Provided by: libtecla-dev_1.6.3-3.1build1_amd64 bug

NAME

       ef_expand_file, del_ExpandFile, ef_last_error, ef_list_expansions, new_ExpandFile - expand
       filenames containing ~user/$envvar and wildcard expressions

SYNOPSIS

       #include <libtecla.h>

       ExpandFile *new_ExpandFile(void);

       ExpandFile *del_ExpandFile(ExpandFile *ef);

       FileExpansion *ef_expand_file(ExpandFile *ef,
                                     const char *path,
                                     int pathlen);

       int ef_list_expansions(FileExpansion *result, FILE *fp,
                              int term_width);

       const char *ef_last_error(ExpandFile *ef);

DESCRIPTION

       The ef_expand_file() function is part of the tecla library (see the libtecla(3) man page).
       It  expands a specified filename, converting ~user/ and ~/ expressions at the start of the
       filename to the corresponding home directories, replacing $envvar with the  value  of  the
       corresponding  environment  variable, and then, if there are any wildcards, matching these
       against existing filenames. Backslashes in the input filename are interpreted as  escaping
       any  special  meanings  of  the  characters  that  follow  them.  Only backslahes that are
       themselves preceded by backslashes are preserved in the expanded filename.

       In the presence of wildcards, the returned list of filenames only includes  the  names  of
       existing  files  which  match  the wildcards. Otherwise, the original filename is returned
       after expansion of tilde and dollar expressions, and the result  is  not  checked  against
       existing files. This mimics the file-globbing behavior of the unix tcsh shell.

       The supported wildcards and their meanings are:
         *        -  Match any sequence of zero or more characters.
         ?        -  Match any single character.
         [chars]  -  Match any single character that appears in
                     'chars'.  If 'chars' contains an expression of
                     the form a-b, then any character between a and
                     b, including a and b, matches. The '-'
                     character looses its special meaning as a
                     range specifier when it appears at the start
                     of the sequence of characters. The ']'
                     character also looses its significance as the
                     terminator of the range expression if it
                     appears immediately after the opening '[', at
                     which point it is treated one of the
                     characters of the range. If you want both '-'
                     and ']' to be part of the range, the '-'
                     should come first and the ']' second.

         [^chars] -  The same as [chars] except that it matches any
                     single character that doesn't appear in
                     'chars'.

       Note  that  wildcards  never  match  the initial dot in filenames that start with '.'. The
       initial '.' must be explicitly specified in the filename. This again mimics  the  globbing
       behavior  of  most  unix shells, and its rational is based in the fact that in unix, files
       with names that start with '.' are usually  hidden  configuration  files,  which  are  not
       listed by default by the ls command.

       The following is a complete example of how to use the file expansion function.

         #include <stdio.h>
         #include <libtecla.h>

         int main(int argc, char *argv[])
         {
           ExpandFile *ef;      /* The expansion resource object */
           char *filename;      /* The filename being expanded */
           FileExpansion *expn; /* The results of the expansion */
           int i;

           ef = new_ExpandFile();
           if(!ef)
             return 1;

           for(arg = *(argv++); arg; arg = *(argv++)) {
             if((expn = ef_expand_file(ef, arg, -1)) == NULL) {
               fprintf(stderr, "Error expanding %s (%s).\n", arg,
                                ef_last_error(ef));
             } else {
               printf("%s matches the following files:\n", arg);
               for(i=0; i<expn->nfile; i++)
                 printf(" %s\n", expn->files[i]);
             }
           }

           ef = del_ExpandFile(ef);
           return 0;
         }

       Descriptions of the functions used above are as follows:

         ExpandFile *new_ExpandFile(void)

       This  function creates the resources used by the ef_expand_file() function. In particular,
       it maintains the memory that is used to record the array of  matching  filenames  that  is
       returned  by  ef_expand_file().  This array is expanded as needed, so there is no built in
       limit to the number of files that can be matched.

         ExpandFile *del_ExpandFile(ExpandFile *ef)

       This  function  deletes  the  resources  that  were  returned  by  a  previous   call   to
       new_ExpandFile().  It always returns NULL (ie a deleted object). It does nothing if the ef
       argument is NULL.

       A container of the following type is returned by ef_expand_file().

         typedef struct {
           int exists;   /* True if the files in files[] exist */
           int nfile;    /* The number of files in files[] */
           char **files; /* An array of 'nfile' filenames. */
         } FileExpansion;

         FileExpansion *ef_expand_file(ExpandFile *ef,
                                       const char *path,
                                       int pathlen)

       The ef_expand_file() function performs filename expansion, as documented at the  start  of
       this  section.  Its  first  argument  is a resource object returned by new_ExpandFile(). A
       pointer to the start of the filename to be matched is passed via the path  argument.  This
       must  be  a  normal NUL terminated string, but unless a length of -1 is passed in pathlen,
       only the first pathlen characters will be used in the filename expansion.  If  the  length
       is specified as -1, the whole of the string will be expanded.

       The  function  returns  a  pointer  to  a  container who's contents are the results of the
       expansion. If there were no wildcards in the filename, the nfile member will be 1, and the
       exists  member should be queried if it is important to know if the expanded file currently
       exists or not. If there were wildcards, then the contained files[] array will contain  the
       names  of  the  nfile  existing files that matched the wildcarded filename, and the exists
       member will have the value 1. Note that the returned container belongs to the specified ef
       object, and its contents will change on each call, so if you need to retain the results of
       more than one call to ef_expand_file(), you should either  make  a  private  copy  of  the
       returned results, or create multiple file-expansion resource objects via multiple calls to
       new_ExpandFile().

       On error, NULL is returned, and an explanation of the error can be determined  by  calling
       ef_last_error(ef).

         const char *ef_last_error(ExpandFile *ef)

       This function returns the message which describes the error that occurred on the last call
       to ef_expand_file(), for the given (ExpandFile *ef) resource object.

         int ef_list_expansions(FileExpansion *result, FILE *fp,
                                int terminal_width);

       The  ef_list_expansions()  function  provides  a  convenient  way  to  list  the  filename
       expansions  returned  by  ef_expand_file().  Like  the  unix  ls  command, it arranges the
       filenames into equal width columns, each column having the width of the largest file.  The
       number  of  columns used is thus determined by the length of the longest filename, and the
       specified terminal width. Beware  that  filenames  that  are  longer  than  the  specified
       terminal  width  are  printed without being truncated, so output longer than the specified
       terminal width can occur. The list is written to the stdio  stream  specified  by  the  fp
       argument.

THREAD SAFETY

       In  multi-threaded  programs, you should use the libtecla_r.a version of the library. This
       uses POSIX reentrant functions  where  available  (hence  the  _r  suffix),  and  disables
       features  that  rely  on  non-reentrant  system functions. Currently there are no features
       disabled in this module.

       Using the libtecla_r.a version of the library, it is safe to use the  facilities  of  this
       module  in  multiple  threads,  provided  that  each  thread  uses  a separately allocated
       ExpandFile object. In other words, if two threads want to do file expansion,  they  should
       each call new_ExpandFile() to allocate their own file-expansion objects.

FILES

       libtecla.a    -    The tecla library
       libtecla.h    -    The tecla header file.

SEE ALSO

       libtecla(3), gl_get_line(3), cpl_complete_word(3),
       pca_lookup_file(3)

AUTHOR

       Martin Shepherd  (mcs@astro.caltech.edu)

                                                                                ef_expand_file(3)