/* Checking of messages in PO files. Copyright (C) 1995-1998, 2000-2008, 2010-2015 Free Software Foundation, Inc. Written by Ulrich Drepper , April 1995. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #ifdef HAVE_CONFIG_H # include #endif /* Specification. */ #include "msgl-check.h" #include #include #include #include #include #include #include #include "c-ctype.h" #include "xalloc.h" #include "xvasprintf.h" #include "po-xerror.h" #include "format.h" #include "plural-exp.h" #include "plural-eval.h" #include "plural-table.h" #include "c-strstr.h" #include "message.h" #include "quote.h" #include "sentence.h" #include "unictype.h" #include "unistr.h" #include "gettext.h" #define _(str) gettext (str) #define SIZEOF(a) (sizeof(a) / sizeof(a[0])) /* Evaluates the plural formula for min <= n <= max and returns the estimated number of times the value j was assumed. */ static unsigned int plural_expression_histogram (const struct plural_distribution *self, int min, int max, unsigned long j) { if (min < 0) min = 0; /* Limit the number of evaluations. Nothing interesting happens beyond 1000. */ if (max - min > 1000) max = min + 1000; if (min <= max) { const struct expression *expr = self->expr; unsigned long n; unsigned int count; /* Protect against arithmetic exceptions. */ install_sigfpe_handler (); count = 0; for (n = min; n <= max; n++) { unsigned long val = plural_eval (expr, n); if (val == j) count++; } /* End of protection against arithmetic exceptions. */ uninstall_sigfpe_handler (); return count; } else return 0; } /* Check the values returned by plural_eval. Signals the errors through po_xerror. Return the number of errors that were seen. If no errors, returns in *DISTRIBUTION information about the plural_eval values distribution. */ int check_plural_eval (const struct expression *plural_expr, unsigned long nplurals_value, const message_ty *header, struct plural_distribution *distribution) { /* Do as if the plural formula assumes a value N infinitely often if it assumes it at least 5 times. */ #define OFTEN 5 unsigned char * volatile array; /* Allocate a distribution array. */ if (nplurals_value <= 100) array = XCALLOC (nplurals_value, unsigned char); else /* nplurals_value is nonsense. Don't risk an out-of-memory. */ array = NULL; if (sigsetjmp (sigfpe_exit, 1) == 0) { unsigned long n; /* Protect against arithmetic exceptions. */ install_sigfpe_handler (); for (n = 0; n <= 1000; n++) { unsigned long val = plural_eval (plural_expr, n); if ((long) val < 0) { /* End of protection against arithmetic exceptions. */ uninstall_sigfpe_handler (); po_xerror (PO_SEVERITY_ERROR, header, NULL, 0, 0, false, _("plural expression can produce negative values")); free (array); return 1; } else if (val >= nplurals_value) { char *msg; /* End of protection against arithmetic exceptions. */ uninstall_sigfpe_handler (); msg = xasprintf (_("nplurals = %lu but plural expression can produce values as large as %lu"), nplurals_value, val); po_xerror (PO_SEVERITY_ERROR, header, NULL, 0, 0, false, msg); free (msg); free (array); return 1; } if (array != NULL && array[val] < OFTEN) array[val]++; } /* End of protection against arithmetic exceptions. */ uninstall_sigfpe_handler (); /* Normalize the array[val] statistics. */ if (array != NULL) { unsigned long val; for (val = 0; val < nplurals_value; val++) array[val] = (array[val] == OFTEN ? 1 : 0); } distribution->expr = plural_expr; distribution->often = array; distribution->often_length = (array != NULL ? nplurals_value : 0); distribution->histogram = plural_expression_histogram; return 0; } else { /* Caught an arithmetic exception. */ const char *msg; /* End of protection against arithmetic exceptions. */ uninstall_sigfpe_handler (); #if USE_SIGINFO switch (sigfpe_code) #endif { #if USE_SIGINFO # ifdef FPE_INTDIV case FPE_INTDIV: msg = _("plural expression can produce division by zero"); break; # endif # ifdef FPE_INTOVF case FPE_INTOVF: msg = _("plural expression can produce integer overflow"); break; # endif default: #endif msg = _("plural expression can produce arithmetic exceptions, possibly division by zero"); } po_xerror (PO_SEVERITY_ERROR, header, NULL, 0, 0, false, msg); free (array); return 1; } #undef OFTEN } /* Try to help the translator by looking up the right plural formula for her. Return a freshly allocated multiline help string, or NULL. */ static char * plural_help (const char *nullentry) { struct plural_table_entry *ptentry = NULL; { const char *language; language = c_strstr (nullentry, "Language: "); if (language != NULL) { size_t len; language += 10; len = strcspn (language, " \t\n"); if (len > 0) { size_t j; for (j = 0; j < plural_table_size; j++) if (len == strlen (plural_table[j].lang) && strncmp (language, plural_table[j].lang, len) == 0) { ptentry = &plural_table[j]; break; } } } } if (ptentry == NULL) { const char *language; language = c_strstr (nullentry, "Language-Team: "); if (language != NULL) { size_t j; language += 15; for (j = 0; j < plural_table_size; j++) if (strncmp (language, plural_table[j].language, strlen (plural_table[j].language)) == 0) { ptentry = &plural_table[j]; break; } } } if (ptentry != NULL) { char *helpline1 = xasprintf (_("Try using the following, valid for %s:"), ptentry->language); char *help = xasprintf ("%s\n\"Plural-Forms: %s\\n\"\n", helpline1, ptentry->value); free (helpline1); return help; } return NULL; } /* Perform plural expression checking. Return the number of errors that were seen. If no errors, returns in *DISTRIBUTION information about the plural_eval values distribution. */ static int check_plural (message_list_ty *mlp, int ignore_untranslated_messages, int ignore_fuzzy_messages, struct plural_distribution *distributionp) { int seen_errors = 0; const message_ty *has_plural; unsigned long min_nplurals; const message_ty *min_pos; unsigned long max_nplurals; const message_ty *max_pos; struct plural_distribution distribution; size_t j; message_ty *header; /* Determine whether mlp has plural entries. */ has_plural = NULL; min_nplurals = ULONG_MAX; min_pos = NULL; max_nplurals = 0; max_pos = NULL; distribution.expr = NULL; distribution.often = NULL; distribution.often_length = 0; distribution.histogram = NULL; for (j = 0; j < mlp->nitems; j++) { message_ty *mp = mlp->item[j]; if (!mp->obsolete && !(ignore_untranslated_messages && mp->msgstr[0] == '\0') && !(ignore_fuzzy_messages && (mp->is_fuzzy && !is_header (mp))) && mp->msgid_plural != NULL) { const char *p; const char *p_end; unsigned long n; if (has_plural == NULL) has_plural = mp; n = 0; for (p = mp->msgstr, p_end = p + mp->msgstr_len; p < p_end; p += strlen (p) + 1) n++; if (min_nplurals > n) { min_nplurals = n; min_pos = mp; } if (max_nplurals < n) { max_nplurals = n; max_pos = mp; } } } /* Look at the plural entry for this domain. Cf, function extract_plural_expression. */ header = message_list_search (mlp, NULL, ""); if (header != NULL && !header->obsolete) { const char *nullentry; const char *plural; const char *nplurals; nullentry = header->msgstr; plural = c_strstr (nullentry, "plural="); nplurals = c_strstr (nullentry, "nplurals="); if (plural == NULL && has_plural != NULL) { const char *msg1 = _("message catalog has plural form translations"); const char *msg2 = _("but header entry lacks a \"plural=EXPRESSION\" attribute"); char *help = plural_help (nullentry); if (help != NULL) { char *msg2ext = xasprintf ("%s\n%s", msg2, help); po_xerror2 (PO_SEVERITY_ERROR, has_plural, NULL, 0, 0, false, msg1, header, NULL, 0, 0, true, msg2ext); free (msg2ext); free (help); } else po_xerror2 (PO_SEVERITY_ERROR, has_plural, NULL, 0, 0, false, msg1, header, NULL, 0, 0, false, msg2); seen_errors++; } if (nplurals == NULL && has_plural != NULL) { const char *msg1 = _("message catalog has plural form translations"); const char *msg2 = _("but header entry lacks a \"nplurals=INTEGER\" attribute"); char *help = plural_help (nullentry); if (help != NULL) { char *msg2ext = xasprintf ("%s\n%s", msg2, help); po_xerror2 (PO_SEVERITY_ERROR, has_plural, NULL, 0, 0, false, msg1, header, NULL, 0, 0, true, msg2ext); free (msg2ext); free (help); } else po_xerror2 (PO_SEVERITY_ERROR, has_plural, NULL, 0, 0, false, msg1, header, NULL, 0, 0, false, msg2); seen_errors++; } if (plural != NULL && nplurals != NULL) { const char *endp; unsigned long int nplurals_value; struct parse_args args; const struct expression *plural_expr; /* First check the number. */ nplurals += 9; while (*nplurals != '\0' && c_isspace ((unsigned char) *nplurals)) ++nplurals; endp = nplurals; nplurals_value = 0; if (*nplurals >= '0' && *nplurals <= '9') nplurals_value = strtoul (nplurals, (char **) &endp, 10); if (nplurals == endp) { const char *msg = _("invalid nplurals value"); char *help = plural_help (nullentry); if (help != NULL) { char *msgext = xasprintf ("%s\n%s", msg, help); po_xerror (PO_SEVERITY_ERROR, header, NULL, 0, 0, true, msgext); free (msgext); free (help); } else po_xerror (PO_SEVERITY_ERROR, header, NULL, 0, 0, false, msg); seen_errors++; } /* Then check the expression. */ plural += 7; args.cp = plural; if (parse_plural_expression (&args) != 0) { const char *msg = _("invalid plural expression"); char *help = plural_help (nullentry); if (help != NULL) { char *msgext = xasprintf ("%s\n%s", msg, help); po_xerror (PO_SEVERITY_ERROR, header, NULL, 0, 0, true, msgext); free (msgext); free (help); } else po_xerror (PO_SEVERITY_ERROR, header, NULL, 0, 0, false, msg); seen_errors++; } plural_expr = args.res; /* See whether nplurals and plural fit together. */ if (!seen_errors) seen_errors = check_plural_eval (plural_expr, nplurals_value, header, &distribution); /* Check the number of plurals of the translations. */ if (!seen_errors) { if (min_nplurals < nplurals_value) { char *msg1 = xasprintf (_("nplurals = %lu"), nplurals_value); char *msg2 = xasprintf (ngettext ("but some messages have only one plural form", "but some messages have only %lu plural forms", min_nplurals), min_nplurals); po_xerror2 (PO_SEVERITY_ERROR, header, NULL, 0, 0, false, msg1, min_pos, NULL, 0, 0, false, msg2); free (msg2); free (msg1); seen_errors++; } else if (max_nplurals > nplurals_value) { char *msg1 = xasprintf (_("nplurals = %lu"), nplurals_value); char *msg2 = xasprintf (ngettext ("but some messages have one plural form", "but some messages have %lu plural forms", max_nplurals), max_nplurals); po_xerror2 (PO_SEVERITY_ERROR, header, NULL, 0, 0, false, msg1, max_pos, NULL, 0, 0, false, msg2); free (msg2); free (msg1); seen_errors++; } /* The only valid case is max_nplurals <= n <= min_nplurals, which means either has_plural == NULL or max_nplurals = n = min_nplurals. */ } } else goto no_plural; } else { if (has_plural != NULL) { po_xerror (PO_SEVERITY_ERROR, has_plural, NULL, 0, 0, false, _("message catalog has plural form translations, but lacks a header entry with \"Plural-Forms: nplurals=INTEGER; plural=EXPRESSION;\"")); seen_errors++; } no_plural: /* By default, the Germanic formula (n != 1) is used. */ distribution.expr = &germanic_plural; { unsigned char *array = XCALLOC (2, unsigned char); array[1] = 1; distribution.often = array; } distribution.often_length = 2; distribution.histogram = plural_expression_histogram; } /* distribution is not needed if we report errors. Also, if there was an error due to max_nplurals > nplurals_value, we must not use distribution because we would be doing out-of-bounds array accesses. */ if (seen_errors > 0) free ((unsigned char *) distribution.often); else *distributionp = distribution; return seen_errors; } /* Signal an error when checking format strings. */ static const message_ty *curr_mp; static lex_pos_ty curr_msgid_pos; static void formatstring_error_logger (const char *format, ...) #if defined __GNUC__ && ((__GNUC__ == 2 && __GNUC_MINOR__ >= 7) || __GNUC__ > 2) __attribute__ ((__format__ (__printf__, 1, 2))) #endif ; static void formatstring_error_logger (const char *format, ...) { va_list args; char *msg; va_start (args, format); if (vasprintf (&msg, format, args) < 0) error (EXIT_FAILURE, 0, _("memory exhausted")); va_end (args); po_xerror (PO_SEVERITY_ERROR, curr_mp, curr_msgid_pos.file_name, curr_msgid_pos.line_number, (size_t)(-1), false, msg); free (msg); } /* Perform miscellaneous checks on a message. PLURAL_DISTRIBUTION is either NULL or an array of nplurals elements, PLURAL_DISTRIBUTION[j] being true if the value j appears to be assumed infinitely often by the plural formula. PLURAL_DISTRIBUTION_LENGTH is the length of the PLURAL_DISTRIBUTION array. */ static int check_pair (const message_ty *mp, const char *msgid, const lex_pos_ty *msgid_pos, const char *msgid_plural, const char *msgstr, size_t msgstr_len, const enum is_format is_format[NFORMATS], int check_newlines, int check_format_strings, const struct plural_distribution *distribution, int check_compatibility, int check_accelerators, char accelerator_char) { int seen_errors; int has_newline; unsigned int j; /* If the msgid string is empty we have the special entry reserved for information about the translation. */ if (msgid[0] == '\0') return 0; seen_errors = 0; if (check_newlines) { /* Test 1: check whether all or none of the strings begin with a '\n'. */ has_newline = (msgid[0] == '\n'); #define TEST_NEWLINE(p) (p[0] == '\n') if (msgid_plural != NULL) { const char *p; if (TEST_NEWLINE(msgid_plural) != has_newline) { po_xerror (PO_SEVERITY_ERROR, mp, msgid_pos->file_name, msgid_pos->line_number, (size_t)(-1), false, _("\ 'msgid' and 'msgid_plural' entries do not both begin with '\\n'")); seen_errors++; } for (p = msgstr, j = 0; p < msgstr + msgstr_len; p += strlen (p) + 1, j++) if (TEST_NEWLINE(p) != has_newline) { char *msg = xasprintf (_("\ 'msgid' and 'msgstr[%u]' entries do not both begin with '\\n'"), j); po_xerror (PO_SEVERITY_ERROR, mp, msgid_pos->file_name, msgid_pos->line_number, (size_t)(-1), false, msg); free (msg); seen_errors++; } } else { if (TEST_NEWLINE(msgstr) != has_newline) { po_xerror (PO_SEVERITY_ERROR, mp, msgid_pos->file_name, msgid_pos->line_number, (size_t)(-1), false, _("\ 'msgid' and 'msgstr' entries do not both begin with '\\n'")); seen_errors++; } } #undef TEST_NEWLINE /* Test 2: check whether all or none of the strings end with a '\n'. */ has_newline = (msgid[strlen (msgid) - 1] == '\n'); #define TEST_NEWLINE(p) (p[0] != '\0' && p[strlen (p) - 1] == '\n') if (msgid_plural != NULL) { const char *p; if (TEST_NEWLINE(msgid_plural) != has_newline) { po_xerror (PO_SEVERITY_ERROR, mp, msgid_pos->file_name, msgid_pos->line_number, (size_t)(-1), false, _("\ 'msgid' and 'msgid_plural' entries do not both end with '\\n'")); seen_errors++; } for (p = msgstr, j = 0; p < msgstr + msgstr_len; p += strlen (p) + 1, j++) if (TEST_NEWLINE(p) != has_newline) { char *msg = xasprintf (_("\ 'msgid' and 'msgstr[%u]' entries do not both end with '\\n'"), j); po_xerror (PO_SEVERITY_ERROR, mp, msgid_pos->file_name, msgid_pos->line_number, (size_t)(-1), false, msg); free (msg); seen_errors++; } } else { if (TEST_NEWLINE(msgstr) != has_newline) { po_xerror (PO_SEVERITY_ERROR, mp, msgid_pos->file_name, msgid_pos->line_number, (size_t)(-1), false, _("\ 'msgid' and 'msgstr' entries do not both end with '\\n'")); seen_errors++; } } #undef TEST_NEWLINE } if (check_compatibility && msgid_plural != NULL) { po_xerror (PO_SEVERITY_ERROR, mp, msgid_pos->file_name, msgid_pos->line_number, (size_t)(-1), false, _("\ plural handling is a GNU gettext extension")); seen_errors++; } if (check_format_strings) /* Test 3: Check whether both formats strings contain the same number of format specifications. */ { curr_mp = mp; curr_msgid_pos = *msgid_pos; seen_errors += check_msgid_msgstr_format (msgid, msgid_plural, msgstr, msgstr_len, is_format, mp->range, distribution, formatstring_error_logger); } if (check_accelerators && msgid_plural == NULL) /* Test 4: Check that if msgid is a menu item with a keyboard accelerator, the msgstr has an accelerator as well. A keyboard accelerator is designated by an immediately preceding '&'. We cannot check whether two accelerators collide, only whether the translator has bothered thinking about them. */ { const char *p; /* We are only interested in msgids that contain exactly one '&'. */ p = strchr (msgid, accelerator_char); if (p != NULL && strchr (p + 1, accelerator_char) == NULL) { /* Count the number of '&' in msgstr, but ignore '&&'. */ unsigned int count = 0; for (p = msgstr; (p = strchr (p, accelerator_char)) != NULL; p++) if (p[1] == accelerator_char) p++; else count++; if (count == 0) { char *msg = xasprintf (_("msgstr lacks the keyboard accelerator mark '%c'"), accelerator_char); po_xerror (PO_SEVERITY_ERROR, mp, msgid_pos->file_name, msgid_pos->line_number, (size_t)(-1), false, msg); free (msg); seen_errors++; } else if (count > 1) { char *msg = xasprintf (_("msgstr has too many keyboard accelerator marks '%c'"), accelerator_char); po_xerror (PO_SEVERITY_ERROR, mp, msgid_pos->file_name, msgid_pos->line_number, (size_t)(-1), false, msg); free (msg); seen_errors++; } } } return seen_errors; } /* Perform miscellaneous checks on a header entry. */ static int check_header_entry (const message_ty *mp, const char *msgstr_string) { static const char *required_fields[] = { "Project-Id-Version", "PO-Revision-Date", "Last-Translator", "Language-Team", "MIME-Version", "Content-Type", "Content-Transfer-Encoding", /* These are recommended but not yet required. */ "Language" }; static const char *default_values[] = { "PACKAGE VERSION", "YEAR-MO-DA HO:MI+ZONE", "FULL NAME ", "LANGUAGE ", NULL, "text/plain; charset=CHARSET", "ENCODING", "" }; const size_t nfields = SIZEOF (required_fields); /* FIXME: We could check if a required header field is missing and report it as error. However, it's could be too rigorous and break backward compatibility. */ #if 0 const size_t nrequiredfields = nfields - 1; #endif int seen_errors = 0; int cnt; for (cnt = 0; cnt < nfields; ++cnt) { #if 0 int severity = (cnt < nrequiredfields ? PO_SEVERITY_ERROR : PO_SEVERITY_WARNING); #else int severity = PO_SEVERITY_WARNING; #endif const char *field = required_fields[cnt]; size_t len = strlen (field); const char *line; for (line = msgstr_string; *line != '\0'; ) { if (strncmp (line, field, len) == 0 && line[len] == ':') { const char *p = line + len + 1; /* Test whether the field's value, starting at p, is the default value. */ if (*p == ' ') p++; if (default_values[cnt] != NULL && strncmp (p, default_values[cnt], strlen (default_values[cnt])) == 0) { p += strlen (default_values[cnt]); if (*p == '\0' || *p == '\n') { char *msg = xasprintf (_("header field '%s' still has the initial default value\n"), field); po_xerror (severity, mp, NULL, 0, 0, true, msg); free (msg); if (severity == PO_SEVERITY_ERROR) seen_errors++; } } break; } line = strchrnul (line, '\n'); if (*line == '\n') line++; } if (*line == '\0') { char *msg = xasprintf (_("header field '%s' missing in header\n"), field); po_xerror (severity, mp, NULL, 0, 0, true, msg); free (msg); if (severity == PO_SEVERITY_ERROR) seen_errors++; } } return seen_errors; } /* Perform all checks on a non-obsolete message. Return the number of errors that were seen. */ int check_message (const message_ty *mp, const lex_pos_ty *msgid_pos, int check_newlines, int check_format_strings, const struct plural_distribution *distribution, int check_header, int check_compatibility, int check_accelerators, char accelerator_char) { int seen_errors = 0; if (check_header && is_header (mp)) seen_errors += check_header_entry (mp, mp->msgstr); seen_errors += check_pair (mp, mp->msgid, msgid_pos, mp->msgid_plural, mp->msgstr, mp->msgstr_len, mp->is_format, check_newlines, check_format_strings, distribution, check_compatibility, check_accelerators, accelerator_char); return seen_errors; } /* Perform all checks on a message list. Return the number of errors that were seen. */ int check_message_list (message_list_ty *mlp, int ignore_untranslated_messages, int ignore_fuzzy_messages, int check_newlines, int check_format_strings, int check_header, int check_compatibility, int check_accelerators, char accelerator_char) { int seen_errors = 0; struct plural_distribution distribution; size_t j; distribution.expr = NULL; distribution.often = NULL; distribution.often_length = 0; distribution.histogram = NULL; if (check_header) seen_errors += check_plural (mlp, ignore_untranslated_messages, ignore_fuzzy_messages, &distribution); for (j = 0; j < mlp->nitems; j++) { message_ty *mp = mlp->item[j]; if (!mp->obsolete && !(ignore_untranslated_messages && mp->msgstr[0] == '\0') && !(ignore_fuzzy_messages && (mp->is_fuzzy && !is_header (mp)))) seen_errors += check_message (mp, &mp->pos, check_newlines, check_format_strings, &distribution, check_header, check_compatibility, check_accelerators, accelerator_char); } return seen_errors; } static int syntax_check_ellipsis_unicode (const message_ty *mp, const char *msgid) { const char *str = msgid; const char *str_limit = str + strlen (msgid); int seen_errors = 0; while (str < str_limit) { const char *end, *cp; ucs4_t ending_char; end = sentence_end (str, &ending_char); /* sentence_end doesn't treat '...' specially. */ cp = end - (ending_char == '.' ? 2 : 3); if (cp >= str && memcmp (cp, "...", 3) == 0) { po_xerror (PO_SEVERITY_ERROR, mp, NULL, 0, 0, false, _("ASCII ellipsis ('...') instead of Unicode")); seen_errors++; } str = end + 1; } return seen_errors; } static int syntax_check_space_ellipsis (const message_ty *mp, const char *msgid) { const char *str = msgid; const char *str_limit = str + strlen (msgid); int seen_errors = 0; while (str < str_limit) { const char *end, *ellipsis = NULL; ucs4_t ending_char; end = sentence_end (str, &ending_char); if (ending_char == 0x2026) ellipsis = end; else if (ending_char == '.') { /* sentence_end doesn't treat '...' specially. */ const char *cp = end - 2; if (cp >= str && memcmp (cp, "...", 3) == 0) ellipsis = cp; } else { /* Look for a '...'. */ const char *cp = end - 3; if (cp >= str && memcmp (cp, "...", 3) == 0) ellipsis = cp; else { ucs4_t uc = 0xfffd; /* Look for a U+2026. */ for (cp = end - 1; cp >= str; cp--) { u8_mbtouc (&uc, (const unsigned char *) cp, ellipsis - cp); if (uc != 0xfffd) break; } if (uc == 0x2026) ellipsis = cp; } } if (ellipsis) { const char *cp; ucs4_t uc = 0xfffd; /* Look at the character before ellipsis. */ for (cp = ellipsis - 1; cp >= str; cp--) { u8_mbtouc (&uc, (const unsigned char *) cp, ellipsis - cp); if (uc != 0xfffd) break; } if (uc != 0xfffd && uc_is_space (uc)) { po_xerror (PO_SEVERITY_ERROR, mp, NULL, 0, 0, false, _("\ space before ellipsis found in user visible strings")); seen_errors++; } } str = end + 1; } return seen_errors; } struct callback_arg { const message_ty *mp; int seen_errors; }; static void syntax_check_quote_unicode_callback (char quote, const char *quoted, size_t quoted_length, void *data) { struct callback_arg *arg = data; switch (quote) { case '"': po_xerror (PO_SEVERITY_ERROR, arg->mp, NULL, 0, 0, false, _("ASCII double quote used instead of Unicode")); arg->seen_errors++; break; case '\'': po_xerror (PO_SEVERITY_ERROR, arg->mp, NULL, 0, 0, false, _("ASCII single quote used instead of Unicode")); arg->seen_errors++; break; default: break; } } static int syntax_check_quote_unicode (const message_ty *mp, const char *msgid) { struct callback_arg arg; arg.mp = mp; arg.seen_errors = 0; scan_quoted (msgid, strlen (msgid), syntax_check_quote_unicode_callback, &arg); return arg.seen_errors; } typedef int (* syntax_check_function) (const message_ty *mp, const char *msgid); static const syntax_check_function sc_funcs[NSYNTAXCHECKS] = { syntax_check_ellipsis_unicode, syntax_check_space_ellipsis, syntax_check_quote_unicode }; /* Perform all syntax checks on a non-obsolete message. Return the number of errors that were seen. */ static int syntax_check_message (const message_ty *mp) { int seen_errors = 0; int i; for (i = 0; i < NSYNTAXCHECKS; i++) { if (mp->do_syntax_check[i] == yes) { seen_errors += sc_funcs[i] (mp, mp->msgid); if (mp->msgid_plural) seen_errors += sc_funcs[i] (mp, mp->msgid_plural); } } return seen_errors; } /* Perform all syntax checks on a message list. Return the number of errors that were seen. */ int syntax_check_message_list (message_list_ty *mlp) { int seen_errors = 0; size_t j; for (j = 0; j < mlp->nitems; j++) { message_ty *mp = mlp->item[j]; if (!is_header (mp)) seen_errors += syntax_check_message (mp); } return seen_errors; }