/* Ruby format strings. Copyright (C) 2001-2004, 2006-2009, 2019-2020 Free Software Foundation, Inc. Written by Bruno Haible , 2020. 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 #include #include #include #include #include "format.h" #include "c-ctype.h" #include "xalloc.h" #include "xvasprintf.h" #include "format-invalid.h" #include "gettext.h" #define _(str) gettext (str) /* Ruby format strings are described in https://ruby-doc.org/core-2.7.1/Kernel.html#method-i-sprintf and are implemented in ruby-2.7.1/sprintf.c . A format string consists of literal text and directives. A directive - starts with '%', - is optionally followed by a sequence of the following: - any of the characters ' ', '#', '+', '-', '0', each of which acts as a flag, - a digit sequence starting with a non-zero digit, followed by '$', at most once per directive, indicating a positional argument to consume, - '<' KEY '>', at most once per directive, indicating a hash table element to consume, - a digit sequence starting with a non-zero digit, specifying a width, - '*', indicating a width, taken from the argument list, - '*' and a digit sequence, followed by '$', indicating a width, taken from a positional argument, - '.' and a digit sequence, indicating a precision, - '.' '*', indicating a precision, taken from the argument list, - '.' '*' and a digit sequence, followed by '$', indicating a precision, taken from a positional argument. This sequence is in any order, except that - flags must occur before width and precision, - width must occur before precision. - is finished by a specifier - 's', that takes an object to print without double-quote delimiters, - 'p', that takes an object to print with double-quote delimiters (in case of a string), - '{' KEY '}', indicating a hash table element to consume and to print like with 's', - 'c', that takes a character, - 'd', 'i', 'u', 'o', 'x', 'X', 'b', 'B', that take an integer, - 'f', 'g', 'G', 'e', 'E', 'a', 'A', that take a floating-point number. Additionally there are the directives '%%' '%', which take no argument. Numbered, unnumbered, and named argument specifications cannot be used in the same string; either all arguments are numbered, or all arguments are unnumbered, or all arguments are named. */ enum format_arg_type { FAT_NONE, FAT_ANY, FAT_ESCAPED_ANY, FAT_CHARACTER, FAT_INTEGER, FAT_FLOAT }; struct named_arg { char *name; enum format_arg_type type; }; struct numbered_arg { unsigned int number; enum format_arg_type type; }; struct spec { unsigned int directives; unsigned int named_arg_count; unsigned int numbered_arg_count; struct named_arg *named; struct numbered_arg *numbered; }; /* Locale independent test for a decimal digit. Argument can be 'char' or 'unsigned char'. (Whereas the argument of isdigit must be an 'unsigned char'.) */ #undef isdigit #define isdigit(c) ((unsigned int) ((c) - '0') < 10) static int named_arg_compare (const void *p1, const void *p2) { return strcmp (((const struct named_arg *) p1)->name, ((const struct named_arg *) p2)->name); } static int numbered_arg_compare (const void *p1, const void *p2) { unsigned int n1 = ((const struct numbered_arg *) p1)->number; unsigned int n2 = ((const struct numbered_arg *) p2)->number; return (n1 > n2 ? 1 : n1 < n2 ? -1 : 0); } #define INVALID_MIXES_NAMED_UNNAMED() \ xstrdup (_("The string refers to arguments both through argument names and through unnamed argument specifications.")) #define INVALID_TWO_ARG_NAMES(directive_number) \ xasprintf (_("In the directive number %u, two names are given for the same argument."), directive_number) #define INVALID_TWO_ARG_NUMBERS(directive_number) \ xasprintf (_("In the directive number %u, two numbers are given for the same argument."), directive_number) #define INVALID_FLAG_AFTER_WIDTH(directive_number) \ xasprintf (_("In the directive number %u, a flag is given after the width."), directive_number) #define INVALID_FLAG_AFTER_PRECISION(directive_number) \ xasprintf (_("In the directive number %u, a flag is given after the precision."), directive_number) #define INVALID_WIDTH_AFTER_PRECISION(directive_number) \ xasprintf (_("In the directive number %u, the width is given after the precision."), directive_number) #define INVALID_WIDTH_TWICE(directive_number) \ xasprintf (_("In the directive number %u, a width is given twice."), directive_number) #define INVALID_PRECISION_TWICE(directive_number) \ xasprintf (_("In the directive number %u, a precision is given twice."), directive_number) static void * format_parse (const char *format, bool translated, char *fdi, char **invalid_reason) { const char *const format_start = format; struct spec spec; unsigned int unnumbered_arg_count; unsigned int allocated; struct spec *result; spec.directives = 0; spec.named_arg_count = 0; spec.numbered_arg_count = 0; spec.named = NULL; spec.numbered = NULL; unnumbered_arg_count = 0; allocated = 0; for (; *format != '\0';) if (*format++ == '%') { /* A directive. */ char *name = NULL; unsigned int number = 0; bool seen_width = false; unsigned int width_number = 0; bool width_takenext = false; bool seen_precision = false; unsigned int precision_number = 0; bool precision_takenext = false; enum format_arg_type type; FDI_SET (format - 1, FMTDIR_START); spec.directives++; for (;;) { if (*format == ' ' || *format == '#' || *format == '+' || *format == '-' || *format == '0') { /* A flag. */ if (seen_width) { *invalid_reason = INVALID_FLAG_AFTER_WIDTH (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (seen_precision) { *invalid_reason = INVALID_FLAG_AFTER_PRECISION (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } format++; continue; } if (*format == '<') { const char *name_start; const char *name_end; size_t n; if ((spec.numbered_arg_count > 0 || number > 0 || width_number > 0 || precision_number > 0) || (unnumbered_arg_count > 0 || width_takenext || precision_takenext)) { *invalid_reason = INVALID_MIXES_NAMED_UNNAMED (); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (name != NULL) { *invalid_reason = INVALID_TWO_ARG_NAMES (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } name_start = ++format; for (; *format != '\0'; format++) if (*format == '>') break; if (*format == '\0') { *invalid_reason = INVALID_UNTERMINATED_DIRECTIVE (); FDI_SET (format - 1, FMTDIR_ERROR); goto bad_format; } name_end = format++; n = name_end - name_start; name = XNMALLOC (n + 1, char); memcpy (name, name_start, n); name[n] = '\0'; continue; } if (isdigit (*format)) { unsigned int m = 0; do { if (m < UINT_MAX / 10) m = 10 * m + (*format - '0'); else m = UINT_MAX - 1; format++; } while (isdigit (*format)); if (*format == '$') { if (spec.named_arg_count > 0 || name != NULL) { *invalid_reason = INVALID_MIXES_NAMED_UNNAMED (); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (unnumbered_arg_count > 0 || width_takenext || precision_takenext) { *invalid_reason = INVALID_MIXES_NUMBERED_UNNUMBERED (); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (number > 0) { *invalid_reason = INVALID_TWO_ARG_NUMBERS (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } number = m; format++; } else { /* Seen a constant width. */ if (seen_precision) { *invalid_reason = INVALID_WIDTH_AFTER_PRECISION (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (seen_width) { *invalid_reason = INVALID_WIDTH_TWICE (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } seen_width = true; } continue; } if (*format == '*') { /* Parse width. */ format++; if (isdigit (*format)) { const char *f = format; unsigned int m = 0; do { if (m < UINT_MAX / 10) m = 10 * m + (*f - '0'); else m = UINT_MAX - 1; f++; } while (isdigit (*f)); if (*f == '$') { format = f; if (spec.named_arg_count > 0 || name != NULL) { *invalid_reason = INVALID_MIXES_NAMED_UNNAMED (); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (unnumbered_arg_count > 0 || width_takenext || precision_takenext) { *invalid_reason = INVALID_MIXES_NUMBERED_UNNUMBERED (); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (seen_precision) { *invalid_reason = INVALID_WIDTH_AFTER_PRECISION (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (seen_width) { *invalid_reason = INVALID_WIDTH_TWICE (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (m == 0) { *invalid_reason = INVALID_ARGNO_0 (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } seen_width = true; width_number = m; format++; continue; } } if (spec.named_arg_count > 0 || name != NULL) { *invalid_reason = INVALID_MIXES_NAMED_UNNAMED (); FDI_SET (format - 1, FMTDIR_ERROR); goto bad_format; } if (spec.numbered_arg_count > 0 || number > 0 || width_number > 0 || precision_number > 0) { *invalid_reason = INVALID_MIXES_NUMBERED_UNNUMBERED (); FDI_SET (format - 1, FMTDIR_ERROR); goto bad_format; } if (seen_precision) { *invalid_reason = INVALID_WIDTH_AFTER_PRECISION (spec.directives); FDI_SET (format - 1, FMTDIR_ERROR); goto bad_format; } if (seen_width) { *invalid_reason = INVALID_WIDTH_TWICE (spec.directives); FDI_SET (format - 1, FMTDIR_ERROR); goto bad_format; } seen_width = true; width_takenext = true; continue; } if (*format == '.') { /* Parse precision. */ format++; if (*format == '*') { format++; if (isdigit (*format)) { const char *f = format; unsigned int m = 0; do { if (m < UINT_MAX / 10) m = 10 * m + (*f - '0'); else m = UINT_MAX - 1; f++; } while (isdigit (*f)); if (*f == '$') { format = f; if (spec.named_arg_count > 0 || name != NULL) { *invalid_reason = INVALID_MIXES_NAMED_UNNAMED (); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (unnumbered_arg_count > 0 || width_takenext || precision_takenext) { *invalid_reason = INVALID_MIXES_NUMBERED_UNNUMBERED (); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (seen_precision) { *invalid_reason = INVALID_PRECISION_TWICE (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (m == 0) { *invalid_reason = INVALID_ARGNO_0 (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } seen_precision = true; precision_number = m; format++; continue; } } if (spec.named_arg_count > 0 || name != NULL) { *invalid_reason = INVALID_MIXES_NAMED_UNNAMED (); FDI_SET (format - 1, FMTDIR_ERROR); goto bad_format; } if (spec.numbered_arg_count > 0 || number > 0 || width_number > 0 || precision_number > 0) { *invalid_reason = INVALID_MIXES_NUMBERED_UNNUMBERED (); FDI_SET (format - 1, FMTDIR_ERROR); goto bad_format; } if (seen_precision) { *invalid_reason = INVALID_PRECISION_TWICE (spec.directives); FDI_SET (format - 1, FMTDIR_ERROR); goto bad_format; } seen_precision = true; precision_takenext = true; continue; } while (isdigit (*format)) format++; /* Seen a constant precision. */ if (seen_precision) { *invalid_reason = INVALID_PRECISION_TWICE (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } seen_precision = true; continue; } break; } switch (*format) { case '%': case '\n': type = FAT_NONE; break; case 's': type = FAT_ANY; break; case 'p': type = FAT_ESCAPED_ANY; break; case 'c': type = FAT_CHARACTER; break; case 'd': case 'i': case 'u': case 'o': case 'x': case 'X': case 'b': case 'B': type = FAT_INTEGER; break; case 'f': case 'g': case 'G': case 'e': case 'E': case 'a': case 'A': type = FAT_FLOAT; break; case '{': { const char *name_start; const char *name_end; size_t n; if ((spec.numbered_arg_count > 0 || number > 0 || width_number > 0 || precision_number > 0) || (unnumbered_arg_count > 0 || width_takenext || precision_takenext)) { *invalid_reason = INVALID_MIXES_NAMED_UNNAMED (); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (name != NULL) { *invalid_reason = INVALID_TWO_ARG_NAMES (spec.directives); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } name_start = ++format; for (; *format != '\0'; format++) if (*format == '}') break; if (*format == '\0') { *invalid_reason = INVALID_UNTERMINATED_DIRECTIVE (); FDI_SET (format - 1, FMTDIR_ERROR); goto bad_format; } name_end = format; n = name_end - name_start; name = XNMALLOC (n + 1, char); memcpy (name, name_start, n); name[n] = '\0'; } type = FAT_ANY; break; default: if (*format == '\0') { *invalid_reason = INVALID_UNTERMINATED_DIRECTIVE (); FDI_SET (format - 1, FMTDIR_ERROR); } else { *invalid_reason = INVALID_CONVERSION_SPECIFIER (spec.directives, *format); FDI_SET (format, FMTDIR_ERROR); } goto bad_format; } if (seen_width) { /* Register the argument specification for the width. */ if (width_number > 0) { if (allocated == spec.numbered_arg_count) { allocated = 2 * allocated + 1; spec.numbered = (struct numbered_arg *) xrealloc (spec.numbered, allocated * sizeof (struct numbered_arg)); } spec.numbered[spec.numbered_arg_count].number = width_number; spec.numbered[spec.numbered_arg_count].type = FAT_INTEGER; spec.numbered_arg_count++; } else if (width_takenext) { if (allocated == unnumbered_arg_count) { allocated = 2 * allocated + 1; spec.numbered = (struct numbered_arg *) xrealloc (spec.numbered, allocated * sizeof (struct numbered_arg)); } spec.numbered[unnumbered_arg_count].number = unnumbered_arg_count + 1; spec.numbered[unnumbered_arg_count].type = FAT_INTEGER; unnumbered_arg_count++; } } if (seen_precision) { /* Register the argument specification for the precision. */ if (precision_number > 0) { if (allocated == spec.numbered_arg_count) { allocated = 2 * allocated + 1; spec.numbered = (struct numbered_arg *) xrealloc (spec.numbered, allocated * sizeof (struct numbered_arg)); } spec.numbered[spec.numbered_arg_count].number = precision_number; spec.numbered[spec.numbered_arg_count].type = FAT_INTEGER; spec.numbered_arg_count++; } else if (precision_takenext) { if (allocated == unnumbered_arg_count) { allocated = 2 * allocated + 1; spec.numbered = (struct numbered_arg *) xrealloc (spec.numbered, allocated * sizeof (struct numbered_arg)); } spec.numbered[unnumbered_arg_count].number = unnumbered_arg_count + 1; spec.numbered[unnumbered_arg_count].type = FAT_INTEGER; unnumbered_arg_count++; } } if (type != FAT_NONE) { /* Register the argument specification for the value. */ if (name != NULL) { if (allocated == spec.named_arg_count) { allocated = 2 * allocated + 1; spec.named = (struct named_arg *) xrealloc (spec.named, allocated * sizeof (struct named_arg)); } spec.named[spec.named_arg_count].name = name; spec.named[spec.named_arg_count].type = type; spec.named_arg_count++; } else if (number > 0) { if (allocated == spec.numbered_arg_count) { allocated = 2 * allocated + 1; spec.numbered = (struct numbered_arg *) xrealloc (spec.numbered, allocated * sizeof (struct numbered_arg)); } spec.numbered[spec.numbered_arg_count].number = number; spec.numbered[spec.numbered_arg_count].type = type; spec.numbered_arg_count++; } else { if (spec.named_arg_count > 0) { *invalid_reason = INVALID_MIXES_NAMED_UNNAMED (); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (spec.numbered_arg_count > 0) { *invalid_reason = INVALID_MIXES_NUMBERED_UNNUMBERED (); FDI_SET (format, FMTDIR_ERROR); goto bad_format; } if (allocated == unnumbered_arg_count) { allocated = 2 * allocated + 1; spec.numbered = (struct numbered_arg *) xrealloc (spec.numbered, allocated * sizeof (struct numbered_arg)); } spec.numbered[unnumbered_arg_count].number = unnumbered_arg_count + 1; spec.numbered[unnumbered_arg_count].type = type; unnumbered_arg_count++; } } FDI_SET (format, FMTDIR_END); format++; } /* Verify that either all arguments are numbered, or all arguments are unnumbered, or all arguments are named. */ if ((spec.numbered_arg_count > 0) + (unnumbered_arg_count > 0) + (spec.named_arg_count > 0) > 1) abort (); /* Convert the unnumbered argument array to numbered arguments. */ if (unnumbered_arg_count > 0) spec.numbered_arg_count = unnumbered_arg_count; /* Sort the numbered argument array, and eliminate duplicates. */ else if (spec.numbered_arg_count > 1) { unsigned int i, j; bool err; qsort (spec.numbered, spec.numbered_arg_count, sizeof (struct numbered_arg), numbered_arg_compare); /* Remove duplicates: Copy from i to j, keeping 0 <= j <= i. */ err = false; for (i = j = 0; i < spec.numbered_arg_count; i++) if (j > 0 && spec.numbered[i].number == spec.numbered[j-1].number) { enum format_arg_type type1 = spec.numbered[i].type; enum format_arg_type type2 = spec.numbered[j-1].type; enum format_arg_type type_both; if (type1 == type2) type_both = type1; else { /* Incompatible types. */ type_both = FAT_NONE; if (!err) *invalid_reason = INVALID_INCOMPATIBLE_ARG_TYPES (spec.numbered[i].number); err = true; } spec.numbered[j-1].type = type_both; } else { if (j < i) { spec.numbered[j].number = spec.numbered[i].number; spec.numbered[j].type = spec.numbered[i].type; } j++; } spec.numbered_arg_count = j; if (err) /* *invalid_reason has already been set above. */ goto bad_format; } /* Sort the named argument array, and eliminate duplicates. */ if (spec.named_arg_count > 1) { unsigned int i, j; bool err; qsort (spec.named, spec.named_arg_count, sizeof (struct named_arg), named_arg_compare); /* Remove duplicates: Copy from i to j, keeping 0 <= j <= i. */ err = false; for (i = j = 0; i < spec.named_arg_count; i++) if (j > 0 && strcmp (spec.named[i].name, spec.named[j-1].name) == 0) { enum format_arg_type type1 = spec.named[i].type; enum format_arg_type type2 = spec.named[j-1].type; enum format_arg_type type_both; if (type1 == type2) type_both = type1; else { /* Incompatible types. */ type_both = FAT_NONE; if (!err) *invalid_reason = xasprintf (_("The string refers to the argument named '%s' in incompatible ways."), spec.named[i].name); err = true; } spec.named[j-1].type = type_both; free (spec.named[i].name); } else { if (j < i) { spec.named[j].name = spec.named[i].name; spec.named[j].type = spec.named[i].type; } j++; } spec.named_arg_count = j; if (err) /* *invalid_reason has already been set above. */ goto bad_format; } result = XMALLOC (struct spec); *result = spec; return result; bad_format: if (spec.named != NULL) { unsigned int i; for (i = 0; i < spec.named_arg_count; i++) free (spec.named[i].name); free (spec.named); } if (spec.numbered != NULL) free (spec.numbered); return NULL; } static void format_free (void *descr) { struct spec *spec = (struct spec *) descr; if (spec->named != NULL) { unsigned int i; for (i = 0; i < spec->named_arg_count; i++) free (spec->named[i].name); free (spec->named); } if (spec->numbered != NULL) free (spec->numbered); free (spec); } static int format_get_number_of_directives (void *descr) { struct spec *spec = (struct spec *) descr; return spec->directives; } static bool format_check (void *msgid_descr, void *msgstr_descr, bool equality, formatstring_error_logger_t error_logger, const char *pretty_msgid, const char *pretty_msgstr) { struct spec *spec1 = (struct spec *) msgid_descr; struct spec *spec2 = (struct spec *) msgstr_descr; bool err = false; if (spec1->named_arg_count > 0 && spec2->numbered_arg_count > 0) { if (error_logger) error_logger (_("format specifications in '%s' expect a hash table, those in '%s' expect individual arguments"), pretty_msgid, pretty_msgstr); err = true; } else if (spec1->numbered_arg_count > 0 && spec2->named_arg_count > 0) { if (error_logger) error_logger (_("format specifications in '%s' expect individual arguments, those in '%s' expect a hash table"), pretty_msgid, pretty_msgstr); err = true; } else { if (spec1->named_arg_count + spec2->named_arg_count > 0) { unsigned int i, j; unsigned int n1 = spec1->named_arg_count; unsigned int n2 = spec2->named_arg_count; /* Check the argument names are the same. Both arrays are sorted. We search for the first difference. */ for (i = 0, j = 0; i < n1 || j < n2; ) { int cmp = (i >= n1 ? 1 : j >= n2 ? -1 : strcmp (spec1->named[i].name, spec2->named[j].name)); if (cmp > 0) { if (error_logger) error_logger (_("a format specification for argument '%s', as in '%s', doesn't exist in '%s'"), spec2->named[j].name, pretty_msgstr, pretty_msgid); err = true; break; } else if (cmp < 0) { if (equality) { if (error_logger) error_logger (_("a format specification for argument '%s' doesn't exist in '%s'"), spec1->named[i].name, pretty_msgstr); err = true; break; } else i++; } else j++, i++; } /* Check the argument types are the same. */ if (!err) for (i = 0, j = 0; j < n2; ) { if (strcmp (spec1->named[i].name, spec2->named[j].name) == 0) { if (!(spec1->named[i].type == spec2->named[j].type)) { if (error_logger) error_logger (_("format specifications in '%s' and '%s' for argument '%s' are not the same"), pretty_msgid, pretty_msgstr, spec2->named[j].name); err = true; break; } j++, i++; } else i++; } } if (spec1->numbered_arg_count + spec2->numbered_arg_count > 0) { unsigned int i; /* Check the argument types are the same. */ if (spec1->numbered_arg_count != spec2->numbered_arg_count) { if (error_logger) error_logger (_("number of format specifications in '%s' and '%s' does not match"), pretty_msgid, pretty_msgstr); err = true; } else for (i = 0; i < spec2->numbered_arg_count; i++) if (!(spec1->numbered[i].type == spec2->numbered[i].type)) { if (error_logger) error_logger (_("format specifications in '%s' and '%s' for argument %u are not the same"), pretty_msgid, pretty_msgstr, i + 1); err = true; } } } return err; } struct formatstring_parser formatstring_ruby = { format_parse, format_free, format_get_number_of_directives, NULL, format_check }; #ifdef TEST /* Test program: Print the argument list specification returned by format_parse for strings read from standard input. */ #include static void format_print (void *descr) { struct spec *spec = (struct spec *) descr; unsigned int i; if (spec == NULL) { printf ("INVALID"); return; } if (spec->named_arg_count > 0) { if (spec->numbered_arg_count > 0) abort (); printf ("({"); for (i = 0; i < spec->named_arg_count; i++) { if (i > 0) printf (", "); printf (":%s => ", spec->named[i].name); switch (spec->named[i].type) { case FAT_ANY: printf ("s"); break; case FAT_ESCAPED_ANY: printf ("p"); break; case FAT_CHARACTER: printf ("c"); break; case FAT_INTEGER: printf ("i"); break; case FAT_FLOAT: printf ("f"); break; default: abort (); } } printf ("})"); } else { unsigned int last; printf ("("); last = 1; for (i = 0; i < spec->numbered_arg_count; i++) { unsigned int number = spec->numbered[i].number; if (i > 0) printf (" "); if (number < last) abort (); for (; last < number; last++) printf ("_ "); switch (spec->numbered[i].type) { case FAT_ANY: printf ("s"); break; case FAT_ESCAPED_ANY: printf ("p"); break; case FAT_CHARACTER: printf ("c"); break; case FAT_INTEGER: printf ("i"); break; case FAT_FLOAT: printf ("f"); break; default: abort (); } last = number + 1; } printf (")"); } } int main () { for (;;) { char *line = NULL; size_t line_size = 0; int line_len; char *invalid_reason; void *descr; line_len = getline (&line, &line_size, stdin); if (line_len < 0) break; if (line_len > 0 && line[line_len - 1] == '\n') line[--line_len] = '\0'; invalid_reason = NULL; descr = format_parse (line, false, NULL, &invalid_reason); format_print (descr); printf ("\n"); if (descr == NULL) printf ("%s\n", invalid_reason); free (invalid_reason); free (line); } return 0; } /* * For Emacs M-x compile * Local Variables: * compile-command: "/bin/sh ../libtool --tag=CC --mode=link gcc -o a.out -static -O -g -Wall -I.. -I../gnulib-lib -I../../gettext-runtime/intl -DHAVE_CONFIG_H -DTEST format-ruby.c ../gnulib-lib/libgettextlib.la" * End: */ #endif /* TEST */