ack/util/ack/main.c
1991-04-09 15:29:46 +00:00

443 lines
9.4 KiB
C

/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*
*/
#include "ack.h"
#include "list.h"
#include "trans.h"
#include <local.h>
#include "data.h"
#include <signal.h>
#ifndef NORCSID
static char rcs_id[] = "$Header$" ;
static char rcs_ack[] = RCS_ACK ;
#endif
static int sigs[] = { SIGINT, SIGHUP, SIGTERM, 0 } ;
static int arg_count;
extern char *getenv();
main(argc,argv) char **argv ; {
register list_elem *elem ;
register char *frontend ;
register int *n_sig ;
register trf *phase ;
progname=argv[0];
varinit();
vieuwargs(argc,argv);
if ( (frontend=getenv("ACKFE")) ) {
setlist(frontend) ;
} else {
setlist(FRONTENDS);
}
if ( callname ) {
if ( machine ) {
fuerror("can not produce code for both %s and %s",
callname,machine) ;
}
machine= callname ;
}
if ( !machine && ! (machine=getenv("ACKM")) ) {
#ifdef ACKM
machine= ACKM; /* The default machine */
#else
fuerror("No machine specified") ;
#endif
}
setlist(machine);
/* Find the linker, needed for argument building */
scanlist(l_first(tr_list),elem) {
if ( t_cont(*elem)->t_linker ) {
linker= t_cont(*elem) ;
}
}
transini();
scanneeds();
sprintf(template,TMPNAME,getpid()) ;
if ( n_error && !k_flag ) exit(n_error) ;
for ( n_sig=sigs ; *n_sig ; n_sig++ ) {
if ( signal(*n_sig,noodstop)==SIG_IGN ) {
signal(*n_sig,SIG_IGN) ;
}
}
scanlist ( l_first(arguments), elem ) {
arg_count++;
}
scanlist ( l_first(arguments), elem ) {
if ( !process(l_content(*elem)) && !k_flag ) exit(1) ;
}
orig.p_path= (char *)0 ;
if ( !rts ) rts="." ;
setsvar(keeps(RTS),rts) ;
if ( linker ) getmapflags(linker) ;
scanlist(l_first(tr_list),elem) {
phase=t_cont(*elem) ;
if ( phase->t_combine && phase->t_do ) {
if ( phase->t_blocked ) {
#ifdef DEBUG
if ( debug ) {
vprint("phase %s is blocked\n",
phase->t_name) ;
}
#endif
disc_inputs(phase) ;
continue ;
}
orig.p_keep=YES ;
orig.p_keeps=NO ;
orig.p_path=phase->t_origname ;
if ( p_basename ) throws(p_basename) ;
if ( orig.p_path ) {
p_basename= keeps(basename(orig.p_path)) ;
} else {
p_basename=0 ;
}
if ( !startrf(phase) && !k_flag ) exit(1) ;
}
}
if ( n_error ) exit(n_error) ;
exit(0) ;
}
char *srcvar() {
return orig.p_path ;
}
char *getsuffix() {
return strrindex(orig.p_path, SUFCHAR) ;
}
varinit() {
/* initialize the string variables */
register char *envstr ;
extern char *em_dir;
if ( envstr=getenv("ACKDIR") ) {
em_dir = keeps(envstr);
}
setsvar(keeps(HOME),em_dir) ;
setpvar(keeps(SRC),srcvar) ;
setpvar(keeps(SUFFIX),getsuffix) ;
}
/************************* flag processing ***********************/
vieuwargs(argc,argv) char **argv ; {
register char *argp;
register int nextarg ;
register int eaten ;
int hide ;
firstarg(argv[0]) ;
nextarg= 1 ;
while ( nextarg<argc ) {
argp= argv[nextarg] ;
nextarg++ ;
if ( argp[0]!='-' || argp[1]=='l' ) {
/* Not a flag, or a library */
l_add(&arguments,argp) ;
continue ;
}
/* Flags */
hide=NO ; /* Do not hide this flags to the phases */
eaten=0 ; /* Did not 'eat' tail of flag yet */
switch ( argp[1] ) {
case 'm': if ( machine ) fuerror("Two machines?") ;
machine= &argp[2];
if (*machine == '\0') {
fuerror("-m needs machine name");
}
eaten=1 ;
break ;
case 'o': if ( nextarg>=argc ) {
fuerror("-o can't be the last flag") ;
}
if ( outfile ) fuerror("Two results?") ;
outfile= argv[nextarg++] ;
hide=YES ;
break ;
case 'O': Optlevel = atoi(&argp[2]);
if (! Optlevel) Optlevel = 1;
Optlist= &argp[2] ;
eaten=1 ;
break ;
case 'v': if ( argp[2] ) {
v_flag += atoi(&argp[2]) ;
eaten=1 ;
} else {
v_flag++ ;
}
#ifdef DEBUG
if ( v_flag>=3 ) debug=v_flag-2 ;
#endif
break ;
case 'c': if ( stopsuffix ) fuerror("Two -c flags") ;
stopsuffix= &argp[2]; eaten=1;
if ( *stopsuffix && *stopsuffix!=SUFCHAR ) {
fuerror("-c flag has invalid tail") ;
}
break ;
case 'k': k_flag++ ;
break ;
case 't': t_flag++ ;
break ;
case 'R': eaten=1;
break ;
case 'r': if ( argp[2]!=SUFCHAR ) {
error("-r must be followed by %c",SUFCHAR) ;
}
keeptail(&argp[2]); eaten=1 ;
break ;
case '.': if ( rts ) {
if ( strcmp(rts,&argp[1])!=0 )
fuerror("Two run-time systems?") ;
} else {
rts= &argp[1] ;
keephead(rts) ; keeptail(rts) ;
}
eaten=1 ;
break ;
case 0 : nill_flag++ ; eaten++ ;
hide=YES ;
break;
case 'w': w_flag++;
break ;
default: /* The flag is not recognized,
put it on the list for the sub-processes
*/
#ifdef DEBUG
if ( debug ) {
vprint("Flag %s: phase dependent\n",argp) ;
}
#endif
l_add(&flags,keeps(argp)) ;
eaten=1 ;
hide=YES ;
}
if ( !hide ) {
register char *tokeep ;
tokeep=keeps(argp) ;
if ( argp[1]=='R' ) {
do_Rflag(tokeep);
} else {
*tokeep |= NO_SCAN ;
}
l_add(&flags,tokeep) ;
}
if ( argp[2] && !eaten ) {
werror("Unexpected characters at end of %s",argp) ;
}
}
return ;
}
firstarg(argp) register char *argp ; {
register char *name ;
name=strrindex(argp,'/') ;
if ( name && *(name+1) ) {
name++ ;
} else {
name= argp ;
}
callname= name;
}
/************************* argument processing ***********************/
process(arg) char *arg ; {
/* Process files & library arguments */
trf *phase ;
register trf *tmp ;
#ifdef DEBUG
if ( debug ) vprint("Processing %s\n",arg) ;
#endif
p_suffix= strrindex(arg,SUFCHAR) ;
orig.p_keep= YES ; /* Don't throw away the original ! */
orig.p_keeps= NO;
orig.p_path= arg ;
if ( arg[0]=='-' || !p_suffix ) {
if ( linker ) add_input(&orig,linker) ;
return 1 ;
}
if ( p_basename ) throws(p_basename) ;
p_basename= keeps(basename(arg)) ;
/* Try to find a path through the transformations */
switch( getpath(&phase) ) {
case F_NOPATH :
error("Cannot produce the desired file from %s",arg) ;
if ( linker ) add_input(&orig,linker) ;
return 1 ;
case F_NOMATCH :
if ( stopsuffix ) werror("Unknown suffix in %s",arg) ;
if ( linker ) add_input(&orig,linker) ;
return 1 ;
case F_OK :
break ;
}
if ( !phase ) return 1 ;
for ( tmp=phase ; tmp ; tmp=tmp->t_next )
if ( !tmp->t_visited ) {
/* The flags are set up once.
At the first time each phase is in a list.
The program name and flags may already be touched
by vieuwargs.
*/
tmp->t_visited=YES ;
if ( tmp->t_priority<0 )
werror("Using phase %s (negative priority)",
tmp->t_name) ;
if ( !rts && tmp->t_rts ) rts= tmp->t_rts ;
if ( tmp->t_needed ) {
add_head(tmp->t_needed) ;
add_tail(tmp->t_needed) ;
}
}
if ( phase->t_combine ) {
add_input(&orig,phase) ;
return 1 ;
}
in= orig ;
if ( !nill_flag && arg_count > 1 ) {
printf("%s\n",arg) ;
}
return startrf(phase) ;
}
int startrf(first) trf *first ; {
/* Start the transformations at the indicated phase */
register trf *phase ;
phase=first ;
for(;;) {
switch ( phase->t_prep ) {
/* BEWARE, sign extension */
default : if ( !mayprep() ) break ;
case YES: if ( !transform(cpp_trafo) ) {
n_error++ ;
#ifdef DEBUG
vprint("Pre-processor failed\n") ;
#endif
return 0 ;
}
case NO :
break ;
}
if ( cpp_trafo && stopsuffix &&
strcmp(cpp_trafo->t_out,stopsuffix)==0 ) {
break ;
}
if ( !transform(phase) ) {
n_error++ ;
block(phase->t_next) ;
#ifdef DEBUG
if ( debug ) {
if ( !orig.p_path ) {
vprint("phase %s failed\n",
phase->t_name ) ;
} else {
vprint("phase %s for %s failed\n",
phase->t_name,orig.p_path) ;
}
}
#endif
return 0 ;
}
first=NO ;
phase=phase->t_next ;
if ( !phase ) {
#ifdef DEBUG
if ( debug ) vprint("Transformation sequence complete for %s\n",
orig.p_path) ;
#endif
/* No more work on this file */
if ( !in.p_keep ) {
fatal("attempt to discard the result file") ;
}
if ( in.p_keeps ) throws(in.p_path) ;
in.p_keep=NO ; in.p_keeps=NO ; in.p_path= (char *) 0 ;
return 1 ;
}
if ( phase->t_combine ) {
add_input(&in,phase) ;
break ;
}
}
return 1 ;
}
block(first) trf *first ; {
/* One of the input files of this phase could not be produced,
block all combiners taking their input from this one.
*/
register trf *phase ;
for ( phase=first ; phase ; phase=phase->t_next ) {
if ( phase->t_combine ) phase->t_blocked=YES ;
}
}
mayprep() {
int file ;
char fc ;
file=open(in.p_path,0);
if ( file<0 ) return 0 ;
if ( read(file,&fc,1)!=1 ) fc=0 ;
close(file) ;
return fc=='#' ;
}
keephead(suffix) char *suffix ; {
l_add(&head_list, suffix) ;
}
keeptail(suffix) char *suffix ; {
l_add(&tail_list, suffix) ;
}
scanneeds() {
register list_elem *elem ;
scanlist(l_first(head_list), elem) { setneeds(l_content(*elem),0) ; }
l_clear(&head_list) ;
scanlist(l_first(tail_list), elem) { setneeds(l_content(*elem),1) ; }
l_clear(&tail_list) ;
}
setneeds(suffix,tail) char *suffix ; {
trf *phase ;
p_suffix= suffix ;
switch ( getpath(&phase) ) {
case F_OK :
for ( ; phase ; phase= phase->t_next ) {
if ( phase->t_needed ) {
if ( tail )
add_tail(phase->t_needed) ;
else
add_head(phase->t_needed) ;
}
}
break ;
case F_NOMATCH :
werror("\"%s\": unrecognized suffix",suffix) ;
break ;
case F_NOPATH :
werror("sorry, cannot produce the desired file(s) from %s files",
suffix) ;
break ;
}
}