static struct JT *
copy_dict (struct JT *jt1)
{
struct JT *jt2;
jt2 = (struct JT *) malloc (sizeof (struct JT));
*jt2 = *jt1;
if (alloc_dict (jt2) == -1)
{
free (jt2);
return (NULL);
}
bcopy (jt1->hindo, jt2->hindo, jt1->maxserial);
bcopy (jt1->hinsi, jt2->hinsi, jt1->maxserial * 2);
#ifdef CONVERT_with_SiSheng
if (jt1->syurui == CWNN_REV_DICT) /* Chinese PinYin dic only */
bcopy (jt1->sisheng, jt2->sisheng, jt1->maxserial * 2);
#endif /* CONVERT_with_SiSheng */
bcopy (jt1->kanji, jt2->kanji, jt1->maxkanji);
bcopy (jt1->table, jt2->table, jt1->maxtable * sizeof (struct uind1));
bcopy (jt1->hontai, jt2->hontai, jt1->maxhontai);
bcopy (jt1->comment, jt2->comment, jt1->maxcomment * sizeof (w_char));
bcopy (jt1->hinsi_list, jt2->hinsi_list, jt1->maxhinsi_list * sizeof (w_char));
bcopy (jt1->ri2, jt2->ri2, jt1->maxri2 * sizeof (struct rind2));
bcopy (jt1->ri1[D_YOMI], jt2->ri1[D_YOMI], jt1->maxri1[D_YOMI] * sizeof (struct rind1));
bcopy (jt1->ri1[D_KANJI], jt2->ri1[D_KANJI], jt1->maxri1[D_KANJI] * sizeof (struct rind1));
return (jt2);
}
/* Initialize database tables
*/
int
inittab()
{
register int dbt_lc; /* loop control */
register INT i, j;
int key_offset = 0, key_count;
char dbfile[DtSrFILENMLEN], dbd_ver[DBD_COMPAT_LEN + 1];
char dbname[FILENMLEN]; /* Temporary working space */
int dbf;
FILE_ENTRY FAR *file_ptr;
FIELD_ENTRY FAR *fld_ptr;
#ifndef ONE_DB
#define DB_ENABLE 1
#else
#define DB_ENABLE 0
#endif
#ifndef NO_TIMESTAMP
#define TS_ENABLE 1
#else
#define TS_ENABLE 0
#endif
#if DB_ENABLE | TS_ENABLE
RECORD_ENTRY FAR *rec_ptr;
SET_ENTRY FAR *set_ptr;
#endif
#ifndef ONE_DB
MEMBER_ENTRY FAR *mem_ptr;
SORT_ENTRY FAR *srt_ptr;
KEY_ENTRY FAR *key_ptr;
#endif
#ifndef NO_TIMESTAMP
db_tsrecs = db_tssets = FALSE;
#endif
size_ft = size_rt = size_st = size_mt = size_srt = size_fd = size_kt = 0;
/* compute individual dictionary sizes and offsets */
#ifndef ONE_DB
for (dbt_lc = 0, curr_db_table = &db_table[old_no_of_dbs];
dbt_lc < no_of_dbs; ++dbt_lc, ++curr_db_table) {
#endif
/* form database dictionary name */
if ( DB_REF(db_path[0]) )
strcpy(dbname, DB_REF(db_path));
else
dbname[0] = '\0';
#ifdef DEBUG_INITTAB
if (debugging_inittab) {
printf (__FILE__"100 inittab: path='%s' dbname='%s'\n",
dbname, DB_REF(db_name));
fflush (stdout);
}
#endif
if (strlen(dbname) + strlen(DB_REF(db_name)) >= FILENMLEN+4)
return( dberr(S_NAMELEN) );
strcat(dbname, DB_REF(db_name));
if (con_dbd(dbfile, dbname, get_element(dbdpath, dbt_lc)) != S_OKAY)
return( dberr(db_status) );
/*----------------- PASS 1 -------------------
* In this first pass, only opening to determine
* required table sizes, so opening read-only is ok.
*/
if ( (dbf = open_b(dbfile, O_RDONLY)) < 0 )
return( dberr( S_INVDB ) );
/* Read in and verify the dictionary version */
DB_READ(dbf, dbd_ver, DBD_COMPAT_LEN);
dbd_ver[DBD_COMPAT_LEN] = '\0';
for ( i=0; i<size_compat; i++ ) {
if ( strcmp( dbd_ver, compat_dbd[i] ) == 0 ) goto goodver;
}
/* Incompatible dictionary file */
close( dbf );
return( dberr( S_INCOMPAT ) );
goodver:
/* Read in database page size */
DB_READ(dbf, (char FAR *)&DB_REF(Page_size), sizeof(INT));
NTOHS (DB_REF(Page_size));
/* Read in table sizes */
DB_READ(dbf, (char FAR *)&DB_REF(Size_ft), sizeof(INT));
NTOHS (DB_REF(Size_ft));
DB_READ(dbf, (char FAR *)&DB_REF(Size_rt), sizeof(INT));
NTOHS (DB_REF(Size_rt));
DB_READ(dbf, (char FAR *)&DB_REF(Size_fd), sizeof(INT));
NTOHS (DB_REF(Size_fd));
DB_READ(dbf, (char FAR *)&DB_REF(Size_st), sizeof(INT));
NTOHS (DB_REF(Size_st));
DB_READ(dbf, (char FAR *)&DB_REF(Size_mt), sizeof(INT));
NTOHS (DB_REF(Size_mt));
DB_READ(dbf, (char FAR *)&DB_REF(Size_srt), sizeof(INT));
NTOHS (DB_REF(Size_srt));
DB_READ(dbf, (char FAR *)&DB_REF(Size_kt), sizeof(INT));
NTOHS (DB_REF(Size_kt));
close(dbf); /* end of PASS 1 */
#ifdef DEBUG_INITTAB
if (debugging_inittab) {
printf (__FILE__"152 sizes: pg=%d ft=%d rt=%d fd=%d\n"
" st=%d mt=%d srt=%d kt=%d\n",
(int) DB_REF(Page_size),
(int) DB_REF(Size_ft),
(int) DB_REF(Size_rt),
(int) DB_REF(Size_fd),
(int) DB_REF(Size_st),
(int) DB_REF(Size_mt),
(int) DB_REF(Size_srt),
(int) DB_REF(Size_kt)
);
fflush (stdout);
}
#endif
DB_REF(sysdba) = NULL_DBA;
#ifndef ONE_DB
/* update merged dictionary offsets and sizes */
if ( curr_db_table->Page_size > page_size ) {
page_size = curr_db_table->Page_size;
#ifdef DEBUG_INITTAB
if (debugging_inittab) {
printf (__FILE__"191 db's page_size-->%d (largest = %d)\n",
(int)page_size, (int)largest_page);
fflush(stdout);
}
#endif
}
curr_db_table->ft_offset = size_ft;
size_ft += curr_db_table->Size_ft;
curr_db_table->rt_offset = size_rt;
size_rt += curr_db_table->Size_rt;
curr_db_table->fd_offset = size_fd;
size_fd += curr_db_table->Size_fd;
curr_db_table->st_offset = size_st;
size_st += curr_db_table->Size_st;
curr_db_table->mt_offset = size_mt;
size_mt += curr_db_table->Size_mt;
curr_db_table->srt_offset = size_srt;
size_srt += curr_db_table->Size_srt;
curr_db_table->kt_offset = size_kt;
size_kt += curr_db_table->Size_kt;
}
#endif
/* allocate dictionary space */
if ( alloc_dict() != S_OKAY ) return( db_status );
/* read in and adjust dictionary entries for each database */
#ifndef ONE_DB
for (dbt_lc = 0, curr_db_table = &db_table[old_no_of_dbs];
dbt_lc < no_of_dbs;
++dbt_lc, ++curr_db_table) {
#endif
/* form database dictionary name */
if ( DB_REF(db_path[0]) )
strcpy(dbname, DB_REF(db_path));
else
dbname[0] = '\0';
if (strlen(dbname) + strlen(DB_REF(db_name)) >= FILENMLEN+4)
return( dberr(S_NAMELEN) );
strcat(dbname,DB_REF(db_name));
if (con_dbd(dbfile,dbname,get_element(dbdpath, dbt_lc)) != S_OKAY)
return( dberr(db_status) );
#ifdef DEBUG_INITTAB
if (dump_init_tables) {
printf (__FILE__"247 Tables for database '%s':\n", dbfile);
fflush (stdout);
}
#endif
/*----------------- PASS 2 -------------------
* Second pass just loads allocated tables,
* so opening .dbd file read-only is still ok.
*/
dbf = open_b (dbfile, O_RDONLY);
DB_LSEEK(dbf, DBD_COMPAT_LEN + 8L*sizeof(INT), 0);
/*----------------- FILE TABLE -------------------*/
DB_READ(dbf, (char FAR *)&file_table[ORIGIN(ft_offset)],
(DB_REF(Size_ft)*sizeof(FILE_ENTRY)));
/* Invalid if sizeof(xxxx_ENTRY) diff on each machine */
for ( i = 0, file_ptr = &file_table[ORIGIN(ft_offset)];
i < DB_REF(Size_ft);
i++, file_ptr++) {
/* Byte swap each INT on LITTLE_ENDIAN machines */
NTOHS (file_ptr->ft_slots);
NTOHS (file_ptr->ft_slsize);
NTOHS (file_ptr->ft_pgsize);
NTOHS (file_ptr->ft_flags);
#ifdef DEBUG_INITTAB
if (dump_init_tables) {
printf (" FILE#%d: ty=%c slts=%2d slsz=%3d pgsz=%d '%s'\n",
(int)i,
file_ptr->ft_type,
(int)file_ptr->ft_slots,
(int)file_ptr->ft_slsize,
(int)file_ptr->ft_pgsize,
file_ptr->ft_name);
fflush (stdout);
}
#endif
}
/*----------------- RECORD TABLE -------------------*/
DB_READ(dbf, (char FAR *)&record_table[ORIGIN(rt_offset)],
(DB_REF(Size_rt)*sizeof(RECORD_ENTRY)));
for ( i = 0, rec_ptr = &record_table[ORIGIN(rt_offset)];
i < DB_REF(Size_rt);
i++, rec_ptr++) {
/* Byte swap each INT on LITTLE_ENDIAN machines */
NTOHS (rec_ptr->rt_file);
NTOHS (rec_ptr->rt_len);
NTOHS (rec_ptr->rt_data);
NTOHS (rec_ptr->rt_fields);
NTOHS (rec_ptr->rt_fdtot);
NTOHS (rec_ptr->rt_flags);
#ifdef DEBUG_INITTAB
if (dump_init_tables) {
printf (
" REC #%d: fil=%d len=%3d data=%2d fld1=%2d flds=%2d\n",
(int)i,
(int)rec_ptr->rt_file,
(int)rec_ptr->rt_len,
(int)rec_ptr->rt_data,
(int)rec_ptr->rt_fields,
(int)rec_ptr->rt_fdtot);
fflush (stdout);
}
#endif
}
/*----------------- FIELD TABLE -------------------*/
DB_READ(dbf, (char FAR *)&field_table[ORIGIN(fd_offset)],
(DB_REF(Size_fd)*sizeof(FIELD_ENTRY)));
for ( i = 0, fld_ptr = &field_table[ORIGIN(fd_offset)];
i < DB_REF(Size_fd);
i++, fld_ptr++) {
/* Byte swap each INT on LITTLE_ENDIAN machines */
NTOHS (fld_ptr->fd_len);
NTOHS (fld_ptr->fd_keyfile);
NTOHS (fld_ptr->fd_keyno);
NTOHS (fld_ptr->fd_ptr);
NTOHS (fld_ptr->fd_rec);
NTOHS (fld_ptr->fd_flags);
for (j=0; j<MAXDIMS; j++)
NTOHS (fld_ptr->fd_dim[j]);
#ifdef DEBUG_INITTAB
if (dump_init_tables) {
if (i == 0)
puts (" key typ len kfil key# ofs rec# flg dims");
printf (
" FLD#%2d %c %c %3d %d %d %3d %d %x",
(int)i,
fld_ptr->fd_key,
fld_ptr->fd_type,
(int)fld_ptr->fd_len,
(int)fld_ptr->fd_keyfile,
(int)fld_ptr->fd_keyno,
(int)fld_ptr->fd_ptr,
(int)fld_ptr->fd_rec,
(int)fld_ptr->fd_flags);
for (j=0; j<MAXDIMS; j++)
if (fld_ptr->fd_dim[j])
printf (" %d:%d", j, (int)fld_ptr->fd_dim[j]);
putchar ('\n');
fflush (stdout);
}
#endif
}
/*----------------- SET TABLE -------------------*/
DB_READ(dbf, (char FAR *)&set_table[ORIGIN(st_offset)],
(DB_REF(Size_st)*sizeof(SET_ENTRY)));
for ( i = 0, set_ptr = &set_table[ORIGIN(st_offset)];
i < DB_REF(Size_st);
i++, set_ptr++) {
/* Byte swap each INT on LITTLE_ENDIAN machines */
NTOHS (set_ptr->st_order);
NTOHS (set_ptr->st_own_rt);
NTOHS (set_ptr->st_own_ptr);
NTOHS (set_ptr->st_members);
NTOHS (set_ptr->st_memtot);
NTOHS (set_ptr->st_flags);
#ifdef DEBUG_INITTAB
if (dump_init_tables) {
printf (
" SET #%d: ord=%c owner=%d ownofs=%2d mem1=%d mems=%d\n",
(int)i,
(char)set_ptr->st_order,
(int)set_ptr->st_own_rt,
(int)set_ptr->st_own_ptr,
(int)set_ptr->st_members,
(int)set_ptr->st_memtot);
fflush (stdout);
}
#endif
}
/*----------------- MEMBER TABLE -------------------*/
DB_READ(dbf, (char FAR *)&member_table[ORIGIN(mt_offset)],
(DB_REF(Size_mt)*sizeof(MEMBER_ENTRY)));
for ( i = 0, mem_ptr = &member_table[ORIGIN(mt_offset)];
i < DB_REF(Size_mt);
i++, mem_ptr++) {
/* Byte swap each INT on LITTLE_ENDIAN machines */
NTOHS (mem_ptr->mt_record);
NTOHS (mem_ptr->mt_mem_ptr);
NTOHS (mem_ptr->mt_sort_fld);
NTOHS (mem_ptr->mt_totsf);
#ifdef DEBUG_INITTAB
if (dump_init_tables) {
printf (
" MEM #%d: rec=%d ofs=%d sort1=%d sorts=%d\n",
(int)i,
(int)mem_ptr->mt_record,
(int)mem_ptr->mt_mem_ptr,
(int)mem_ptr->mt_sort_fld,
(int)mem_ptr->mt_totsf);
fflush (stdout);
}
#endif
}
DB_READ(dbf, (char FAR *)&sort_table[ORIGIN(srt_offset)],
(DB_REF(Size_srt)*sizeof(SORT_ENTRY)));
/* Member sort tables not used by DtSearch @@@ */
if (DB_REF(Size_srt)) {
/* Byte swap each INT on LITTLE_ENDIAN machines */
srt_ptr = &sort_table[ORIGIN(srt_offset)];
NTOHS (srt_ptr->se_fld);
NTOHS (srt_ptr->se_set);
}
DB_READ(dbf, (char FAR *)&key_table[ORIGIN(kt_offset)],
(DB_REF(Size_kt)*sizeof(KEY_ENTRY)));
/* Compound key tables not used by DtSearch @@@ */
if (DB_REF(Size_kt)) {
/* Byte swap each INT on LITTLE_ENDIAN machines */
key_ptr = &key_table[ORIGIN(kt_offset)];
NTOHS (key_ptr->kt_key);
NTOHS (key_ptr->kt_field);
NTOHS (key_ptr->kt_ptr);
NTOHS (key_ptr->kt_sort);
}
close(dbf); /* end of PASS 2 */
#ifdef DEBUG_INITTAB
dump_init_tables = FALSE;
#endif
#ifndef ONE_DB
curr_db_table->key_offset = key_offset;
#endif
/* update file table path entries */
if ( DB_REF(db_path[0]) || dbfpath[0] ) {
for (i = 0, file_ptr = &file_table[ORIGIN(ft_offset)];
i < DB_REF(Size_ft);
++i, ++file_ptr) {
/* Construct the data/key file name */
if ( DB_REF(db_path[0]) )
strcpy(dbname, DB_REF(db_path));
else
dbname[0] = '\0';
if (strlen(dbname) + strlen(DB_REF(db_name)) >= FILENMLEN+4)
return( dberr(S_NAMELEN) );
strcat(dbname, DB_REF(db_name));
if (con_dbf(dbfile, file_ptr->ft_name, dbname,
get_element(dbfpath, dbt_lc)) != S_OKAY)
return( dberr(db_status) );
/* Save new name in dictionary */
strcpy(file_ptr->ft_name, dbfile);
}
}
#if DB_ENABLE | TS_ENABLE
/* adjust record table entries */
for (i = ORIGIN(rt_offset), rec_ptr = &record_table[ORIGIN(rt_offset)];
i < ORIGIN(rt_offset) + DB_REF(Size_rt);
++i, ++rec_ptr) {
#ifndef ONE_DB
rec_ptr->rt_file += curr_db_table->ft_offset;
rec_ptr->rt_fields += curr_db_table->fd_offset;
#endif
#ifndef NO_TIMESTAMP
if ( rec_ptr->rt_flags & TIMESTAMPED ) {
db_tsrecs = TRUE;
#ifdef ONE_DB
break;
#endif
}
#endif
}
#endif
/* adjust field table entries */
for (key_count = 0, i = ORIGIN(fd_offset),
fld_ptr = &field_table[ORIGIN(fd_offset)];
i < ORIGIN(fd_offset) + DB_REF(Size_fd);
++i, ++fld_ptr) {
#ifndef ONE_DB
fld_ptr->fd_rec += curr_db_table->rt_offset;
#endif
if ( fld_ptr->fd_key != NOKEY ) {
fld_ptr->fd_keyno += key_offset;
++key_count;
#ifndef ONE_DB
fld_ptr->fd_keyfile += curr_db_table->ft_offset;
if ( fld_ptr->fd_type == 'k' )
fld_ptr->fd_ptr += curr_db_table->kt_offset;
#endif
}
}
key_offset += key_count;
#if DB_ENABLE | TS_ENABLE
/* adjust set table entries */
for (i = ORIGIN(st_offset), set_ptr = &set_table[ORIGIN(st_offset)];
i < ORIGIN(st_offset) + DB_REF(Size_st);
++i, ++set_ptr) {
#ifndef ONE_DB
set_ptr->st_own_rt += curr_db_table->rt_offset;
set_ptr->st_members += curr_db_table->mt_offset;
#endif
#ifndef NO_TIMESTAMP
if ( set_ptr->st_flags & TIMESTAMPED ) {
db_tssets = TRUE;
#ifdef ONE_DB
break;
#endif
}
#endif
}
#endif
#ifndef ONE_DB
/* adjust member table entries */
for (i = curr_db_table->mt_offset,
mem_ptr = &member_table[curr_db_table->mt_offset];
i < curr_db_table->mt_offset + curr_db_table->Size_mt;
++i, ++mem_ptr) {
mem_ptr->mt_record += curr_db_table->rt_offset;
mem_ptr->mt_sort_fld += curr_db_table->srt_offset;
}
/* adjust sort table entries */
for (i = curr_db_table->srt_offset,
srt_ptr = &sort_table[curr_db_table->srt_offset];
i < curr_db_table->srt_offset + curr_db_table->Size_srt;
++i, ++srt_ptr) {
srt_ptr->se_fld += curr_db_table->fd_offset;
srt_ptr->se_set += curr_db_table->st_offset;
}
/* adjust key table entries */
for (i = curr_db_table->kt_offset,
key_ptr = &key_table[curr_db_table->kt_offset];
i < curr_db_table->kt_offset + curr_db_table->Size_kt;
++i, ++key_ptr) {
key_ptr->kt_key += curr_db_table->fd_offset;
key_ptr->kt_field += curr_db_table->fd_offset;
}
} /* end loop for each database */
#endif
initcurr();
return( db_status );
}
static struct JT *
readdict (FILE *fp)
{
struct JT *jt1;
long x;
jt1 = (struct JT *) malloc (sizeof (struct JT));
jt1->node = 0;
if (input_header_jt (fp, jt1) == -1)
{
wnn_errorno = WNN_NOT_A_FILE;
free (jt1);
return (NULL);
}
if (jt1->syurui == WNN_UD_DICT)
{
jt1->bufsize_serial = (jt1->maxserial + MAXSERIAL);
jt1->bufsize_kanji = (jt1->maxkanji + MAXKANJI);
jt1->bufsize_hontai = (jt1->maxhontai + MAXHONTAI);
jt1->bufsize_table = (jt1->maxtable + MAXTABLE);
jt1->bufsize_ri1[D_YOMI] = 0;
jt1->bufsize_ri1[D_KANJI] = 0;
#if defined(CONVERT_by_STROKE) || defined(CONVERT_with_SiSheng)
}
else if ((jt1->syurui & 0xff) == WNN_REV_DICT)
{
#else
}
else if (jt1->syurui == WNN_REV_DICT)
{
#endif /* CONVERT_by_STROKE || CONVERT_with_SiSheng */
jt1->bufsize_serial = (jt1->maxserial + MAXSERIAL);
jt1->bufsize_kanji = (jt1->maxkanji + MAXKANJI);
jt1->bufsize_hontai = (jt1->maxhontai + MAXHONTAI);
jt1->bufsize_table = 0;
jt1->bufsize_ri1[D_YOMI] = (jt1->maxri1[D_YOMI] + MAXTABLE);
jt1->bufsize_ri1[D_KANJI] = (jt1->maxri1[D_KANJI] + MAXTABLE);
}
else if (jt1->syurui == WNN_STATIC_DICT)
{ /* WNN_STATIC_DICT */
jt1->bufsize_serial = jt1->maxserial;
jt1->bufsize_kanji = jt1->maxkanji;
jt1->bufsize_hontai = jt1->maxhontai;
jt1->bufsize_table = 0;
jt1->bufsize_ri1[D_YOMI] = 0;
jt1->bufsize_ri1[D_KANJI] = 0;
}
else
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
free (jt1);
return (NULL);
}
if (alloc_dict (jt1) == -1)
{
free (jt1);
return (NULL);
}
if (vfread (jt1->comment, 2, jt1->maxcomment, fp) != jt1->maxcomment)
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
if (vfread (jt1->hinsi_list, 2, jt1->maxhinsi_list, fp) != jt1->maxhinsi_list)
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
if (vfread (jt1->hindo, 1, jt1->maxserial, fp) != jt1->maxserial)
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
if (vfread (jt1->hinsi, 2, jt1->maxserial, fp) != jt1->maxserial)
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
#ifdef CONVERT_with_SiSheng
if (jt1->syurui == CWNN_REV_DICT)
if (vfread (jt1->sisheng, 2, jt1->maxserial, fp) != jt1->maxserial)
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
#endif /* CONVERT_with_SiSheng */
if (vfread (jt1->kanji, 1, jt1->maxkanji, fp) != jt1->maxkanji)
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
if (vfread (jt1->table, sizeof (struct uind1), jt1->maxtable, fp) != jt1->maxtable)
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
if (vfread (jt1->ri1[D_YOMI], sizeof (struct rind1), jt1->maxri1[D_YOMI], fp) != jt1->maxri1[D_YOMI])
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
if (vfread (jt1->ri1[D_KANJI], sizeof (struct rind1), jt1->maxri1[D_KANJI], fp) != jt1->maxri1[D_KANJI])
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
if (vfread (jt1->hontai, 1, jt1->maxhontai, fp) != jt1->maxhontai)
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
if (vfread (jt1->ri2, sizeof (struct rind2), jt1->maxri2, fp) != jt1->maxri2)
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
if (fp != NULL)
{
x = ftell (fp);
fseek (fp, 0, 2);
if (x != ftell (fp))
{
wnn_errorno = WNN_NOT_A_DICT;
log_err ("not a correct dictionary.");
goto error;
}
}
make_hinsi_list (jt1);
if (jt1->maxhontai == 0 && (jt1->syurui == WNN_UD_DICT || jt1->syurui == WNN_STATIC_DICT))
{
jt1->maxhontai = 4;
}
if (little_endian ())
{
revdic (jt1, 0);
}
jt1->dirty = 0;
jt1->hdirty = 0;
#ifdef CONVERT_by_STROKE
if (jt1->syurui == BWNN_REV_DICT)
if ((jt1->max_bnode = create_b_index (jt1)) == -1)
{
goto error;
}
#endif /* CONVERT_by_STROKE */
return (jt1);
error:
jt1 = free_dict (jt1);
return (NULL);
}
