386BSD 0.1 development

[unix-history] / usr / src / usr.bin / awk / fin.c

/********************************************
fin.c
copyright 1991, Michael D. Brennan

This is a source file for mawk, an implementation of
the AWK programming language.

Mawk is distributed without warranty under the terms of
the GNU General Public License, version 2, 1991.
********************************************/

/*$Log: fin.c,v $
* Revision 5.2  92/02/21  13:30:08  brennan
* fixed bug that free'd FILENAME twice if 
* command line was var=value only
* 
* Revision 5.1  91/12/05  07:56:02  brennan
* 1.1 pre-release
* 
*/

/* fin.c */

#include "mawk.h"
#include "fin.h"
#include "memory.h"
#include "bi_vars.h"
#include "field.h"
#include "symtype.h"
#include "scan.h"

#if  HAVE_FCNTL_H
#include <fcntl.h>
#endif

/* This file handles input buffering */

#ifndef MSDOS_MSC
extern int errno ;
#endif
int PROTO(isatty, (int) ) ;

static FIN *PROTO( next_main, (int) ) ;
static char *PROTO( enlarge_fin_buffer, (FIN *) ) ;
static void PROTO(set_main_to_stdin, (void) ) ;
int  PROTO( is_cmdline_assign, (char *) ) ; /* also used by init */

FIN  *FINdopen( fd, main_flag )
 int fd , main_flag ;
{ register FIN *fin = (FIN *) zmalloc( sizeof(FIN) ) ;

 fin->fd = fd ;
 fin->flags = main_flag ? (MAIN_FLAG|START_FLAG) : START_FLAG ;
 fin->buffp = fin->buff = (char *) zmalloc(BUFFSZ+1) ;
 fin->nbuffs = 1 ;
 fin->buff[0] = 0 ;

 if ( isatty(fd) && rs_shadow.type == SEP_CHAR 
      && rs_shadow.c == '\n' )
 {
   /* interactive, i.e., line buffer this file */
   if ( fd == 0 ) fin->fp = stdin ;
   else
   if ( !(fin->fp = fdopen(fd, "r")) )
   { errmsg(errno, "fdopen failed") ; exit(1) ; }
 }
 else  fin->fp = (FILE *) 0 ;

 return fin ;
}

FIN  *FINopen( filename, main_flag )
 char *filename ;
 int main_flag ;
{ int fd ;
 int oflag = O_RDONLY ;

#if  MSDOS && NO_BINMODE==0
 int bm = binmode() & 1 ;
 if ( bm ) oflag |= O_BINARY ;
#endif

 if ( filename[0] == '-' && filename[1] == 0 )
 {
#if  MSDOS  &&  NO_BINMODE==0
    if ( bm )  setmode(0, O_BINARY) ;
#endif
     return  FINdopen(0, main_flag) ;
 }

#ifdef THINK_C
 if ( (fd = open( filename , oflag )) == -1 )
#else
 if ( (fd = open( filename , oflag, 0 )) == -1 )
#endif
 { errmsg( errno, "cannot open %s" , filename ) ;
   return (FIN *) 0 ; }

 return  FINdopen( fd, main_flag ) ;
}

/* frees the buffer and fd, but leaves FIN structure until
  the user calls close() */

void FINsemi_close(fin)
 register FIN *fin ;
{ static char dead  = 0 ;

 if ( fin->buff != &dead ) 
 {
   zfree(fin->buff, fin->nbuffs*BUFFSZ + 1) ;

   if ( fin->fd )
       if ( fin->fp )  (void) fclose(fin->fp) ;
       else   (void) close(fin->fd) ;

   fin->buff = fin->buffp = &dead  ; /* marks it semi_closed */
 }
 /* else was already semi_closed */
}

/* user called close() on input file */
void  FINclose( fin )
 FIN *fin ;
{
 FINsemi_close(fin) ;
 zfree( fin , sizeof(FIN) ) ;
}

/* return one input record as determined by RS,
  from input file (FIN)  fin
*/

char *FINgets( fin, len_p )
 FIN *fin ;
 unsigned *len_p ;
{ register char *p, *q ;
 unsigned match_len ;
 unsigned r ;

restart :

 if ( ! (p = fin->buffp)[0] )  /* need a refill */
 { 
   if ( fin->flags & EOF_FLAG )
       if ( fin->flags & MAIN_FLAG )
       { fin = next_main(0) ;  goto restart ; }
       else
       { *len_p = 0 ; return (char *) 0 ; }
       
   if ( fin->fp ) /* line buffering */
     if ( ! fgets(fin->buff, BUFFSZ+1, fin->fp) )
     {
       fin->flags |= EOF_FLAG ;
       fin->buff[0] = 0 ;
       fin->buffp = fin->buff ;
       goto restart ;  /* might be main_fin */
     }
     else  /* return this line */
     {
       if ( !(p = strchr(fin->buff, '\n')) )
            p = fin->buff + BUFFSZ + 1 ; /* unlikely to occur */

       *p = 0 ; *len_p = p - fin->buff ;
       fin->buffp = p ;
#ifdef THINK_C
       /*
        *  I still don't understand why this is needed, unless fgets()
        *  also does this conversion internally for no good reason.  :-(
        */
       for ( p = fin->buff ; *p ; ++p )
           {
           if (*p == '\n')       *p = '\r';
           else if (*p == '\r')  *p = '\n';
           }
#endif
       return  fin->buff ;
     }
   else  /* block buffering */
   {
     if ( (r = fillbuff(fin->fd, fin->buff, fin->nbuffs*BUFFSZ)) == 0 )
     {
       fin->flags |= EOF_FLAG ;
       fin->buffp = fin->buff ;
       goto restart ; /* might be main */
     }
     else
     if ( r < fin->nbuffs*BUFFSZ )  fin->flags |= EOF_FLAG ;

     p = fin->buffp = fin->buff ;

     if ( fin->flags & START_FLAG )
     {
       fin->flags &= ~START_FLAG ;
       if ( rs_shadow.type == SEP_MLR  )
       { /* trim blank lines from front of file */
         while ( *p == '\n' ) p++ ;
         fin->buffp = p ;
         if ( *p == 0 )  goto  restart ;
       }
     }
   }
 }

retry: 

 switch( rs_shadow.type )
 {
   case SEP_CHAR :
           q = strchr(p, rs_shadow.c) ;
           match_len = 1 ;
           break ;

   case SEP_STR  :
           q = str_str(p, ((STRING *) rs_shadow.ptr)->str,
               match_len = ((STRING *) rs_shadow.ptr)->len ) ;
           break ;

   case SEP_MLR :
   case SEP_RE :
           q = re_pos_match(p, rs_shadow.ptr, &match_len) ;
           /* if the match is at the end, there might still be
              more to match in the file */
           if ( q && q[match_len] == 0 && ! (fin->flags & EOF_FLAG))
                q = (char *) 0 ;
           break ;
           
   default :
           bozo("type of rs_shadow") ;
 }

 if ( q )
 {  /* the easy and normal case */
    *q = 0 ;  *len_p = q - p ;
    fin->buffp = q + match_len  ;
    return p ;
 }

 if ( fin->flags & EOF_FLAG )
 { /* last line without a record terminator */
   *len_p = r = strlen(p) ; fin->buffp = p+r ;

   if ( rs_shadow.type == SEP_MLR && fin->buffp[-1] == '\n' 
        && r != 0  )
   { (*len_p)-- ; * -- fin->buffp = 0 ; }
   return p ;
 }

 if ( p == fin->buff )  
 { /* current record is too big for the input buffer, grow buffer */
   p = enlarge_fin_buffer(fin) ;
 }
 else
 {
   /* move a partial line to front of buffer and try again */
   unsigned rr ;

   p = (char *) memcpy( fin->buff, p, SIZE_T(r = strlen(p)) ) ;
   q = p+r ;  rr = fin->nbuffs*BUFFSZ - r ;

   if ( (r = fillbuff(fin->fd, q, rr)) < rr ) fin->flags |= EOF_FLAG ;
 }
 goto retry ;
}

static char *enlarge_fin_buffer(fin)
 FIN *fin ;
{
 unsigned r ;
 unsigned oldsize = fin->nbuffs*BUFFSZ+1 ;

 fin->buffp = 
 fin->buff = (char *) zrealloc(fin->buff, oldsize, oldsize+BUFFSZ);
 fin->nbuffs++ ;

 r = fillbuff(fin->fd, fin->buff + (oldsize-1) , BUFFSZ ) ;
 if ( r < BUFFSZ ) fin->flags |= EOF_FLAG ;

 return fin->buff ;
}

/*--------
 target is big enough to hold size + 1 chars 
 on exit the back of the target is zero terminated
*--------------*/
unsigned  fillbuff(fd, target, size)
 int fd ;
 register char *target ;
 unsigned size ;
{ register int r ;
 unsigned entry_size = size ;
#ifdef THINK_C
 register char *p = target;
#endif

 while ( size )
   switch( r = read(fd, target, size) )
   { case -1 :
       errmsg(errno, "read error") ;
       exit(1) ;

     case 0 :
       goto out ;

     default :
       target += r ; size -= r ;
       break ;
   }

out :
 *target = 0 ;
#ifdef THINK_C
 /*
  *  I still don't understand why this is needed, unless read() also does
  *  this conversion internally for no good reason.  :-(
  */
 for ( ; *p ; ++p )
   {
     if (*p == '\r')
       *p = '\n';
     else if (*p == '\n')
       *p = '\r';
   }
#endif
 return  entry_size - size ;
}

/* main_fin is a handle to the main input stream
  == 0  never been opened   */

FIN *main_fin ;
ARRAY   Argv ;   /* to the user this is ARGV  */
static double argi = 1.0 ;  /* index of next ARGV[argi] to try to open */


static void  set_main_to_stdin()
{
   cell_destroy( FILENAME ) ;
   FILENAME->type = C_STRING ;
   FILENAME->ptr = (PTR) new_STRING( "-") ;
   main_fin = FINdopen(0, 1) ;
}
  

void  open_main()  
{ CELL argc ;

#if  MSDOS && NO_BINMODE==0   /* set input modes */
 int k = binmode() ;

 if ( k & 1 )  setmode(0, O_BINARY) ;
 if ( k & 2 ) { setmode(1,O_BINARY) ; setmode(2,O_BINARY) ; }
#endif

 (void) cellcpy(&argc, ARGC) ;
 if ( argc.type != C_DOUBLE ) cast1_to_d(&argc) ;

 if ( argc.dval == 1.0 )  set_main_to_stdin() ;
 else  (void)  next_main(1) ;
}

static  FIN  *next_main(open_flag)
 int open_flag ; /* called by open_main() if on */
{ 
 register CELL *cp ;
 CELL   argc ;  /* copy of ARGC */
 CELL   c_argi ; /* cell copy of argi */
 CELL   argval ;    /* copy of ARGV[c_argi] */


 argval.type = C_NOINIT ;
 c_argi.type = C_DOUBLE ;

 if ( main_fin )  FINclose(main_fin) ;
 cell_destroy( FILENAME ) ;
 FILENAME->type = C_NOINIT ; 
    /* so don't free again if we go to set_main_to_stdin() */
 cell_destroy( FNR ) ;
 FNR->type = C_DOUBLE ;
 FNR->dval = 0.0 ;

 if ( cellcpy(&argc, ARGC)->type != C_DOUBLE )
         cast1_to_d(&argc) ;
 
 while ( argi < argc.dval )
 {
   c_argi.dval = argi ;
   argi += 1.0 ;

   if ( !(cp = array_find( Argv, &c_argi, NO_CREATE)) )
       continue ; /* its deleted */

   /* make a copy so we can cast w/o side effect */
   cell_destroy(&argval) ;
   cp = cellcpy(&argval, cp) ;
   if ( cp->type < C_STRING )  cast1_to_s(cp) ;
   if ( string(cp)->len == 0 )  continue ;

   /* it might be a command line assignment */
   if ( is_cmdline_assign(string(cp)->str) )  continue ;

   /* try to open it -- we used to continue on failure, 
      but posix says we should quit */
   if ( ! (main_fin = FINopen( string(cp)->str, 1 )) ) mawk_exit(1) ;

   /* success */
   (void) cellcpy(FILENAME , cp ) ;
   free_STRING( string(cp) ) ;
   return  main_fin ;
 }
 /* failure */
 cell_destroy(&argval) ;

 if ( open_flag )  /* all arguments were null or assignment */
 { set_main_to_stdin() ;  return  main_fin ; }
   
 /* real failure */
 FILENAME->type = C_STRING ;
 FILENAME->ptr = (PTR) new_STRING( "" ) ;

 { /* this is how we mark EOF on main_fin  */
   static char dead_buff = 0 ;
   static FIN  dead_main = {0, (FILE*)0, &dead_buff, &dead_buff,
      1, EOF_FLAG} ;

   return  main_fin = &dead_main ;
   /* since MAIN_FLAG is not set, FINgets won't call next_main() */
 }
}
   

int is_cmdline_assign(s)
 char *s ;
{ 
 register char *p ;
 int c ;
 SYMTAB *stp ;
 CELL *cp ;
 unsigned len ;
 CELL cell ; /* used if command line assign to pseudo field */
 CELL *fp = (CELL *) 0 ; /* ditto */

 if ( scan_code[*(unsigned char *)s] != SC_IDCHAR ) return 0 ;

 p = s+1 ;
 while ( (c = scan_code[*(unsigned char*)p]) == SC_IDCHAR 
         || c == SC_DIGIT ) p++ ;

 if ( *p != '=' )  return 0 ;

 *p = 0 ;
 stp = find(s) ;

 switch( stp->type )
 {
   case  ST_NONE :
       stp->type = ST_VAR ;
       stp->stval.cp = cp = new_CELL() ;
       break ;

   case  ST_VAR :
   case  ST_NR : /* !! no one will do this */
       cp = stp->stval.cp ;
       cell_destroy(cp) ;
       break ;

   case  ST_FIELD :
       /* must be pseudo field */
       fp = stp->stval.cp ;
       cp = &cell ;
       break ;

   default :
       rt_error(
         "cannot command line assign to %s\n\ttype clash or keyword" 
         , s ) ;
 }
 
 /* we need to keep ARGV[i] intact */
 *p++ = '=' ;
 len = strlen(p)+1 ;
 /* posix says escape sequences are on from command line */
 p = rm_escape( strcpy((char*)zmalloc(len), p) ) ;
 cp->ptr = (PTR) new_STRING(p) ;
 zfree(p,len) ;
 check_strnum(cp) ;  /* sets cp->type */
 if ( fp ) /* move it from cell to pfield[] */
 { field_assign(fp, cp) ; free_STRING(string(cp)) ; }
 return 1 ;
}