1985-01-10 13:35:39 +00:00
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#ifndef lint
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static char rcsid[] = "$Header$";
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#endif
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1985-04-18 15:21:16 +00:00
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#include "../../h/out.h"
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1985-01-10 13:35:39 +00:00
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#include "const.h"
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#include "defs.h"
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#include "memory.h"
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#include "orig.h"
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#include "scan.h"
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extern bool incore;
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extern int flagword;
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1985-06-10 10:48:49 +00:00
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static adjust_names();
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static handle_relos();
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static put_locals();
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static compute_origins();
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1985-01-10 13:35:39 +00:00
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/*
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* We know all there is to know about the current module.
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* Now we relocate the values in the emitted bytes and write
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* those to the final output file. Then we compute the relative origins
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* for the next module.
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*/
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finish()
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{
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struct outhead *head;
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struct outsect *sects;
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struct outname *names;
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char *chars;
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get_modul();
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head = (struct outhead *)modulptr(IND_HEAD);
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sects = (struct outsect *)modulptr(IND_SECT(*head));
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names = (struct outname *)modulptr(IND_NAME(*head));
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chars = (char *)modulptr(IND_CHAR(*head));
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adjust_names(names, head, chars);
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handle_relos(head, sects, names);
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if (!incore && !(flagword & SFLAG)) {
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put_locals(names, head->oh_nname, sects);
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#ifdef SYMDBUG
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put_dbug(OFF_DBUG(*head));
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#endif SYMDBUG
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}
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compute_origins(sects, head->oh_nsect);
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skip_modul(head);
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}
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/*
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* Adjust all local names for the move into core.
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*/
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static
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adjust_names(name, head, chars)
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register struct outname *name;
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struct outhead *head;
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register char *chars;
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{
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register int cnt;
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register ind_t charoff;
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cnt = head->oh_nname;
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charoff = OFF_CHAR(*head);
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while (cnt--) {
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if (name->on_foff != (long)0)
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name->on_mptr = chars + name->on_foff - charoff;
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name++;
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}
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}
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/*
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* If all sections are in core, we can access them randomly, so we need only
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* scan the relocation table once. Otherwise we must for each section scan
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* the relocation table again, because the relocation entries of one section
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* need not be consecutive.
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*/
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static
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handle_relos(head, sects, names)
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struct outhead *head;
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struct outsect *sects;
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struct outname *names;
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{
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register struct outrelo *relo;
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register int sectindex;
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register int nrelo;
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register char *emit;
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extern char *getemit();
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extern struct outrelo *nextrelo();
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if (incore) {
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nrelo = head->oh_nrelo; sectindex = -1;
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startrelo(head); relo = nextrelo();
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while (nrelo--) {
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if (sectindex != relo->or_sect - S_MIN) {
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sectindex = relo->or_sect - S_MIN;
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emit = getemit(head, sects, sectindex);
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}
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relocate(head, emit, names, relo, sects);
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relo++;
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}
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} else {
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for (sectindex = 0; sectindex < head->oh_nsect; sectindex++) {
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emit = getemit(head, sects, sectindex);
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nrelo = head->oh_nrelo; startrelo(head);
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while (nrelo--) {
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relo = nextrelo();
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if (relo->or_sect - S_MIN == sectindex) {
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relocate(head,emit,names,relo,sects);
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/*
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* Write out the (probably changed)
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* relocation information.
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*/
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if (flagword & RFLAG)
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wrt_relo(relo);
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}
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}
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wrt_emit(emit, sectindex, sects[sectindex].os_flen);
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/*
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* XXX We should be able to free the emitted bytes.
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*/
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}
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}
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}
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/*
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* Write out the local names that must be saved.
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*/
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static
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put_locals(name, nnames, sects)
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register struct outname *name;
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register ushort nnames;
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register struct outsect *sects;
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{
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while (nnames--) {
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if ((name->on_type & S_EXT) == 0 && mustsavelocal(name)) {
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namerelocate(name, sects);
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addbase(name);
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wrt_name(name);
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}
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name++;
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}
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}
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/*
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* Add all flen's and all (size - flen == zero)'s of preceding sections
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* with the same number.
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*/
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static
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compute_origins(sect, nsect)
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register struct outsect *sect;
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register ushort nsect;
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{
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extern struct orig relorig[];
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register struct orig *orig = relorig;
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while (nsect--) {
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orig->org_flen += sect->os_flen;
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orig->org_zero += sect->os_size - sect->os_flen;
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orig++; sect++;
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}
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}
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#ifdef SYMDBUG
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/*
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* Write out what is after the string area. This is likely to be
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* debugging information.
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*/
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static
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put_dbug(offdbug)
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long offdbug;
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{
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char buf[512];
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register int nbytes;
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register long dbugsize;
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extern long objectsize;
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extern long position;
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dbugsize = objectsize - offdbug;
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seek(position + offdbug);
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while (dbugsize) {
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nbytes = dbugsize > 512 ? 512 : dbugsize;
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read_char(buf, (long)nbytes);
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wrt_dbug(buf, nbytes);
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dbugsize -= nbytes;
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}
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}
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#endif SYMDBUG
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