doesOccur) {
inputDir = options[SOURCEDIR].value;
}
if(options[DESTDIR].doesOccur) {
outputDir = options[DESTDIR].value;
}
if(options[ENCODING].doesOccur) {
encoding = options[ENCODING].value;
}
if(options[ICUDATADIR].doesOccur) {
u_setDataDirectory(options[ICUDATADIR].value);
}
u_init(&status);
if (U_FAILURE(status) && status != U_FILE_ACCESS_ERROR) {
fprintf(stderr, "%s: can not initialize ICU. status = %s\n",
argv[0], u_errorName(status));
exit(1);
}
status = U_ZERO_ERROR;
if(options[WRITE_JAVA].doesOccur) {
write_java = TRUE;
outputEnc = options[WRITE_JAVA].value;
}
if(options[BUNDLE_NAME].doesOccur) {
bundleName = options[BUNDLE_NAME].value;
}
if(options[WRITE_XLIFF].doesOccur) {
write_xliff = TRUE;
if(options[WRITE_XLIFF].value != NULL){
xliffOutputFileName = options[WRITE_XLIFF].value;
}
}
initParser(options[NO_COLLATION_RULES].doesOccur);
if(options[LANGUAGE].doesOccur) {
language = options[LANGUAGE].value;
}
if(options[WRITE_POOL_BUNDLE].doesOccur) {
newPoolBundle = bundle_open(NULL, TRUE, &status);
if(U_FAILURE(status)) {
fprintf(stderr, "unable to create an empty bundle for the pool keys: %s\n", u_errorName(status));
return status;
} else {
const char *poolResName = "pool.res";
char *nameWithoutSuffix = uprv_malloc(uprv_strlen(poolResName) + 1);
if (nameWithoutSuffix == NULL) {
fprintf(stderr, "out of memory error\n");
return U_MEMORY_ALLOCATION_ERROR;
}
uprv_strcpy(nameWithoutSuffix, poolResName);
*uprv_strrchr(nameWithoutSuffix, '.') = 0;
newPoolBundle->fLocale = nameWithoutSuffix;
}
}
if(options[USE_POOL_BUNDLE].doesOccur) {
const char *poolResName = "pool.res";
FileStream *poolFile;
int32_t poolFileSize;
int32_t indexLength;
if (options[USE_POOL_BUNDLE].value!=NULL) {
uprv_strcpy(theCurrentFileName, options[USE_POOL_BUNDLE].value);
uprv_strcat(theCurrentFileName, U_FILE_SEP_STRING);
} else if (inputDir) {
uprv_strcpy(theCurrentFileName, inputDir);
uprv_strcat(theCurrentFileName, U_FILE_SEP_STRING);
} else {
*theCurrentFileName = 0;
}
uprv_strcat(theCurrentFileName, poolResName);
poolFile = T_FileStream_open(theCurrentFileName, "rb");
if (poolFile == NULL) {
fprintf(stderr, "unable to open pool bundle file %s\n", theCurrentFileName);
return 1;
}
poolFileSize = T_FileStream_size(poolFile);
if (poolFileSize < 32) {
fprintf(stderr, "the pool bundle file %s is too small\n", theCurrentFileName);
return 1;
}
poolBundle.fBytes = (uint8_t *)uprv_malloc((poolFileSize + 15) & ~15);
if (poolFileSize > 0 && poolBundle.fBytes == NULL) {
fprintf(stderr, "unable to allocate memory for the pool bundle file %s\n", theCurrentFileName);
return U_MEMORY_ALLOCATION_ERROR;
} else {
UDataSwapper *ds;
const DataHeader *header;
int32_t bytesRead = T_FileStream_read(poolFile, poolBundle.fBytes, poolFileSize);
int32_t keysBottom;
if (bytesRead != poolFileSize) {
fprintf(stderr, "unable to read the pool bundle file %s\n", theCurrentFileName);
return 1;
}
ds = udata_openSwapperForInputData(poolBundle.fBytes, bytesRead,
U_IS_BIG_ENDIAN, U_CHARSET_FAMILY, &status);
if (U_FAILURE(status)) {
fprintf(stderr, "udata_openSwapperForInputData(pool bundle %s) failed: %s\n",
theCurrentFileName, u_errorName(status));
return status;
}
ures_swap(ds, poolBundle.fBytes, bytesRead, poolBundle.fBytes, &status);
udata_closeSwapper(ds);
if (U_FAILURE(status)) {
fprintf(stderr, "ures_swap(pool bundle %s) failed: %s\n",
theCurrentFileName, u_errorName(status));
return status;
}
header = (const DataHeader *)poolBundle.fBytes;
if (header->info.formatVersion[0]!=2) {
fprintf(stderr, "invalid format of pool bundle file %s\n", theCurrentFileName);
return U_INVALID_FORMAT_ERROR;
}
poolBundle.fKeys = (const char *)header + header->dataHeader.headerSize;
poolBundle.fIndexes = (const int32_t *)poolBundle.fKeys + 1;
indexLength = poolBundle.fIndexes[URES_INDEX_LENGTH] & 0xff;
if (indexLength <= URES_INDEX_POOL_CHECKSUM) {
fprintf(stderr, "insufficient indexes[] in pool bundle file %s\n", theCurrentFileName);
return U_INVALID_FORMAT_ERROR;
}
keysBottom = (1 + indexLength) * 4;
poolBundle.fKeys += keysBottom;
poolBundle.fKeysLength = (poolBundle.fIndexes[URES_INDEX_KEYS_TOP] * 4) - keysBottom;
poolBundle.fChecksum = poolBundle.fIndexes[URES_INDEX_POOL_CHECKSUM];
}
for (i = 0; i < poolBundle.fKeysLength; ++i) {
if (poolBundle.fKeys[i] == 0) {
++poolBundle.fKeysCount;
}
}
T_FileStream_close(poolFile);
setUsePoolBundle(TRUE);
}
if(options[INCLUDE_UNIHAN_COLL].doesOccur) {
gIncludeUnihanColl = TRUE;
}
if((argc-1)!=1) {
printf("genrb number of files: %d\n", argc - 1);
}
for(i = 1; i < argc; ++i) {
status = U_ZERO_ERROR;
arg = getLongPathname(argv[i]);
if (inputDir) {
uprv_strcpy(theCurrentFileName, inputDir);
uprv_strcat(theCurrentFileName, U_FILE_SEP_STRING);
} else {
*theCurrentFileName = 0;
}
uprv_strcat(theCurrentFileName, arg);
if (isVerbose()) {
printf("Processing file \"%s\"\n", theCurrentFileName);
}
processFile(arg, encoding, inputDir, outputDir, gPackageName,
options[NO_BINARY_COLLATION].doesOccur,
&status);
}
uprv_free(poolBundle.fBytes);
if(options[WRITE_POOL_BUNDLE].doesOccur) {
char outputFileName[256];
bundle_write(newPoolBundle, outputDir, NULL, outputFileName, sizeof(outputFileName), &status);
bundle_close(newPoolBundle, &status);
if(U_FAILURE(status)) {
fprintf(stderr, "unable to write the pool bundle: %s\n", u_errorName(status));
}
}
if (U_SUCCESS(status)) {
return 0;
}
return status;
}
void
processFile(
const char *filename, const char *cp, const char *inputDir, const char *outputDir, const char *packageName,
UBool omitBinaryCollation, UErrorCode *status) {
struct SRBRoot *data = NULL;
UCHARBUF *ucbuf = NULL;
char *rbname = NULL;
char *openFileName = NULL;
char *inputDirBuf = NULL;
char outputFileName[256];
int32_t dirlen = 0;
int32_t filelen = 0;
if (status==NULL || U_FAILURE(*status)) {
return;
}
if(filename==NULL){
*status=U_ILLEGAL_ARGUMENT_ERROR;
return;
}else{
filelen = (int32_t)uprv_strlen(filename);
}
if(inputDir == NULL) {
const char *filenameBegin = uprv_strrchr(filename, U_FILE_SEP_CHAR);
openFileName = (char *) uprv_malloc(dirlen + filelen + 2);
openFileName[0] = '\0';
if (filenameBegin != NULL) {
int32_t filenameSize = (int32_t)(filenameBegin - filename + 1);
inputDirBuf = uprv_strncpy((char *)uprv_malloc(filenameSize), filename, filenameSize);
if(inputDirBuf == NULL) {
*status = U_MEMORY_ALLOCATION_ERROR;
goto finish;
}
inputDirBuf[filenameSize - 1] = 0;
inputDir = inputDirBuf;
dirlen = (int32_t)uprv_strlen(inputDir);
}
}else{
dirlen = (int32_t)uprv_strlen(inputDir);
if(inputDir[dirlen-1] != U_FILE_SEP_CHAR) {
openFileName = (char *) uprv_malloc(dirlen + filelen + 2);
if(openFileName == NULL) {
*status = U_MEMORY_ALLOCATION_ERROR;
goto finish;
}
openFileName[0] = '\0';
if( (filename[0] != U_FILE_SEP_CHAR) && (inputDir[dirlen-1] !='.')){
uprv_strcpy(openFileName, inputDir);
openFileName[dirlen] = U_FILE_SEP_CHAR;
}
openFileName[dirlen + 1] = '\0';
} else {
openFileName = (char *) uprv_malloc(dirlen + filelen + 1);
if(openFileName == NULL) {
*status = U_MEMORY_ALLOCATION_ERROR;
goto finish;
}
uprv_strcpy(openFileName, inputDir);
}
}
uprv_strcat(openFileName, filename);
ucbuf = ucbuf_open(openFileName, &cp,getShowWarning(),TRUE, status);
if(*status == U_FILE_ACCESS_ERROR) {
fprintf(stderr, "couldn't open file %s\n", openFileName == NULL ? filename : openFileName);
goto finish;
}
if (ucbuf == NULL || U_FAILURE(*status)) {
fprintf(stderr, "An error occured processing file %s. Error: %s\n", openFileName == NULL ? filename : openFileName,u_errorName(*status));
goto finish;
}
if (cp!=NULL && isVerbose()) {
printf("autodetected encoding %s\n", cp);
}
data = parse(ucbuf, inputDir, outputDir, !omitBinaryCollation, status);
if (data == NULL || U_FAILURE(*status)) {
fprintf(stderr, "couldn't parse the file %s. Error:%s\n", filename,u_errorName(*status));
goto finish;
}
if(options[WRITE_POOL_BUNDLE].doesOccur) {
int32_t newKeysLength;
const char *newKeys, *newKeysLimit;
bundle_compactKeys(data, status);
newKeys = bundle_getKeyBytes(data, &newKeysLength);
bundle_addKeyBytes(newPoolBundle, newKeys, newKeysLength, status);
if(U_FAILURE(*status)) {
fprintf(stderr, "bundle_compactKeys(%s) or bundle_getKeyBytes() failed: %s\n",
filename, u_errorName(*status));
goto finish;
}
for(newKeysLimit = newKeys + newKeysLength; newKeys < newKeysLimit; ++newKeys) {
if(*newKeys == 0) {
++newPoolBundle->fKeysCount;
}
}
}
if(options[USE_POOL_BUNDLE].doesOccur) {
data->fPoolBundleKeys = poolBundle.fKeys;
data->fPoolBundleKeysLength = poolBundle.fKeysLength;
data->fPoolBundleKeysCount = poolBundle.fKeysCount;
data->fPoolChecksum = poolBundle.fChecksum;
}
rbname = make_res_filename(filename, outputDir, packageName, status);
if(U_FAILURE(*status)) {
fprintf(stderr, "couldn't make the res fileName for bundle %s. Error:%s\n", filename,u_errorName(*status));
goto finish;
}
if(write_java== TRUE){
bundle_write_java(data,outputDir,outputEnc, outputFileName, sizeof(outputFileName),packageName,bundleName,status);
}else if(write_xliff ==TRUE){
bundle_write_xml(data,outputDir,outputEnc, filename, outputFileName, sizeof(outputFileName),language, xliffOutputFileName,status);
}else{
bundle_write(data, outputDir, packageName, outputFileName, sizeof(outputFileName), status);
}
if (U_FAILURE(*status)) {
fprintf(stderr, "couldn't write bundle %s. Error:%s\n", outputFileName,u_errorName(*status));
}
bundle_close(data, status);
finish:
if (inputDirBuf != NULL) {
uprv_free(inputDirBuf);
}
if (openFileName != NULL) {
uprv_free(openFileName);
}
if(ucbuf) {
ucbuf_close(ucbuf);
}
if (rbname) {
uprv_free(rbname);
}
}
static char*
make_res_filename(const char *filename,
const char *outputDir,
const char *packageName,
UErrorCode *status) {
char *basename;
char *dirname;
char *resName;
int32_t pkgLen = 0;
if (U_FAILURE(*status)) {
return 0;
}
if(packageName != NULL)
{
pkgLen = (int32_t)(1 + uprv_strlen(packageName));
}
basename = dirname = resName = 0;
basename = (char*) uprv_malloc(sizeof(char) * (uprv_strlen(filename) + 1));
if(basename == 0) {
*status = U_MEMORY_ALLOCATION_ERROR;
goto finish;
}
get_basename(basename, filename);
dirname = (char*) uprv_malloc(sizeof(char) * (uprv_strlen(filename) + 1));
if(dirname == 0) {
*status = U_MEMORY_ALLOCATION_ERROR;
goto finish;
}
get_dirname(dirname, filename);
if (outputDir == NULL) {
resName = (char*) uprv_malloc(sizeof(char) * (uprv_strlen(dirname)
+ pkgLen
+ uprv_strlen(basename)
+ uprv_strlen(RES_SUFFIX) + 8));
if(resName == 0) {
*status = U_MEMORY_ALLOCATION_ERROR;
goto finish;
}
uprv_strcpy(resName, dirname);
if(packageName != NULL)
{
uprv_strcat(resName, packageName);
uprv_strcat(resName, "_");
}
uprv_strcat(resName, basename);
} else {
int32_t dirlen = (int32_t)uprv_strlen(outputDir);
int32_t basenamelen = (int32_t)uprv_strlen(basename);
resName = (char*) uprv_malloc(sizeof(char) * (dirlen + pkgLen + basenamelen + 8));
if (resName == NULL) {
*status = U_MEMORY_ALLOCATION_ERROR;
goto finish;
}
uprv_strcpy(resName, outputDir);
if(outputDir[dirlen] != U_FILE_SEP_CHAR) {
resName[dirlen] = U_FILE_SEP_CHAR;
resName[dirlen + 1] = '\0';
}
if(packageName != NULL)
{
uprv_strcat(resName, packageName);
uprv_strcat(resName, "_");
}
uprv_strcat(resName, basename);
}
finish:
uprv_free(basename);
uprv_free(dirname);
return resName;
}