/* Copyright (C) 1995, 1996, 1997, 1998, 1999 Free Software Foundation, Inc. This file is part of the GNU C Library. Contributed by Ulrich Drepper , 1995. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with the GNU C Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifdef HAVE_CONFIG_H # include #endif #include #include #include #include #include #include #include #include "linereader.h" #include "localedef.h" #include "localeinfo.h" #include "locfile.h" /* The real definition of the struct for the LC_MONETARY locale. */ struct locale_monetary_t { const char *int_curr_symbol; const char *currency_symbol; const char *mon_decimal_point; const char *mon_thousands_sep; char *mon_grouping; size_t mon_grouping_len; const char *positive_sign; const char *negative_sign; signed char int_frac_digits; signed char frac_digits; signed char p_cs_precedes; signed char p_sep_by_space; signed char n_cs_precedes; signed char n_sep_by_space; signed char p_sign_posn; signed char n_sign_posn; signed char int_p_cs_precedes; signed char int_p_sep_by_space; signed char int_n_cs_precedes; signed char int_n_sep_by_space; signed char int_p_sign_posn; signed char int_n_sign_posn; const char *duo_int_curr_symbol; const char *duo_currency_symbol; signed char duo_int_frac_digits; signed char duo_frac_digits; signed char duo_p_cs_precedes; signed char duo_p_sep_by_space; signed char duo_n_cs_precedes; signed char duo_n_sep_by_space; signed char duo_p_sign_posn; signed char duo_n_sign_posn; signed char duo_int_p_cs_precedes; signed char duo_int_p_sep_by_space; signed char duo_int_n_cs_precedes; signed char duo_int_n_sep_by_space; signed char duo_int_p_sign_posn; signed char duo_int_n_sign_posn; uint32_t uno_valid_from; uint32_t uno_valid_to; uint32_t duo_valid_from; uint32_t duo_valid_to; uint32_t conversion_rate[2]; }; /* The content iof the field int_curr_symbol has to be taken from ISO-4217. We test for correct values. */ #define DEFINE_INT_CURR(str) str, static const char *const valid_int_curr[] = { # include "../iso-4217.def" }; #define NR_VALID_INT_CURR ((sizeof (valid_int_curr) \ / sizeof (valid_int_curr[0]))) #undef DEFINE_INT_CURR /* Prototypes for local functions. */ static int curr_strcmp (const char *s1, const char **s2); static void monetary_startup (struct linereader *lr, struct localedef_t *locale, int ignore_content) { if (!ignore_content) { struct locale_monetary_t *monetary; locale->categories[LC_MONETARY].monetary = monetary = (struct locale_monetary_t *) xmalloc (sizeof (*monetary)); memset (monetary, '\0', sizeof (struct locale_monetary_t)); monetary->mon_grouping = NULL; monetary->mon_grouping_len = 0; monetary->int_frac_digits = -2; monetary->frac_digits = -2; monetary->p_cs_precedes = -2; monetary->p_sep_by_space = -2; monetary->n_cs_precedes = -2; monetary->n_sep_by_space = -2; monetary->p_sign_posn = -2; monetary->n_sign_posn = -2; monetary->int_p_cs_precedes = -2; monetary->int_p_sep_by_space = -2; monetary->int_n_cs_precedes = -2; monetary->int_n_sep_by_space = -2; monetary->int_p_sign_posn = -2; monetary->int_n_sign_posn = -2; monetary->duo_int_frac_digits = -2; monetary->duo_frac_digits = -2; monetary->duo_p_cs_precedes = -2; monetary->duo_p_sep_by_space = -2; monetary->duo_n_cs_precedes = -2; monetary->duo_n_sep_by_space = -2; monetary->duo_p_sign_posn = -2; monetary->duo_n_sign_posn = -2; monetary->duo_int_p_cs_precedes = -2; monetary->duo_int_p_sep_by_space = -2; monetary->duo_int_n_cs_precedes = -2; monetary->duo_int_n_sep_by_space = -2; monetary->duo_int_p_sign_posn = -2; monetary->duo_int_n_sign_posn = -2; } if (lr != NULL) { lr->translate_strings = 1; lr->return_widestr = 0; } } void monetary_finish (struct localedef_t *locale, struct charmap_t *charmap) { struct locale_monetary_t *monetary = locale->categories[LC_MONETARY].monetary; int nothing = 0; /* Now resolve copying and also handle completely missing definitions. */ if (monetary == NULL) { /* First see whether we were supposed to copy. If yes, find the actual definition. */ if (locale->copy_name[LC_MONETARY] != NULL) { /* Find the copying locale. This has to happen transitively since the locale we are copying from might also copying another one. */ struct localedef_t *from = locale; do from = find_locale (LC_MONETARY, from->copy_name[LC_MONETARY], from->repertoire_name, charmap); while (from->categories[LC_MONETARY].monetary == NULL && from->copy_name[LC_MONETARY] != NULL); monetary = locale->categories[LC_MONETARY].monetary = from->categories[LC_MONETARY].monetary; } /* If there is still no definition issue an warning and create an empty one. */ if (monetary == NULL) { error (0, 0, _("No definition for %s category found"), "LC_MONETARY"); monetary_startup (NULL, locale, 0); monetary = locale->categories[LC_MONETARY].monetary; nothing = 1; } } #define TEST_ELEM(cat) \ if (monetary->cat == NULL && !be_quiet) \ { \ if (! nothing) \ error (0, 0, _("%s: field `%s' not defined"), \ "LC_MONETARY", #cat); \ monetary->cat = ""; \ } TEST_ELEM (int_curr_symbol); TEST_ELEM (currency_symbol); TEST_ELEM (mon_decimal_point); TEST_ELEM (mon_thousands_sep); TEST_ELEM (positive_sign); TEST_ELEM (negative_sign); /* The international currency symbol must come from ISO 4217. */ if (monetary->int_curr_symbol != NULL) { if (strlen (monetary->int_curr_symbol) != 4) { if (!be_quiet) error (0, 0, _("\ %s: value of field `int_curr_symbol' has wrong length"), "LC_MONETARY"); } else if (bsearch (monetary->int_curr_symbol, valid_int_curr, NR_VALID_INT_CURR, sizeof (const char *), (comparison_fn_t) curr_strcmp) == NULL && !be_quiet) error (0, 0, _("\ %s: value of field `int_curr_symbol' does \ not correspond to a valid name in ISO 4217"), "LC_MONETARY"); } /* The decimal point must not be empty. This is not said explicitly in POSIX but ANSI C (ISO/IEC 9899) says in 4.4.2.1 it has to be != "". */ if (monetary->mon_decimal_point[0] == '\0' && ! be_quiet && ! nothing) { error (0, 0, _("\ %s: value for field `%s' must not be the empty string"), "LC_MONETARY", "mon_decimal_point"); } if (monetary->mon_grouping_len == 0 && ! be_quiet && ! nothing) error (0, 0, _("%s: field `%s' not defined"), "LC_MONETARY", "mon_grouping"); #undef TEST_ELEM #define TEST_ELEM(cat, min, max) \ if (monetary->cat == -2 && ! be_quiet && ! nothing) \ error (0, 0, _("%s: field `%s' not defined"), \ "LC_MONETARY", #cat); \ else if ((monetary->cat < min || monetary->cat > max) && !be_quiet) \ error (0, 0, _("\ %s: value for field `%s' must be in range %d...%d"), \ "LC_MONETARY", #cat, min, max) #if 0 /* The following two test are not really necessary because all values the variable could have are valid. */ TEST_ELEM (int_frac_digits, -128, 127); /* No range check. */ TEST_ELEM (frac_digits, -128, 127); /* No range check. */ #endif TEST_ELEM (p_cs_precedes, -1, 1); TEST_ELEM (p_sep_by_space, -1, 2); TEST_ELEM (n_cs_precedes, -1, 1); TEST_ELEM (n_sep_by_space, -1, 2); TEST_ELEM (p_sign_posn, -1, 4); TEST_ELEM (n_sign_posn, -1, 4); /* The non-POSIX.2 extensions are optional. */ if (monetary->duo_int_curr_symbol == NULL) monetary->duo_int_curr_symbol = monetary->int_curr_symbol; if (monetary->duo_currency_symbol == NULL) monetary->duo_currency_symbol = monetary->currency_symbol; if (monetary->duo_int_frac_digits == -2) monetary->duo_int_frac_digits = monetary->int_frac_digits; if (monetary->duo_frac_digits == -2) monetary->duo_frac_digits = monetary->frac_digits; #undef TEST_ELEM #define TEST_ELEM(cat, alt, min, max) \ if (monetary->cat == -2) \ monetary->cat = monetary->alt; \ else if ((monetary->cat < min || monetary->cat > max) && !be_quiet \ && ! nothing) \ error (0, 0, _("\ %s: value for field `%s' must be in range %d...%d"), \ "LC_MONETARY", #cat, min, max) TEST_ELEM (int_p_cs_precedes, p_cs_precedes, -1, 1); TEST_ELEM (int_p_sep_by_space, p_sep_by_space, -1, 2); TEST_ELEM (int_n_cs_precedes, n_cs_precedes, -1, 1); TEST_ELEM (int_n_sep_by_space, n_sep_by_space, -1, 2); TEST_ELEM (int_p_sign_posn, p_sign_posn, -1, 4); TEST_ELEM (int_n_sign_posn, n_sign_posn, -1, 4); TEST_ELEM (duo_p_cs_precedes, p_cs_precedes, -1, 1); TEST_ELEM (duo_p_sep_by_space, p_sep_by_space, -1, 2); TEST_ELEM (duo_n_cs_precedes, n_cs_precedes, -1, 1); TEST_ELEM (duo_n_sep_by_space, n_sep_by_space, -1, 2); TEST_ELEM (duo_int_p_cs_precedes, int_p_cs_precedes, -1, 1); TEST_ELEM (duo_int_p_sep_by_space, int_p_sep_by_space, -1, 2); TEST_ELEM (duo_int_n_cs_precedes, int_n_cs_precedes, -1, 1); TEST_ELEM (duo_int_n_sep_by_space, int_n_sep_by_space, -1, 2); TEST_ELEM (duo_p_sign_posn, p_sign_posn, -1, 4); TEST_ELEM (duo_n_sign_posn, n_sign_posn, -1, 4); TEST_ELEM (duo_int_p_sign_posn, int_p_sign_posn, -1, 4); TEST_ELEM (duo_int_n_sign_posn, int_n_sign_posn, -1, 4); if (monetary->uno_valid_from == 0) monetary->uno_valid_from = 10101; if (monetary->uno_valid_to == 0) monetary->uno_valid_to = 99991231; if (monetary->duo_valid_from == 0) monetary->duo_valid_from = 10101; if (monetary->duo_valid_to == 0) monetary->duo_valid_to = 99991231; if (monetary->conversion_rate[0] == 0) { monetary->conversion_rate[0] = 1; monetary->conversion_rate[1] = 1; } } void monetary_output (struct localedef_t *locale, struct charmap_t *charmap, const char *output_path) { struct locale_monetary_t *monetary = locale->categories[LC_MONETARY].monetary; struct iovec iov[2 + _NL_ITEM_INDEX (_NL_NUM_LC_MONETARY)]; struct locale_file data; uint32_t idx[_NL_ITEM_INDEX (_NL_NUM_LC_MONETARY)]; size_t cnt = 0; data.magic = LIMAGIC (LC_MONETARY); data.n = _NL_ITEM_INDEX (_NL_NUM_LC_MONETARY); iov[cnt].iov_base = (void *) &data; iov[cnt].iov_len = sizeof (data); ++cnt; iov[cnt].iov_base = (void *) idx; iov[cnt].iov_len = sizeof (idx); ++cnt; idx[cnt - 2] = iov[0].iov_len + iov[1].iov_len; iov[cnt].iov_base = (void *) monetary->int_curr_symbol; iov[cnt].iov_len = strlen (iov[cnt].iov_base) + 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) monetary->currency_symbol; iov[cnt].iov_len = strlen (iov[cnt].iov_base) + 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) monetary->mon_decimal_point; iov[cnt].iov_len = strlen (iov[cnt].iov_base) + 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) monetary->mon_thousands_sep; iov[cnt].iov_len = strlen (iov[cnt].iov_base) + 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = monetary->mon_grouping; iov[cnt].iov_len = monetary->mon_grouping_len; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) monetary->positive_sign; iov[cnt].iov_len = strlen (iov[cnt].iov_base) + 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) monetary->negative_sign; iov[cnt].iov_len = strlen (iov[cnt].iov_base) + 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->int_frac_digits; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->frac_digits; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->p_cs_precedes; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->p_sep_by_space; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->n_cs_precedes; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->n_sep_by_space; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->p_sign_posn; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->n_sign_posn; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->int_p_cs_precedes; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->int_p_sep_by_space; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->int_n_cs_precedes; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->int_n_sep_by_space; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->int_p_sign_posn; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->int_n_sign_posn; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = iov[0].iov_len + iov[1].iov_len; iov[cnt].iov_base = (void *) monetary->duo_int_curr_symbol; iov[cnt].iov_len = strlen (iov[cnt].iov_base) + 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) monetary->duo_currency_symbol; iov[cnt].iov_len = strlen (iov[cnt].iov_base) + 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_int_frac_digits; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_frac_digits; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_p_cs_precedes; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_p_sep_by_space; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_n_cs_precedes; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_n_sep_by_space; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_int_p_cs_precedes; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_int_p_sep_by_space; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_int_n_cs_precedes; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_int_n_sep_by_space; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_p_sign_posn; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_n_sign_posn; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_int_p_sign_posn; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_int_n_sign_posn; iov[cnt].iov_len = 1; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->uno_valid_from; iov[cnt].iov_len = 4; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->uno_valid_to; iov[cnt].iov_len = 4; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_valid_from; iov[cnt].iov_len = 4; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) &monetary->duo_valid_to; iov[cnt].iov_len = 4; ++cnt; idx[cnt - 2] = idx[cnt - 3] + iov[cnt - 1].iov_len; iov[cnt].iov_base = (void *) monetary->conversion_rate; iov[cnt].iov_len = 8; ++cnt; assert (cnt == 2 + _NL_ITEM_INDEX (_NL_NUM_LC_MONETARY)); write_locale_data (output_path, "LC_MONETARY", 2 + _NL_ITEM_INDEX (_NL_NUM_LC_MONETARY), iov); } static int curr_strcmp (const char *s1, const char **s2) { return strcmp (s1, *s2); } /* The parser for the LC_MONETARY section of the locale definition. */ void monetary_read (struct linereader *ldfile, struct localedef_t *result, struct charmap_t *charmap, const char *repertoire_name, int ignore_content) { struct repertoire_t *repertoire = NULL; struct locale_monetary_t *monetary; struct token *now; enum token_t nowtok; /* Get the repertoire we have to use. */ if (repertoire_name != NULL) repertoire = repertoire_read (repertoire_name); /* The rest of the line containing `LC_MONETARY' must be free. */ lr_ignore_rest (ldfile, 1); do { now = lr_token (ldfile, charmap, NULL); nowtok = now->tok; } while (nowtok == tok_eol); /* If we see `copy' now we are almost done. */ if (nowtok == tok_copy) { handle_copy (ldfile, charmap, repertoire, result, tok_lc_monetary, LC_MONETARY, "LC_MONETARY", ignore_content); return; } /* Prepare the data structures. */ monetary_startup (ldfile, result, ignore_content); monetary = result->categories[LC_MONETARY].monetary; while (1) { /* Of course we don't proceed beyond the end of file. */ if (nowtok == tok_eof) break; /* Ignore empty lines. */ if (nowtok == tok_eol) { now = lr_token (ldfile, charmap, NULL); nowtok = now->tok; continue; } switch (nowtok) { #define STR_ELEM(cat) \ case tok_##cat: \ /* Ignore the rest of the line if we don't need the input of \ this line. */ \ if (ignore_content) \ { \ lr_ignore_rest (ldfile, 0); \ break; \ } \ \ now = lr_token (ldfile, charmap, NULL); \ if (now->tok != tok_string) \ goto err_label; \ else if (monetary->cat != NULL) \ lr_error (ldfile, _("%s: field `%s' declared more than once"), \ "LC_MONETARY", #cat); \ else if (!ignore_content && now->val.str.startmb == NULL) \ { \ lr_error (ldfile, _("\ %s: unknown character in field `%s'"), "LC_MONETARY", #cat); \ monetary->cat = ""; \ } \ else if (!ignore_content) \ monetary->cat = now->val.str.startmb; \ lr_ignore_rest (ldfile, 1); \ break STR_ELEM (int_curr_symbol); STR_ELEM (currency_symbol); STR_ELEM (mon_decimal_point); STR_ELEM (mon_thousands_sep); STR_ELEM (positive_sign); STR_ELEM (negative_sign); STR_ELEM (duo_int_curr_symbol); STR_ELEM (duo_currency_symbol); #define INT_ELEM(cat) \ case tok_##cat: \ /* Ignore the rest of the line if we don't need the input of \ this line. */ \ if (ignore_content) \ { \ lr_ignore_rest (ldfile, 0); \ break; \ } \ \ now = lr_token (ldfile, charmap, NULL); \ if (now->tok != tok_minus1 && now->tok != tok_number) \ goto err_label; \ else if (monetary->cat != -2) \ lr_error (ldfile, _("%s: field `%s' declared more than once"), \ "LC_MONETARY", #cat); \ else if (!ignore_content) \ monetary->cat = now->tok == tok_minus1 ? -1 : now->val.num; \ break INT_ELEM (int_frac_digits); INT_ELEM (frac_digits); INT_ELEM (p_cs_precedes); INT_ELEM (p_sep_by_space); INT_ELEM (n_cs_precedes); INT_ELEM (n_sep_by_space); INT_ELEM (p_sign_posn); INT_ELEM (n_sign_posn); INT_ELEM (int_p_cs_precedes); INT_ELEM (int_p_sep_by_space); INT_ELEM (int_n_cs_precedes); INT_ELEM (int_n_sep_by_space); INT_ELEM (int_p_sign_posn); INT_ELEM (int_n_sign_posn); INT_ELEM (duo_int_frac_digits); INT_ELEM (duo_frac_digits); INT_ELEM (duo_p_cs_precedes); INT_ELEM (duo_p_sep_by_space); INT_ELEM (duo_n_cs_precedes); INT_ELEM (duo_n_sep_by_space); INT_ELEM (duo_p_sign_posn); INT_ELEM (duo_n_sign_posn); INT_ELEM (duo_int_p_cs_precedes); INT_ELEM (duo_int_p_sep_by_space); INT_ELEM (duo_int_n_cs_precedes); INT_ELEM (duo_int_n_sep_by_space); INT_ELEM (duo_int_p_sign_posn); INT_ELEM (duo_int_n_sign_posn); INT_ELEM (uno_valid_from); INT_ELEM (uno_valid_to); INT_ELEM (duo_valid_from); INT_ELEM (duo_valid_to); case tok_mon_grouping: /* Ignore the rest of the line if we don't need the input of this line. */ if (ignore_content) { lr_ignore_rest (ldfile, 0); break; } now = lr_token (ldfile, charmap, NULL); if (now->tok != tok_minus1 && now->tok != tok_number) goto err_label; else { size_t act = 0; size_t max = 10; char *grouping = ignore_content ? NULL : xmalloc (max); do { if (act + 1 >= max) { max *= 2; grouping = xrealloc (grouping, max); } if (act > 0 && grouping[act - 1] == '\177') { lr_error (ldfile, _("\ %s: `-1' must be last entry in `%s' field"), "LC_MONETARY", "mon_grouping"); lr_ignore_rest (ldfile, 0); break; } if (now->tok == tok_minus1) { if (!ignore_content) grouping[act++] = '\177'; } else if (now->val.num == 0) { /* A value of 0 disables grouping from here on but we must not store a NUL character since this terminates the string. Use something different which must not be used otherwise. */ if (!ignore_content) grouping[act++] = '\377'; } else if (now->val.num > 126) lr_error (ldfile, _("\ %s: values for field `%s' must be smaller than 127"), "LC_MONETARY", "mon_grouping"); else if (!ignore_content) grouping[act++] = now->val.num; /* Next must be semicolon. */ now = lr_token (ldfile, charmap, NULL); if (now->tok != tok_semicolon) break; now = lr_token (ldfile, charmap, NULL); } while (now->tok == tok_minus1 || now->tok == tok_number); if (now->tok != tok_eol) goto err_label; if (!ignore_content) { grouping[act++] = '\0'; monetary->mon_grouping = xrealloc (grouping, act); monetary->mon_grouping_len = act; } } break; case tok_conversion_rate: /* Ignore the rest of the line if we don't need the input of this line. */ if (ignore_content) { lr_ignore_rest (ldfile, 0); break; } now = lr_token (ldfile, charmap, NULL); if (now->tok != tok_number) goto err_label; if (now->val.num == 0) { invalid_conversion_rate: lr_error (ldfile, _("conversion rate valze cannot be zero")); if (!ignore_content) { monetary->conversion_rate[0] = 1; monetary->conversion_rate[1] = 1; } break; } if (!ignore_content) monetary->conversion_rate[0] = now->val.num; /* Next must be a semicolon. */ now = lr_token (ldfile, charmap, NULL); if (now->tok != tok_semicolon) goto err_label; /* And another number. */ now = lr_token (ldfile, charmap, NULL); if (now->tok != tok_number) goto err_label; if (now->val.num == 0) goto invalid_conversion_rate; if (!ignore_content) monetary->conversion_rate[1] = now->val.num; /* The rest of the line must be empty. */ lr_ignore_rest (ldfile, 1); break; case tok_end: /* Next we assume `LC_MONETARY'. */ now = lr_token (ldfile, charmap, NULL); if (now->tok == tok_eof) break; if (now->tok == tok_eol) lr_error (ldfile, _("%s: incomplete `END' line"), "LC_MONETARY"); else if (now->tok != tok_lc_monetary) lr_error (ldfile, _("\ %1$s: definition does not end with `END %1$s'"), "LC_MONETARY"); lr_ignore_rest (ldfile, now->tok == tok_lc_monetary); return; default: err_label: SYNTAX_ERROR (_("%s: syntax error"), "LC_MONETARY"); } /* Prepare for the next round. */ now = lr_token (ldfile, charmap, NULL); nowtok = now->tok; } /* When we come here we reached the end of the file. */ lr_error (ldfile, _("%s: premature end of file"), "LC_MONETARY"); }