ack/mach/proto/ncg/codegen.c

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#ifndef NORCSID
static char rcsid[] = "$Header$";
#endif
#include "assert.h"
#include "param.h"
#include "tables.h"
#include "types.h"
#include <cgg_cg.h>
#include "data.h"
#include "result.h"
#include "state.h"
#include "equiv.h"
#include "extern.h"
/*
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* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
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*
* Author: Hans van Staveren
*/
#define ALLOW_NEXTEM /* code generator is allowed new try of NEXTEM
in exceptional cases */
byte startupcode[] = { DO_NEXTEM };
byte *nextem();
unsigned costcalc();
unsigned docoerc();
unsigned stackupto();
string tostring();
string ad2str();
#ifdef NDEBUG
#define DEBUG(string)
#else
#include <stdio.h>
#define DEBUG(string) {if(Debug) fprintf(stderr,"%-*d%s\n",4*level,level,string);}
#endif
#define BROKE() {assert(origcp!=startupcode);DEBUG("BROKE");totalcost=INFINITY;goto doreturn;}
#define CHKCOST() {if (totalcost>=costlimit) BROKE();}
#ifdef TABLEDEBUG
int tablelines[MAXTDBUG];
int ntableline;
int set_fd,set_size;
short *set_val;
char *set_flag;
#endif
unsigned codegen(codep,ply,toplevel,costlimit,forced) byte *codep; unsigned costlimit; {
#ifndef NDEBUG
byte *origcp=codep;
static int level=0;
#endif
unsigned totalcost = 0;
int inscoerc=0;
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int procarg[MAXPROCARG];
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#ifdef ALLOW_NEXTEM
static int paniced;
char *savebp = 0;
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#endif
state_t state;
#define SAVEST savestatus(&state)
#define RESTST restorestatus(&state)
#define FREEST /* nothing */
#ifdef TABLEDEBUG
extern char *tablename;
#endif
#ifndef NDEBUG
assert(costlimit <= INFINITY);
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level++;
DEBUG("Entering codegen");
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if (Debug > 1) fprintf(stderr, "toplevel = %d\n", toplevel);
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#endif
for (;;) {
switch( (*codep++)&037 ) {
default:
assert(FALSE);
/* NOTREACHED */
#ifdef TABLEDEBUG
case DO_DLINE: {
int n;
getint(n,codep);
tablelines[ntableline++] = n;
if (ntableline>=MAXTDBUG)
ntableline -= MAXTDBUG;
if (set_fd)
set_val[n>>4] &= ~(1<<(n&017));
#ifndef NDEBUG
if (Debug)
fprintf(stderr,"code from \"%s\", line %d\n",tablename,n);
#endif
break;
}
#endif
case DO_NEXTEM: {
byte *bp;
int n;
unsigned mindistance,dist;
register i;
int cindex;
int npos,pos[MAXRULE];
unsigned mincost,t;
DEBUG("NEXTEM");
tokpatlen = 0;
nallreg=0;
if (toplevel) {
garbage_collect();
totalcost=0;
} else {
if (--ply <= 0)
goto doreturn;
}
if (stackheight>MAXFSTACK-7) {
#ifndef NDEBUG
if (Debug)
fprintf(stderr,"Fakestack overflow threatens(%d), action ...\n",stackheight);
#endif
totalcost += stackupto(&fakestack[6],ply,toplevel);
}
#ifndef ALLOW_NEXTEM
bp = nextem(toplevel);
#else
if (toplevel) paniced=0;
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savebp = nextem(toplevel);
panic:
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if (toplevel) totalcost = 0;
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bp = savebp;
#endif
if (bp == 0) {
/*
* No pattern found, can be pseudo or error
* in table.
*/
if (toplevel) {
codep--;
DEBUG("pseudo");
dopseudo();
} else
goto doreturn;
} else {
#ifndef NDEBUG
chkregs();
#endif
n = *bp++;
if (n==0) { /* "procedure" */
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int j, nargs;
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getint(i,bp);
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getint(nargs,bp);
assert(nargs <= MAXPROCARG);
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for (j = 0; j < nargs; j++) {
getint(procarg[j],bp);
}
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bp= &pattern[i];
n = *bp++;
DEBUG("PROC_CALL");
}
assert(n>0 && n<=MAXRULE);
if (n>1) {
mindistance = MAXINT; npos=0;
for(i=0;i<n;i++) {
getint(cindex,bp);
dist=distance(cindex);
#ifndef NDEBUG
if (Debug)
fprintf(stderr,"distance of pos %d is %u\n",i,dist);
#endif
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if (dist<=mindistance
#ifdef ALLOW_NEXTEM
|| paniced
#endif
) {
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if (dist<mindistance) {
if(dist==0)
goto gotit;
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if (! paniced) npos=0;
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mindistance = dist;
}
#ifdef ALLOW_NEXTEM
if (dist < MAXINT)
#endif
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pos[npos++] = cindex;
}
}
assert(mindistance<MAXINT);
if (npos>1) {
/*
* More than 1 tokenpattern is a candidate.
* Decision has to be made by lookahead.
*/
SAVEST;
mincost = costlimit-totalcost+1;
assert(mincost <= INFINITY);
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for(i=0;i<npos;i++) {
t=codegen(&coderules[pos[i]],ply,FALSE,
costlimit<MAXINT?mincost:MAXINT,0);
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#ifndef NDEBUG
if (Debug)
fprintf(stderr,"mincost %u,cost %u,pos %d\n",mincost,t,i);
#endif
if (t<mincost) {
mincost = t;
cindex = pos[i];
}
RESTST;
}
FREEST;
if (totalcost+mincost>costlimit) {
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BROKE();
}
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} else {
cindex = pos[0];
}
} else {
getint(cindex,bp);
}
gotit:
/*
* Now cindex contains the code-index of the best candidate
* so proceed to use it.
*/
codep = &coderules[cindex];
}
break;
}
case DO_COERC: {
DEBUG("COERC");
tokpatlen=1;
inscoerc=1;
break;
}
case DO_XXMATCH:
DEBUG("XXMATCH");
case DO_XMATCH: {
register i;
int temp;
DEBUG("XMATCH");
tokpatlen=(codep[-1]>>5)&07;
for (i=0;i<tokpatlen;i++)
getint(temp,codep);
break; /* match already checked by distance() */
}
case DO_MATCH: {
register i;
int j;
unsigned mincost,t;
token_p tp;
int size,lsize;
int tokexp[MAXPATLEN];
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int nregneeded;
token_p regtp[MAXCREG];
c3_p regcp[MAXCREG];
rl_p regls[MAXCREG];
c3_p cp,findcoerc();
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#ifdef MAXSPLIT
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int sret;
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#endif
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int stackpad = 0;
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struct perm *tup,*ntup,*besttup,*tuples();
DEBUG("MATCH");
tokpatlen=(codep[-1]>>5)&07;
for(i=0;i<tokpatlen;i++)
getint(tokexp[i],codep);
tokexp[i] = 0;
tp = &fakestack[stackheight-1];
i=0;
while (i<tokpatlen && tp>=fakestack) {
size=tsize(tp);
while (i<tokpatlen && (lsize=ssize(tokexp[i]))<=size) {
size -= lsize;
i++;
}
if (i<tokpatlen && size!=0) {
totalcost += stackupto(tp,ply,toplevel);
CHKCOST();
break;
}
tp--;
}
tp = &fakestack[stackheight-1];
i=0;
while (i<tokpatlen && tp >= fakestack) {
size = tsize(tp);
lsize= ssize(tokexp[i]);
if (size != lsize) { /* find coercion */
#ifdef MAXSPLIT
sret = split(tp,&tokexp[i],ply,toplevel);
if (sret==0) {
#endif MAXSPLIT
totalcost += stackupto(tp,ply,toplevel);
CHKCOST();
break;
#ifdef MAXSPLIT
}
i += sret;
#endif MAXSPLIT
} else
i += 1;
tp--;
}
nextmatch:
tp = &fakestack[stackheight-1];
i=0; nregneeded = 0;
while (i<tokpatlen && tp>=fakestack) {
if (!match(tp,&machsets[tokexp[i]],0)) {
cp = findcoerc(tp, &machsets[tokexp[i]]);
#ifndef NDEBUG
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if (Debug>1) fprintf(stderr,"findcoerc returns 0x%x at position %d\n",(unsigned)cp,i);
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#endif
if (cp==0) {
for (j=0;j<nregneeded;j++)
regtp[j] -= (tp-fakestack+1);
totalcost += stackupto(tp,ply,toplevel);
CHKCOST();
break;
} else {
if (cp->c3_prop<0) {
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totalcost+=docoerc(tp,cp,ply,toplevel,0);
CHKCOST();
} else {
#ifndef NDEBUG
if(Debug>1) fprintf(stderr,"Register of type %d needed, remembering...\n",cp->c3_prop);
#endif
assert(nregneeded<MAXCREG);
regtp[nregneeded] = tp;
regcp[nregneeded] = cp;
regls[nregneeded] = curreglist;
nregneeded++;
}
}
}
i++; tp--;
}
if (tokpatlen>stackheight) {
#ifndef NDEBUG
if(Debug>1) fprintf(stderr,"Pattern too long, %d with only %d items on stack\n",
tokpatlen,stackheight);
#endif
stackpad = tokpatlen-stackheight;
for (j=stackheight-1;j>=0;j--)
fakestack[j+stackpad] = fakestack[j];
for (j=0;j<stackpad;j++)
fakestack[j].t_token=0;
stackheight += stackpad;
for (j=0;j<nregneeded;j++)
regtp[j] += stackpad;
for (tp = &fakestack[stackpad-1];i<tokpatlen && tp>=fakestack;i++,tp--) {
cp = findcoerc((token_p) 0, &machsets[tokexp[i]]);
if (cp==0) {
for (j=0;j<nregneeded;j++)
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myfree((string) (regls[j]));
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#ifndef ALLOW_NEXTEM
assert(!toplevel);
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BROKE();
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#else
assert(!(toplevel&&paniced));
if (paniced) goto normalfailed;
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totalcost = INFINITY;
for (i=0;i<stackheight-stackpad;i++)
fakestack[i] = fakestack[i+stackpad];
stackheight -= stackpad;
goto doreturn;
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#endif
}
if (cp->c3_prop<0) {
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totalcost+=docoerc(tp,cp,ply,toplevel,0);
CHKCOST();
} else {
assert(nregneeded<MAXCREG);
regtp[nregneeded] = tp;
regcp[nregneeded] = cp;
regls[nregneeded] = curreglist;
nregneeded++;
}
}
} else
stackpad=0;
assert(i==tokpatlen);
if (nregneeded==0)
break;
SAVEST;
mincost=costlimit-totalcost+1;
tup = tuples(regls,nregneeded);
besttup=0;
for (; tup != 0; tup = ntup) {
#ifndef NDEBUG
if(Debug>1) { fprintf(stderr,"Next tuple %d,%d,%d,%d\n",
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tup->p_rar[0],
tup->p_rar[1],
tup->p_rar[2],
tup->p_rar[3]);
fprintf(stderr, "totalcost = %u, costlimit = %u, mincost = %u\n",
totalcost, costlimit, mincost);
}
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#endif
ntup = tup->p_next;
for (i=0,t=0;i<nregneeded && t<mincost; i++)
t += docoerc(regtp[i],regcp[i],ply,FALSE,tup->p_rar[i]);
#ifndef NDEBUG
if (Debug > 1) fprintf(stderr, "cost after coercions: %u\n", t);
#endif
if ( t<mincost && tokpatlen<=stackheight ) {
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#ifndef NDEBUG
if (Debug>2)
fprintf(stderr,"Continuing match after coercions\n");
#endif
t += codegen(codep,ply,FALSE,mincost<MAXINT?mincost-t:MAXINT,0);
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}
if ( t<mincost && tokpatlen<=stackheight ) {
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mincost = t;
besttup = tup;
} else
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myfree((string) tup);
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RESTST;
}
FREEST;
for (i=0;i<nregneeded;i++)
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myfree((string)(regls[i]));
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if (totalcost+mincost>costlimit) {
if (besttup)
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myfree((string)besttup);
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normalfailed: if (stackpad!=tokpatlen) {
if (stackpad) {
if (costlimit<MAXINT)
BROKE();
for (i=0;i<stackheight-stackpad;i++)
fakestack[i] = fakestack[i+stackpad];
stackheight -= stackpad;
totalcost += stackupto(&fakestack[stackheight-1],ply,toplevel);
} else
totalcost += stackupto(fakestack,ply,toplevel);
CHKCOST();
goto nextmatch;
}
totalcost += mincost;
BROKE();
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}
for (i=0;i<nregneeded;i++)
totalcost += docoerc(regtp[i],regcp[i],ply,toplevel,besttup->p_rar[i]);
assert(totalcost <= costlimit);
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myfree((string)besttup);
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break;
}
case DO_TOSTACK:
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case DO_REMOVE: {
int texpno,nodeno;
token_p tp;
struct reginfo *rp;
int doremove = (codep[-1] & 037) == DO_REMOVE;
extern int allsetno;
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DEBUG(doremove ? "REMOVE" : "TOSTACK");
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if (codep[-1]&32) {
getint(texpno,codep);
getint(nodeno,codep);
} else {
getint(texpno,codep);
nodeno=0;
}
if (texpno == allsetno) {
totalcost += stackupto(&fakestack[stackheight-tokpatlen-1],ply,toplevel);
CHKCOST();
if (doremove) for (rp=machregs;rp<machregs+NREGS;rp++)
rp->r_contents.t_token=0;
break;
}
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for (tp= &fakestack[stackheight-tokpatlen-1];tp>=&fakestack[0];tp--)
if (match(tp,&machsets[texpno],nodeno)) {
/* investigate possible coercion to register */
totalcost += stackupto(tp,ply,toplevel);
CHKCOST();
break;
}
if (doremove) for (rp=machregs;rp<machregs+NREGS;rp++) {
if (rp->r_contents.t_token != 0 &&
match(&rp->r_contents,&machsets[texpno],nodeno)) {
#ifndef NDEBUG
if (Debug > 1) fprintf(stderr, "killing reg %ld (%s)\n", (long)(rp-machregs), rp->r_repr ? codestrings[rp->r_repr] : "cc");
#endif
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rp->r_contents.t_token=0;
}
}
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break;
}
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case DO_KILLREG:
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case DO_RREMOVE: { /* register remove */
register i;
int nodeno;
token_p tp;
tkdef_p tdp;
result_t result;
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int dokill = (codep[-1] & 037) == DO_KILLREG;
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DEBUG(dokill ? "KILLREG" : "RREMOVE");
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getint(nodeno,codep);
result=compute(&enodes[nodeno]);
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if (result.e_typ!=EV_REG)
break;
if ( in_stack(result.e_v.e_reg) ) BROKE() ; /* Check aside-stack */
if (dokill) {
/* kill register, and kill condition codes if they are set to
this register
*/
machregs[result.e_v.e_reg].r_contents.t_token = 0;
if (machregs[0].r_contents.t_token == -1 &&
machregs[0].r_contents.t_att[0].ar == result.e_v.e_reg) {
machregs[0].r_contents.t_token = 0;
}
}
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for (tp= &fakestack[stackheight-tokpatlen-1];tp>=&fakestack[0];tp--)
if (tp->t_token==-1) {
if(tp->t_att[0].ar==result.e_v.e_reg)
goto gotone;
} else {
tdp = &tokens[tp->t_token];
for(i=0;i<TOKENSIZE;i++)
if (tdp->t_type[i]==EV_REG &&
tp->t_att[i].ar==result.e_v.e_reg)
goto gotone;
}
break;
gotone:
/* investigate possible coercion to register */
totalcost += stackupto(tp,ply,toplevel);
CHKCOST();
break;
}
case DO_DEALLOCATE: {
register i;
tkdef_p tdp;
int tinstno;
token_t token;
DEBUG("DEALLOCATE");
getint(tinstno,codep);
instance(tinstno,&token);
if (token.t_token==-1)
chrefcount(token.t_att[0].ar,-1,TRUE);
else {
tdp= &tokens[token.t_token];
for (i=0;i<TOKENSIZE;i++)
if (tdp->t_type[i]==EV_REG)
chrefcount(token.t_att[i].ar,-1,TRUE);
}
break;
}
case DO_REALLOCATE: {
struct reginfo *rp;
DEBUG("REALLOCATE");
for(rp=machregs+1;rp<machregs+NREGS;rp++)
if(rp->r_tcount) {
rp->r_refcount -= rp->r_tcount;
rp->r_tcount = 0;
}
break;
}
case DO_ALLOCATE: {
register i;
int j;
int tinstno;
int npos,npos2,pos[NREGS],pos2[NREGS];
unsigned mincost,t;
struct reginfo *rp,**rpp;
token_t token,token2;
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int propno;
int exactmatch;
int decision;
if (codep[-1]&32) {
getint(propno,codep);
getint(tinstno,codep);
DEBUG("ALLOCATE,INIT");
} else {
getint(propno,codep);
tinstno=0;
DEBUG("ALLOCATE,EMPTY");
}
instance(tinstno,&token);
if (!forced) {
do {
npos=exactmatch=0;
for(rpp=reglist[propno];rp= *rpp; rpp++)
if (getrefcount(rp-machregs, FALSE)==0) {
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pos[npos++] = rp-machregs;
if (eqtoken(&rp->r_contents,&token))
pos2[exactmatch++] = rp-machregs;
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}
/*
* Now pos[] contains all free registers with desired
* property. If none then some stacking has to take place.
*/
if (npos==0) {
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if (stackheight<=tokpatlen) {
if (!toplevel) {
BROKE();
} else {
if (paniced)
fatal("No regs available");
totalcost += stackupto( &fakestack[0],ply,toplevel);
goto panic;
}
}
totalcost += stackupto( &fakestack[0],ply,toplevel);
CHKCOST();
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}
} while (npos==0);
if (!exactmatch && tinstno!=0) {
/*
* No exact match, but we were looking for a particular
* token. Now try to find registers of which no
* known contents is available (the others might still
* be useful).
*/
instance(0,&token2);
for (i=0;i<npos;i++)
if (eqtoken(&machregs[pos[i]].r_contents,&token2)) {
pos2[exactmatch++] = pos[i];
}
}
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if (!exactmatch) {
npos2=npos;
for(i=0;i<npos;i++)
pos2[i]=pos[i];
} else {
/*
* Now we are reducing the number of possible registers.
* We take only one equally likely register out of every
* equivalence class as given by set of properties.
*/
npos2=0;
for(i=0;i<exactmatch;i++) {
pos2[npos2++] = pos2[i];
for(j=0;j<npos2-1;j++)
if (eqregclass(pos2[j],pos2[i])) {
npos2--;
break;
}
}
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}
/*
* Now pos2[] contains all possibilities to try, if more than
* one, lookahead is necessary.
*/
token2.t_token= -1;
for (i=1;i<TOKENSIZE;i++)
token2.t_att[i].aw=0;
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decision=pos2[0];
if (npos2!=1) {
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SAVEST;
mincost=costlimit-totalcost+1;
for(j=0;j<npos2;j++) {
chrefcount(pos2[j],1,FALSE);
token2.t_att[0].ar=pos2[j];
allreg[nallreg++] = pos2[j];
if (token.t_token != 0)
t=move(&token,&token2,ply,FALSE,mincost);
else {
t = 0;
erasereg(pos2[j]);
}
if (t<mincost)
t += codegen(codep,ply,FALSE,mincost<MAXINT?mincost-t:MAXINT,0);
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if (t<mincost) {
mincost=t;
decision=pos2[j];
}
RESTST;
}
FREEST;
if (totalcost+mincost>costlimit)
BROKE();
}
} else {
decision = forced;
if (getrefcount(decision, FALSE)!=0)
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BROKE();
token2.t_token = -1;
}
chrefcount(decision,1,FALSE);
token2.t_att[0].ar=decision;
if (token.t_token != 0) {
totalcost+=move(&token,&token2,ply,toplevel,MAXINT);
CHKCOST();
} else
erasereg(decision);
allreg[nallreg++]=decision;
break;
}
case DO_INSTR: {
register i;
int n;
int tinstno;
token_t token;
int stringno;
DEBUG("INSTR");
n=((codep[-1]>>5)&07);
getint(stringno,codep);
if (toplevel) {
swtxt();
if (stringno>10000) {
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assert(stringno < 100001 + MAXPROCARG);
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genstr(procarg[stringno-10001]);
} else
genstr(stringno);
}
for(i=0;i<n;i++) {
getint(tinstno,codep);
instance(tinstno,&token);
if (toplevel)
prtoken(&token,i==0 ? ' ' : ',');
if (token.t_token>0)
totalcost += tokens[token.t_token].t_cost.ct_space;
}
if (toplevel)
gennl();
CHKCOST();
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break;
}
case DO_MOVE: {
int tinstno;
token_t token,token2;
DEBUG("MOVE");
getint(tinstno,codep);
instance(tinstno,&token);
getint(tinstno,codep);
instance(tinstno,&token2);
totalcost += move(&token,&token2,ply,toplevel,costlimit-totalcost+1);
CHKCOST();
break;
}
case DO_TEST: {
int tinstno;
token_t token;
DEBUG("TEST");
getint(tinstno,codep);
instance(tinstno,&token);
totalcost += test(&token,ply,toplevel,costlimit-totalcost+1);
CHKCOST();
break;
}
case DO_SETCC: {
int tinstno;
token_t token;
DEBUG("SETCC");
getint(tinstno,codep);
instance(tinstno,&token);
setcc(&token);
break;
}
case DO_ERASE: {
int nodeno;
result_t result;
DEBUG("ERASE");
getint(nodeno,codep);
result=compute(&enodes[nodeno]);
assert(result.e_typ!=EV_INT && result.e_typ!=EV_ADDR);
if (result.e_typ==EV_REG)
erasereg(result.e_v.e_reg);
break;
}
case DO_TOKREPLACE: {
register i;
int tinstno;
int repllen;
token_t reptoken[MAXREPLLEN];
DEBUG("TOKREPLACE");
assert(stackheight>=tokpatlen);
repllen=(codep[-1]>>5)&07;
#ifndef NDEBUG
if (Debug>2)
fprintf(stderr,"Stackheight=%d, tokpatlen=%d, repllen=%d %s\n",
stackheight,tokpatlen,repllen,inscoerc ? "(inscoerc)":"");
#endif
for(i=0;i<repllen;i++) {
getint(tinstno,codep);
instance(tinstno,&reptoken[i]);
tref(&reptoken[i],1);
}
for(i=0;i<tokpatlen;i++) {
if (!inscoerc)
tref(&fakestack[stackheight-1],-1);
stackheight--;
}
for (i=0;i<repllen;i++) {
assert(stackheight<MAXFSTACK);
fakestack[stackheight++] = reptoken[i];
}
for(i=0;i<nallreg;i++)
chrefcount(allreg[i],-1,FALSE);
break;
}
case DO_EMREPLACE: {
register i;
int j;
int nodeno;
result_t result[MAXEMREPLLEN];
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int emrepllen,eminstr;
DEBUG("EMREPLACE");
emrepllen=(codep[-1]>>5)&07;
j=emp-emlines;
if (emrepllen>j) {
assert(nemlines+emrepllen-j<MAXEMLINES);
for (i=nemlines;i>=0;i--)
emlines[i+emrepllen-j] = emlines[i];
nemlines += emrepllen-j;
emp += emrepllen-j;
}
emp -= emrepllen;
for (i=0;i<emrepllen;i++) {
getint(eminstr,codep);
getint(nodeno,codep);
emp[i].em_instr = eminstr;
result[i] = compute(&enodes[nodeno]);
}
for (i=0;i<emrepllen;i++) {
switch(result[i].e_typ) {
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default:
assert(FALSE);
case 0:
emp[i].em_optyp = OPNO;
emp[i].em_soper = 0;
break;
case EV_INT:
emp[i].em_optyp = OPINT;
emp[i].em_soper = tostring(result[i].e_v.e_con);
emp[i].em_u.em_ioper = result[i].e_v.e_con;
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break;
case EV_ADDR:
emp[i].em_optyp = OPSYMBOL;
emp[i].em_soper = ad2str(result[i].e_v.e_addr);
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break;
}
}
if (!toplevel)
ply += emrepllen;
break;
}
case DO_COST: {
cost_t cost;
DEBUG("COST");
getint(cost.ct_space,codep);
getint(cost.ct_time,codep);
totalcost += costcalc(cost);
CHKCOST();
break;
}
#ifdef REGVARS
case DO_PRETURN: {
if (toplevel) {
swtxt();
regreturn(); /* in mach.c */
}
break;
}
#endif
case DO_RETURN:
DEBUG("RETURN");
assert(origcp!=startupcode);
#ifndef NDEBUG
level--;
#endif
return(totalcost);
#ifdef USE_TES
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case DO_LABDEF: {
int index;
DEBUG("LABDEF");
getint(index,codep);
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if (toplevel) {
swtxt();
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printlabel(index);
}
break;
}
#endif
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}
}
doreturn:
#ifdef ALLOW_NEXTEM
if (toplevel && totalcost == INFINITY && ! paniced) {
DEBUG("PANIC!");
totalcost += stackupto(&fakestack[stackheight-1], ply, toplevel);
#ifndef NDEBUG
if (Debug > 2)
fprintf(stderr, "Stackheight = %d\n", stackheight);
#endif
paniced = 1;
tokpatlen = 0;
goto panic;
}
#endif
#ifndef NDEBUG
level--;
#endif
return(totalcost);
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}
readcodebytes() {
#ifndef CODEINC
register fd;
extern int ncodebytes;
if ((fd=open("code",0))<0) {
error("Can't open code");
}
if (read(fd,coderules,ncodebytes)!=ncodebytes) {
error("Short read from code");
}
close(fd);
#endif
}
#ifdef TABLEDEBUG
initlset(f) char *f; {
extern char *myalloc();
set_flag = f;
if ((set_fd=open(f+1,2))<0)
error("Can't open %s rw",f+1);
read(set_fd,&set_size,sizeof(int));
set_val=( short *) myalloc(set_size);
read(set_fd,set_val,set_size);
}
termlset() {
if (set_fd) {
lseek(set_fd,(long) sizeof(int),0);
write(set_fd,set_val,set_size);
close(set_fd);
if (set_flag[0]=='u') {
register i;
fprintf(stderr,"Unused code rules:\n\n");
for(i=0;i<8*set_size;i++)
if(set_val[i>>4]&(1<<(i&017)))
fprintf(stderr,"\"%s\", line %d\n",tablename,i);
}
}
}
#endif