554 lines
12 KiB
C
554 lines
12 KiB
C
/* $Header$ */
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/*
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* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
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* See the copyright notice in the ACK home directory, in the file "Copyright".
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*/
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/* S H A R E D F I L E
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*
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* G E T . C
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*/
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#include <stdio.h>
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#include "types.h"
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#include "def.h"
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#include "debug.h"
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#include "global.h"
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#include "lset.h"
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#include "cset.h"
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#include "get.h"
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#include "alloc.h"
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#include "map.h"
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#include "aux.h"
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#include "../../../h/em_spec.h"
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#include "../../../h/em_mnem.h"
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#include "../../../h/em_pseu.h"
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#include "../../../h/em_mes.h"
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FILE *curinp;
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block_id lastbid; /* block identifying number */
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lab_id lastlabid; /* last label identifier */
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/* creating new identifying numbers, i.e. numbers that did not
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* appear in the input.
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*/
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bblock_p freshblock()
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{
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bblock_p b;
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b = newbblock();
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b->b_id = ++lastbid;
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return b;
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}
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lab_id freshlabel()
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{
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curproc->p_nrlabels++;
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return ++lastlabid;
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}
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#define getmark() getbyte()
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short getshort() {
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register int l_byte, h_byte;
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l_byte = getbyte();
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h_byte = getbyte();
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if ( h_byte>=128 ) h_byte -= 256 ;
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return l_byte | (h_byte*256) ;
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}
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offset getoff() {
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register long l;
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register int h_byte;
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l = getbyte();
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l |= ((unsigned) getbyte())*256 ;
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l |= getbyte()*256L*256L ;
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h_byte = getbyte() ;
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if ( h_byte>=128 ) h_byte -= 256 ;
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return l | (h_byte*256L*256*256L) ;
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}
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STATIC int getint()
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{
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/* Read an integer from the input file. This routine is
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* only used when reading a bitvector-set. We expect an
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* integer to be either a short or a long.
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*/
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if (sizeof(int) == sizeof(short)) {
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return getshort();
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} else {
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assert (sizeof(int) == sizeof(offset));
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return getoff();
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}
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}
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/* getptable */
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loop_p getloop(id)
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loop_id id;
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{
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/* Map a loop identifier onto a loop struct.
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* If no struct was alocated yet for this identifier then
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* allocate one now and update the loop-map table.
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*/
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assert (id > 0 && id <=lplength);
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if (lpmap[id] == (loop_p) 0) {
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lpmap[id] = newloop();
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lpmap[id]->lp_id = id;
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}
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return (lpmap[id]);
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}
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bblock_p getblock(id)
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block_id id;
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{
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/* Map a basic block identifier onto a block struct
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* If no struct was alocated yet for this identifier then
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* allocate one now and update the block-map table.
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*/
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assert (id >= 0 && id <=blength);
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if (id == 0) return (bblock_p) 0;
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if (bmap[id] == (bblock_p) 0) {
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bmap[id] = newbblock();
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bmap[id]->b_id = id;
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}
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return (bmap[id]);
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}
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lset getlset(p)
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char *((*p) ());
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{
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/* Read a 'long' set. Such a set is represented externally
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* as a sequence of identifying numbers terminated by a 0.
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* The procedural parameter p maps such a number onto a
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* pointer to a struct (bblock_p, loop_p etc.).
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*/
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lset s;
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int id;
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s = Lempty_set();
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while (id = getshort()) {
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Ladd( (*p) (id), &s);
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}
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return s;
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}
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cset getcset()
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{
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/* Read a 'compact' set. Such a set is represented externally
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* a row of bytes (its bitvector) preceded by its length.
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*/
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cset s;
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register short i;
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s = Cempty_set(getshort());
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for (i = 0; i <= DIVWL(s->v_size-1);i++) {
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s->v_bits[i] = getint();
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}
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return s;
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}
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proc_p getptable(pname)
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char *pname;
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{
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short i;
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proc_p head, p, *pp;
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short all;
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if ((curinp = fopen(pname,"r")) == NULL) {
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error("cannot open %s",pname);
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}
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plength = getshort(); /* table is preceded by its length */
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assert(plength >= 0);
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assert(plength < 1000); /* See if its a reasonable number */
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pmap = (proc_p *) newmap(plength); /* allocate the pmap table */
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all = getshort();
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head = (proc_p) 0;
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pp = &head;
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for (i = 0; i < plength; i++) {
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if (feof(curinp)) {
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error("unexpected eof %s", pname);
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}
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p = newproc();
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p->p_id = getshort();
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assert(p->p_id > 0 && p->p_id <= plength);
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pmap[p->p_id] = p;
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p->p_flags1 = getbyte();
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if (p->p_flags1 & PF_BODYSEEN) {
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p->p_nrlabels = getshort();
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p->p_localbytes = getoff();
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p->p_nrformals = getoff();
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if (all) {
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p->p_change = newchange();
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p->p_change->c_ext = getcset();
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p->p_change->c_flags = getshort();
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p->p_use = newuse();
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p->p_use->u_flags = getshort();
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p->p_calling = getcset();
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}
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}
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*pp = p;
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pp = &(p->p_next);
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}
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fclose(curinp);
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OUTTRACE("have read proc table of length %d",plength);
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return head; /* pointer to first structure of list */
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}
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/* getdtable */
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dblock_p getdtable(dname)
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char *dname;
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{
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/* Read the data block table. Every data block may
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* have a list of objects and a list of values (arguments),
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* each of which is also represented by a structure.
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* So the input file contains a mixture of dblock,
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* obj and arg records, each one having its own
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* attributes. A mark indicates which one comes next.
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* We assume that the syntactic structure of the input
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* is correct.
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*/
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dblock_p head, d, *dp;
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obj_p obj, *op;
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arg_p arg, *ap;
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/* dp, op an ap tell how the next dblock/obj/arg
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* has to be linked.
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*/
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int n;
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head = (dblock_p) 0;
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dp = &head;
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if ((curinp = fopen(dname,"r")) == NULL) {
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error("cannot open %s", dname);
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}
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olength = getshort();
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assert(olength >= 0);
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assert(olength < 5000); /* See if its a reasonable number */
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/* total number of objects */
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omap = (obj_p *) newmap(olength); /* allocate omap table */
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while (TRUE) {
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n = getmark();
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if (feof(curinp)) break;
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switch(n) {
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case MARK_DBLOCK:
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d = *dp = newdblock();
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op = &d->d_objlist;
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ap = &d->d_values;
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dp = &d->d_next;
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d->d_id = getshort();
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d->d_pseudo = getbyte();
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d->d_size = getoff();
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d->d_fragmnr = getshort();
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d->d_flags1 = getbyte();
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break;
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case MARK_OBJ:
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obj = *op = newobject();
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op = &obj->o_next;
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obj->o_dblock = d;
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obj->o_id = getshort();
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assert(obj->o_id >0);
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assert(obj->o_id <= olength);
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omap[obj->o_id] = obj;
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obj->o_size = getoff();
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obj->o_off = getoff();
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break;
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case MARK_ARG:
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arg = *ap = newarg(ARGOFF);
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ap = &arg->a_next;
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arg->a_a.a_offset = getoff();
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break;
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default:
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assert(FALSE);
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}
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}
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OUTTRACE("have read data table, %d objects",olength);
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return head;
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}
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/* getbblocks */
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STATIC argstring(length,abp)
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short length;
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register argb_p abp;
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{
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while (length--) {
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if (abp->ab_index == NARGBYTES)
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abp = abp->ab_next = newargb();
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abp->ab_contents[abp->ab_index++] = getbyte();
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}
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}
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STATIC arg_p readargs()
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{
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/* Read a list of arguments and allocate structures
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* for them. Return a pointer to the head of the list.
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*/
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arg_p head, arg, *ap;
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byte t;
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short length;
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ap = &head;
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for (;;) {
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/* every argument list is terminated by an
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* ARGCEND byte in Intermediate Code.
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*/
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t = getbyte();
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if (t == (byte) ARGCEND) {
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return head;
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}
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arg = *ap = newarg(t);
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ap = &arg->a_next;
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switch((short) t) {
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case ARGOFF:
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arg->a_a.a_offset = getoff();
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break;
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case ARGINSTRLAB:
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arg->a_a.a_instrlab = getshort();
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break;
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case ARGOBJECT:
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arg->a_a.a_obj = omap[getshort()];
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/* Read an object identifier (o_id)
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* and use the omap table to obtain
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* a pointer to the rigth obj struct.
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*/
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break;
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case ARGPROC:
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arg->a_a.a_proc = pmap[getshort()];
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/* Read a procedure identifier (p_id) */
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break;
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case ARGSTRING:
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length = getshort();
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argstring(length, &arg->a_a.a_string);
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break;
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case ARGICN:
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case ARGUCN:
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case ARGFCN:
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length = getshort();
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arg->a_a.a_con.ac_length = length;
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/* size of the constant */
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argstring(getshort(),
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&arg->a_a.a_con.ac_con);
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break;
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default:
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assert(FALSE);
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}
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}
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}
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line_p read_line(p_out)
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proc_p *p_out;
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{
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/* Read a line of EM code (i.e. one instruction)
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* and its arguments (if any).
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* In Intermediate Code, the first byte is the
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* instruction code and the second byte denotes the kind
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* of operand(s) that follow.
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*/
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line_p lnp;
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byte instr;
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instr = getbyte();
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if (feof(curinp)) return (line_p) 0;
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lnp = newline(getbyte());
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linecount++;
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lnp->l_instr = instr;
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switch(TYPE(lnp)) {
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/* read the operand(s) */
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case OPSHORT:
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SHORT(lnp) = getshort();
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break;
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case OPOFFSET:
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OFFSET(lnp) = getoff();
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break;
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case OPINSTRLAB:
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INSTRLAB(lnp) = getshort();
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if ((instr & BMASK) == op_lab) {
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/* defining occurrence of an
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* instruction label.
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*/
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lmap[INSTRLAB(lnp)] = lnp;
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}
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break;
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case OPOBJECT:
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OBJ(lnp) = omap[getshort()];
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break;
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case OPPROC:
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PROC(lnp) = pmap[getshort()];
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if ((instr & BMASK) == ps_pro) {
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/* enter new procedure: allocate a
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* label map and a label-block map table.
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*/
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*p_out = PROC(lnp);
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llength = (*p_out)->p_nrlabels;
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lmap = (line_p *) newmap(llength);
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/* maps lab_id to line structure */
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lbmap = (bblock_p *) newmap(llength);
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/* maps lab_id to bblock structure */
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lastlabid = llength;
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}
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break;
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case OPLIST:
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ARG(lnp) = readargs();
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break;
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default:
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assert(TYPE(lnp) == OPNO);
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}
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return lnp;
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}
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message(lnp)
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line_p lnp;
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{
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/* See if lnp is some useful message.
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* (e.g. a message telling that a certain local variable
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* will never be referenced indirectly, so it may be put
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* in a register. If so, add it to the mesregs set.)
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*/
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assert(ARG(lnp)->a_type == ARGOFF);
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switch((int) aoff(ARG(lnp),0)) {
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case ms_reg:
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if (ARG(lnp)->a_next != (arg_p) 0) {
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/* take only "mes 3" with further arguments */
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Ladd((Lelem_t) lnp,&mesregs);
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}
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break;
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case ms_err:
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error("ms_err encountered");
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case ms_opt:
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error("ms_opt encountered");
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case ms_emx:
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ws = aoff(ARG(lnp),1);
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ps = aoff(ARG(lnp),2);
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break;
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}
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}
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line_p getlines(lf,n,p_out,collect_mes)
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FILE *lf;
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int n;
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proc_p *p_out;
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bool collect_mes;
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{
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/* Read n lines of EM text and doubly link them.
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* Also process messages.
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*/
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line_p head, *pp, l, lprev;
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curinp = lf; /* EM input file */
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pp = &head;
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lprev = (line_p) 0;
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while (n--) {
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l = *pp = read_line(p_out);
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PREV(l) = lprev;
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pp = &l->l_next;
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lprev = l;
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if (collect_mes && INSTR(l) == ps_mes) {
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message(l);
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}
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}
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*pp = (line_p) 0;
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return head;
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}
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bool getunit(gf,lf,kind_out,g_out,l_out,p_out,collect_mes)
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FILE *gf,*lf;
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short *kind_out;
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bblock_p *g_out;
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line_p *l_out;
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proc_p *p_out;
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bool collect_mes;
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{
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/* Read control flow graph (gf) and EM text (lf) of the next procedure.
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* A pointer to the proctable entry of the read procedure is
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* returned via p_out.
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* This routine also constructs the bmap and lpmap tables.
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* Note that we allocate structs for basic blocks and loops
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* at their first reference rather than at when we read them.
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*/
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int n,i;
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bblock_p head, *pp, b;
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loop_p lp;
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curinp = gf;
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blength = getshort(); /* # basic blocks in this procedure */
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if (feof(curinp)) return FALSE;
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if (blength == 0) {
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/* data unit */
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*kind_out = LDATA;
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n = getshort();
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*l_out = getlines(lf,n,p_out,collect_mes);
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return TRUE;
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}
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*kind_out = LTEXT;
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bmap = (bblock_p *) newmap(blength); /* maps block_id on bblock_p */
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lplength = getshort(); /* # loops in this procedure */
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lpmap = (loop_p *) newmap(lplength); /* maps loop_id on loop_p */
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/* Read the basic blocks and the EM text */
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pp = &head; /* we use a pointer-to-a-pointer to link the structs */
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for (i = 0; i < blength; i++) {
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b = getblock(getshort());
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n = getshort(); /* #instructions in the block */
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b->b_succ = getlset(getblock);
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b->b_pred = getlset(getblock);
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b->b_idom = getblock(getshort());
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b->b_loops = getlset(getloop);
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b->b_flags = getshort();
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b->b_start = getlines(lf,n,p_out,collect_mes); /* read EM text */
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*pp = b;
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pp = &b->b_next;
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curinp = gf;
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}
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lastbid = blength; /* last block_id */
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/* read the information about loops */
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curproc->p_loops = Lempty_set();
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for (i = 0; i < lplength; i++) {
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lp = getloop(getshort());
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lp->lp_level = getshort(); /* nesting level */
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lp->lp_entry = getblock(getshort()); /* entry block of the loop */
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lp->lp_end = getblock(getshort()); /* tail of back edge of loop */
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Ladd((Lelem_t)lp,&curproc->p_loops);
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}
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*g_out = head;
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return TRUE;
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}
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