# /* * C object code improver */ #include "c2.h" struct optab optab[] { "jbr", JBR, "jeq", CBR | JEQ<<8, "jne", CBR | JNE<<8, "jle", CBR | JLE<<8, "jge", CBR | JGE<<8, "jlt", CBR | JLT<<8, "jgt", CBR | JGT<<8, "jlo", CBR | JLO<<8, "jhi", CBR | JHI<<8, "jlos", CBR | JLOS<<8, "jhis", CBR | JHIS<<8, "jmp", JMP, ".globl",EROU, "mov", MOV, "clr", CLR, "com", COM, "inc", INC, "dec", DEC, "neg", NEG, "tst", TST, "asr", ASR, "asl", ASL, "sxt", SXT, "cmp", CMP, "add", ADD, "sub", SUB, "bit", BIT, "bic", BIC, "bis", BIS, "mul", MUL, "ash", ASH, "xor", XOR, ".text",TEXT, ".data",DATA, ".bss", BSS, ".even",EVEN, "movf", MOVF, "movof",MOVOF, "movfo",MOVFO, "addf", ADDF, "subf", SUBF, "divf", DIVF, "mulf", MULF, "clrf", CLRF, "cmpf", CMPF, "negf", NEGF, "tstf", TSTF, "cfcc", CFCC, "sob", SOB, "jsr", JSR, ".end", END, 0, 0}; char revbr[] { JNE, JEQ, JGT, JLT, JGE, JLE, JHIS, JLOS, JHI, JLO }; int isn = 20000; int lastseg = -1; main(argc, argv) char **argv; { register int niter, maxiter, isend; extern end; int nflag; if (argc>1 && argv[1][0]=='+') { argc--; argv++; debug++; } nflag = 0; if (argc>1 && argv[1][0]=='-') { argc--; argv++; nflag++; } if (argc>1) { if (freopen(argv[1], "r", stdin) == NULL) { fprintf(stderr, "C2: can't find %s\n", argv[1]); exit(1); } } if (argc>2) { if (freopen(argv[2], "w", stdout) == NULL) { fprintf(stderr, "C2: can't create %s\n", argv[2]); exit(1); } } lasta = firstr = lastr = sbrk(2); maxiter = 0; opsetup(); do { isend = input(); movedat(); niter = 0; do { refcount(); do { iterate(); clearreg(); niter++; } while (nchange); comjump(); rmove(); } while (nchange || jumpsw()); addsob(); output(); if (niter > maxiter) maxiter = niter; lasta = firstr; } while (isend); if (nflag) { fprintf(stderr, "%d iterations\n", maxiter); fprintf(stderr, "%d jumps to jumps\n", nbrbr); fprintf(stderr, "%d inst. after jumps\n", iaftbr); fprintf(stderr, "%d jumps to .+2\n", njp1); fprintf(stderr, "%d redundant labels\n", nrlab); fprintf(stderr, "%d cross-jumps\n", nxjump); fprintf(stderr, "%d code motions\n", ncmot); fprintf(stderr, "%d branches reversed\n", nrevbr); fprintf(stderr, "%d redundant moves\n", redunm); fprintf(stderr, "%d simplified addresses\n", nsaddr); fprintf(stderr, "%d loops inverted\n", loopiv); fprintf(stderr, "%d redundant jumps\n", nredunj); fprintf(stderr, "%d common seqs before jmp's\n", ncomj); fprintf(stderr, "%d skips over jumps\n", nskip); fprintf(stderr, "%d sob's added\n", nsob); fprintf(stderr, "%d redundant tst's\n", nrtst); fprintf(stderr, "%d literals eliminated\n", nlit); fprintf(stderr, "%dK core\n", (((int)lastr+01777)>>10)&077); } exit(0); } input() { register struct node *p, *lastp; register int oper; lastp = &first; for (;;) { oper = getline(); switch (oper&0377) { case LABEL: p = (struct node *)alloc(sizeof first); if (line[0] == 'L') { p->op = LABEL; p->subop = 0; p->labno = getnum(line+1); p->code = 0; } else { p->op = DLABEL; p->subop = 0; p->labno = 0; p->code = copy(1, line); } break; case JBR: case CBR: case JMP: case JSW: p = (struct node *)alloc(sizeof first); p->op = oper&0377; p->subop = oper>>8; if (*curlp=='L' && (p->labno = getnum(curlp+1))) p->code = 0; else { p->labno = 0; p->code = copy(1, curlp); } break; default: p = (struct node *)alloc(sizeof first); p->op = oper&0377; p->subop = oper>>8; p->labno = 0; p->code = copy(1, curlp); break; } p->forw = 0; p->back = lastp; lastp->forw = p; lastp = p; p->ref = 0; if (oper==EROU) return(1); if (oper==END) return(0); } } getline() { register char *lp; register c; lp = line; while ((c = getchar())==' ' || c=='\t') ; do { if (c==':') { *lp++ = 0; return(LABEL); } if (c=='\n') { *lp++ = 0; return(oplook()); } if (lp >= &line[LSIZE-2]) { fprintf(stderr, "C2: Sorry, input line too long\n"); exit(1); } *lp++ = c; } while ((c = getchar()) != EOF); *lp++ = 0; return(END); } getnum(ap) char *ap; { register char *p; register n, c; p = ap; n = 0; while ((c = *p++) >= '0' && c <= '9') n = n*10 + c - '0'; if (*--p != 0) return(0); return(n); } output() { register struct node *t; register struct optab *oper; register int byte; t = &first; while (t = t->forw) switch (t->op) { case END: return; case LABEL: printf("L%d:", t->labno); continue; case DLABEL: printf("%s:", t->code); continue; case TEXT: case DATA: case BSS: lastseg = t->op; default: if ((byte = t->subop) == BYTE) t->subop = 0; for (oper = optab; oper->opstring!=0; oper++) if ((oper->opcode&0377) == t->op && (oper->opcode>>8) == t->subop) { printf("%s", oper->opstring); if (byte==BYTE) printf("b"); break; } if (t->code) { reducelit(t); printf("\t%s\n", t->code); } else if (t->op==JBR || t->op==CBR) printf("\tL%d\n", t->labno); else printf("\n"); continue; case JSW: printf("L%d\n", t->labno); continue; case SOB: printf("sob %s", t->code); if (t->labno) printf(",L%d", t->labno); printf("\n"); continue; case 0: if (t->code) printf("%s", t->code); printf("\n"); continue; } } /* * Notice addresses of the form * $xx,xx(r) * and replace them with (pc),xx(r) * -- Thanx and a tip of the Hatlo hat to Bliss-11. */ reducelit(at) struct node *at; { register char *c1, *c2; char *c2s; register struct node *t; t = at; if (*t->code != '$') return; c1 = t->code; while (*c1 != ',') if (*c1++ == '\0') return; c2s = c1; c1++; if (*c1=='*') c1++; c2 = t->code+1; while (*c1++ == *c2++); if (*--c1!='(' || *--c2!=',') return; t->code = copy(2, "(pc)", c2s); nlit++; } char * copy(na, ap) char *ap; { register char *p, *np; char *onp; register n; p = ap; n = 0; if (*p==0) return(0); do n++; while (*p++); if (na>1) { p = (&ap)[1]; while (*p++) n++; } onp = np = alloc(n); p = ap; while (*np++ = *p++) ; if (na>1) { p = (&ap)[1]; np--; while (*np++ = *p++); } return(onp); } opsetup() { register struct optab *optp, **ophp; register char *p; for (optp = optab; p = optp->opstring; optp++) { ophp = &ophash[(((p[0]<<3)+(p[1]<<1)+p[2])&077777) % OPHS]; while (*ophp++) if (ophp > &ophash[OPHS]) ophp = ophash; *--ophp = optp; } } oplook() { register struct optab *optp; register char *lp, *np; static char tmpop[32]; struct optab **ophp; if (line[0]=='\0') { curlp = line; return(0); } np = tmpop; for (lp = line; *lp && *lp!=' ' && *lp!='\t';) *np++ = *lp++; *np++ = 0; while (*lp=='\t' || *lp==' ') lp++; curlp = lp; ophp = &ophash[(((tmpop[0]<<3)+(tmpop[1]<<1)+tmpop[2])&077777) % OPHS]; while (optp = *ophp) { np = optp->opstring; lp = tmpop; while (*lp == *np++) if (*lp++ == 0) return(optp->opcode); if (*lp++=='b' && *lp++==0 && *--np==0) return(optp->opcode + (BYTE<<8)); ophp++; if (ophp >= &ophash[OPHS]) ophp = ophash; } if (line[0]=='L') { lp = &line[1]; while (*lp) if (*lp<'0' || *lp++>'9') return(0); curlp = line; return(JSW); } curlp = line; return(0); } refcount() { register struct node *p, *lp; static struct node *labhash[LABHS]; register struct node **hp, *tp; for (hp = labhash; hp < &labhash[LABHS];) *hp++ = 0; for (p = first.forw; p!=0; p = p->forw) if (p->op==LABEL) { labhash[p->labno % LABHS] = p; p->refc = 0; } for (p = first.forw; p!=0; p = p->forw) { if (p->op==JBR || p->op==CBR || p->op==JSW) { p->ref = 0; lp = labhash[p->labno % LABHS]; if (lp==0 || p->labno!=lp->labno) for (lp = first.forw; lp!=0; lp = lp->forw) { if (lp->op==LABEL && p->labno==lp->labno) break; } if (lp) { tp = nonlab(lp)->back; if (tp!=lp) { p->labno = tp->labno; lp = tp; } p->ref = lp; lp->refc++; } } } for (p = first.forw; p!=0; p = p->forw) if (p->op==LABEL && p->refc==0 && (lp = nonlab(p))->op && lp->op!=JSW) decref(p); } iterate() { register struct node *p, *rp, *p1; nchange = 0; for (p = first.forw; p!=0; p = p->forw) { if ((p->op==JBR||p->op==CBR||p->op==JSW) && p->ref) { rp = nonlab(p->ref); if (rp->op==JBR && rp->labno && p->labno!=rp->labno) { nbrbr++; p->labno = rp->labno; decref(p->ref); rp->ref->refc++; p->ref = rp->ref; nchange++; } } if (p->op==CBR && (p1 = p->forw)->op==JBR) { rp = p->ref; do rp = rp->back; while (rp->op==LABEL); if (rp==p1) { decref(p->ref); p->ref = p1->ref; p->labno = p1->labno; p1->forw->back = p; p->forw = p1->forw; p->subop = revbr[p->subop]; nchange++; nskip++; } } if (p->op==JBR || p->op==JMP) { while (p->forw && p->forw->op!=LABEL && p->forw->op!=DLABEL && p->forw->op!=EROU && p->forw->op!=END && p->forw->op!=0 && p->forw->op!=DATA) { nchange++; iaftbr++; if (p->forw->ref) decref(p->forw->ref); p->forw = p->forw->forw; p->forw->back = p; } rp = p->forw; while (rp && rp->op==LABEL) { if (p->ref == rp) { p->back->forw = p->forw; p->forw->back = p->back; p = p->back; decref(rp); nchange++; njp1++; break; } rp = rp->forw; } } if (p->op==JBR || p->op==JMP) { xjump(p); p = codemove(p); } } } xjump(p1) register struct node *p1; { register struct node *p2, *p3; if ((p2 = p1->ref)==0) return; for (;;) { while ((p1 = p1->back) && p1->op==LABEL); while ((p2 = p2->back) && p2->op==LABEL); if (!equop(p1, p2) || p1==p2) return; p3 = insertl(p2); p1->op = JBR; p1->subop = 0; p1->ref = p3; p1->labno = p3->labno; p1->code = 0; nxjump++; nchange++; } } struct node * insertl(oldp) register struct node *oldp; { register struct node *lp; if (oldp->op == LABEL) { oldp->refc++; return(oldp); } if (oldp->back->op == LABEL) { oldp = oldp->back; oldp->refc++; return(oldp); } lp = (struct node *)alloc(sizeof first); lp->op = LABEL; lp->subop = 0; lp->labno = isn++; lp->ref = 0; lp->code = 0; lp->refc = 1; lp->back = oldp->back; lp->forw = oldp; oldp->back->forw = lp; oldp->back = lp; return(lp); } struct node * codemove(p) struct node *p; { register struct node *p1, *p2, *p3; struct node *t, *tl; int n; p1 = p; if (p1->op!=JBR || (p2 = p1->ref)==0) return(p1); while (p2->op == LABEL) if ((p2 = p2->back) == 0) return(p1); if (p2->op!=JBR && p2->op!=JMP) goto ivloop; p2 = p2->forw; p3 = p1->ref; while (p3) { if (p3->op==JBR || p3->op==JMP) { if (p1==p3) return(p1); ncmot++; nchange++; p1->back->forw = p2; p1->forw->back = p3; p2->back->forw = p3->forw; p3->forw->back = p2->back; p2->back = p1->back; p3->forw = p1->forw; decref(p1->ref); return(p2); } else p3 = p3->forw; } return(p1); ivloop: if (p1->forw->op!=LABEL) return(p1); p3 = p2 = p2->forw; n = 16; do { if ((p3 = p3->forw) == 0 || p3==p1 || --n==0) return(p1); } while (p3->op!=CBR || p3->labno!=p1->forw->labno); do if ((p1 = p1->back) == 0) return(p); while (p1!=p3); p1 = p; tl = insertl(p1); p3->subop = revbr[p3->subop]; decref(p3->ref); p2->back->forw = p1; p3->forw->back = p1; p1->back->forw = p2; p1->forw->back = p3; t = p1->back; p1->back = p2->back; p2->back = t; t = p1->forw; p1->forw = p3->forw; p3->forw = t; p2 = insertl(p1->forw); p3->labno = p2->labno; p3->ref = p2; decref(tl); if (tl->refc<=0) nrlab--; loopiv++; nchange++; return(p3); } comjump() { register struct node *p1, *p2, *p3; for (p1 = first.forw; p1!=0; p1 = p1->forw) if (p1->op==JBR && (p2 = p1->ref) && p2->refc > 1) for (p3 = p1->forw; p3!=0; p3 = p3->forw) if (p3->op==JBR && p3->ref == p2) backjmp(p1, p3); } backjmp(ap1, ap2) struct node *ap1, *ap2; { register struct node *p1, *p2, *p3; p1 = ap1; p2 = ap2; for(;;) { while ((p1 = p1->back) && p1->op==LABEL); p2 = p2->back; if (equop(p1, p2)) { p3 = insertl(p1); p2->back->forw = p2->forw; p2->forw->back = p2->back; p2 = p2->forw; decref(p2->ref); p2->labno = p3->labno; p2->ref = p3; nchange++; ncomj++; } else return; } }