#ifndef NORCSID static char rcsid[] = "$Id$"; #endif #include "assert.h" #include "param.h" #include "tables.h" #include "types.h" #include #include "data.h" #include "result.h" #include "state.h" #include "equiv.h" #include "extern.h" /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". * * 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 #define DEBUG(string) {if(Debug) fprintf(stderr,"%-*d%s\n",4*level,level,string);} #endif #define BROKE() {assert(origcp!=startupcode || !paniced);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; int procarg[MAXPROCARG+1]; #ifdef ALLOW_NEXTEM static int paniced; char *savebp = 0; #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); level++; DEBUG("Entering codegen"); if (Debug > 1) fprintf(stderr, "toplevel = %d\n", toplevel); #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; savebp = nextem(toplevel); panic: if (toplevel) totalcost = 0; 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 if (! toplevel) { ply -= emp-saveemp+1; if (ply <= 0) ply = 1; } n = *bp++; if (n==0) { /* "procedure" */ int j, nargs; getint(i,bp); getint(nargs,bp); assert(nargs <= MAXPROCARG); for (j = 0; j < nargs; j++) { getint(procarg[j],bp); } bp= &pattern[i]; n = *bp++; DEBUG("PROC_CALL"); } assert(n>0 && n<=MAXRULE); if (n>1) { mindistance = MAXINT; npos=0; for(i=0;i1) { /* * More than 1 tokenpattern is a candidate. * Decision has to be made by lookahead. */ SAVEST; mincost = costlimit-totalcost+1; assert(mincost <= INFINITY); for(i=0;icostlimit) { BROKE(); } } 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>5)&07; for(i=0;i=fakestack) { size=tsize(tp); while (i= 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=fakestack) { if (!match(tp,&machsets[tokexp[i]],0)) { cp = findcoerc(tp, &machsets[tokexp[i]]); #ifndef NDEBUG if (Debug>1) fprintf(stderr,"findcoerc returns 0x%x at position %d\n",(unsigned)cp,i); #endif if (cp==0) { for (j=0;jc3_prop<0) { 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(nregneededstackheight) { #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=fakestack;i++,tp--) { cp = findcoerc((token_p) 0, &machsets[tokexp[i]]); if (cp==0) { for (j=0;jc3_prop<0) { totalcost+=docoerc(tp,cp,ply,toplevel,0); CHKCOST(); } else { assert(nregneeded1) { fprintf(stderr,"Next tuple %d,%d,%d,%d\n", 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); } #endif ntup = tup->p_next; for (i=0,t=0;ip_rar[i]); #ifndef NDEBUG if (Debug > 1) fprintf(stderr, "cost after coercions: %u\n", t); #endif if ( t2) fprintf(stderr,"Continuing match after coercions\n"); #endif t += codegen(codep,ply,FALSE,mincostcostlimit) { if (besttup) myfree((string)besttup); normalfailed: if (stackpad!=tokpatlen) { if (stackpad) { for (i=0;ip_rar[i]); assert(totalcost <= costlimit); myfree((string)besttup); break; } case DO_TOSTACK: case DO_REMOVE: { int texpno,nodeno; token_p tp; struct reginfo *rp; int doremove = (codep[-1] & 037) == DO_REMOVE; extern int allsetno; DEBUG(doremove ? "REMOVE" : "TOSTACK"); 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;rpr_contents.t_token=0; break; } 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;rpr_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 rp->r_contents.t_token=0; } } break; } case DO_KILLREG: case DO_RREMOVE: { /* register remove */ register i; int nodeno; token_p tp; tkdef_p tdp; result_t result; int dokill = (codep[-1] & 037) == DO_KILLREG; DEBUG(dokill ? "KILLREG" : "RREMOVE"); getint(nodeno,codep); compute(&enodes[nodeno], &result); 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; } } 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;it_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;it_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;rpr_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; 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((int)(rp-machregs), FALSE)==0) { pos[npos++] = rp-machregs; if (eqtoken(&rp->r_contents,&token)) pos2[exactmatch++] = rp-machregs; } /* * Now pos[] contains all free registers with desired * property. If none then some stacking has to take place. */ if (npos==0) { 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(); } } 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). */ for (i=0;icostlimit) BROKE(); } } else { decision = forced; if (getrefcount(decision, FALSE)!=0) 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) { assert(stringno < 100001 + MAXPROCARG); genstr(procarg[stringno-10001]); } else genstr(stringno); } for(i=0;i0) totalcost += tokens[token.t_token].t_cost.ct_space; } if (toplevel) gennl(); CHKCOST(); 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); compute(&enodes[nodeno], &result); 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>5)&07; j=emp-emlines; if (emrepllen>j) { assert(nemlines+emrepllen-j=0;i--) emlines[i+emrepllen-j] = emlines[i]; nemlines += emrepllen-j; emp += emrepllen-j; } emp -= emrepllen; for (i=0;i 4) fprintf(stderr, "ply becomes %d\n", ply); #endif } 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 case DO_LABDEF: { int index; DEBUG("LABDEF"); getint(index,codep); if (toplevel) { swtxt(); printlabel(index); } break; } #endif } } 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); } 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