/* $OpenBSD: reader.c,v 1.14 2008/04/11 20:45:52 stefan Exp $ */ /* * Copyright (c) 2003 Anders Magnusson (ragge@ludd.luth.se). * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * Copyright(C) Caldera International Inc. 2001-2002. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code and documentation must retain the above * copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright * notice, this list of conditionsand the following disclaimer in the * documentation and/or other materials provided with the distribution. * All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed or owned by Caldera * International, Inc. * Neither the name of Caldera International, Inc. nor the names of other * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * USE OF THE SOFTWARE PROVIDED FOR UNDER THIS LICENSE BY CALDERA * INTERNATIONAL, INC. AND CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL CALDERA INTERNATIONAL, INC. BE LIABLE * FOR ANY DIRECT, INDIRECT INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OFLIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* * Everything is entered via pass2_compile(). Three functions are * allowed to recurse into pass2_compile(), so be careful: * - deluseless() * - myreader() * Especially in myreader note that trees may be rewritten twice if * things are not carefully handled. */ # include "pass2.h" #include #include #include /* some storage declarations */ int nrecur; int lflag; int x2debug; int udebug = 0; int thisline; int fregs; int p2autooff, p2maxautooff; NODE *nodepole; FILE *prfil; static struct interpass prepole; void saveip(struct interpass *ip); void deltemp(NODE *p); void cvtemps(struct interpass *epil); NODE *store(NODE *); static void fixxasm(struct interpass *ip); static void gencode(NODE *p, int cookie); static void genxasm(NODE *p); char *ltyp[] = { "", "LREG", "LOREG", "LTEMP" }; char *rtyp[] = { "", "RREG", "ROREG", "RTEMP" }; /* used when removing nodes */ struct tmpsave { struct tmpsave *next; CONSZ tempaddr; int tempno; } *tmpsave; #ifdef PCC_DEBUG static void cktree(NODE *p) { if (p->n_op > MAXOP) cerror("%p) op %d slipped through", p, p->n_op); if (BTYPE(p->n_type) > MAXTYPES) cerror("%p) type %x slipped through", p, p->n_type); if (p->n_op == CBRANCH && !logop(p->n_left->n_op)) cerror("%p) not logop branch", p); if ((dope[p->n_op] & ASGOPFLG) && p->n_op != RETURN) cerror("%p) asgop %d slipped through", p, p->n_op); } #endif /* * Check if a node has side effects. */ static int isuseless(NODE *n) { switch (n->n_op) { case XASM: case FUNARG: case UCALL: case UFORTCALL: case FORCE: case ASSIGN: case CALL: case FORTCALL: case CBRANCH: case RETURN: case GOTO: case STCALL: case USTCALL: case STASG: case STARG: return 0; default: return 1; } } /* * Delete statements with no meaning (like a+b; or 513.4;) */ static NODE * deluseless(NODE *p) { struct interpass *ip; NODE *l, *r; if (optype(p->n_op) == LTYPE) { nfree(p); return NULL; } if (isuseless(p) == 0) return p; if (optype(p->n_op) == UTYPE) { l = p->n_left; nfree(p); return deluseless(l); } /* Be sure that both leaves may be valid */ l = deluseless(p->n_left); r = deluseless(p->n_right); nfree(p); if (l && r) { ip = ipnode(l); DLIST_INSERT_AFTER(&prepole, ip, qelem); return r; } else if (l) return l; else if (r) return r; return NULL; } static struct interpass ipole; struct interpass_prolog *ipp, *epp; /* * Receives interpass structs from pass1. */ void pass2_compile(struct interpass *ip) { if (ip->type == IP_PROLOG) { tmpsave = NULL; ipp = (struct interpass_prolog *)ip; DLIST_INIT(&ipole, qelem); } DLIST_INSERT_BEFORE(&ipole, ip, qelem); if (ip->type != IP_EPILOG) return; #ifdef PCC_DEBUG if (e2debug) { printf("Entering pass2\n"); printip(&ipole); } #endif epp = (struct interpass_prolog *)DLIST_PREV(&ipole, qelem); p2maxautooff = p2autooff = epp->ipp_autos; myreader(&ipole); /* local massage of input */ DLIST_FOREACH(ip, &ipole, qelem) { if (ip->type != IP_NODE) continue; if (xtemps == 0) walkf(ip->ip_node, deltemp); } DLIST_INIT(&prepole, qelem); DLIST_FOREACH(ip, &ipole, qelem) { if (ip->type != IP_NODE) continue; canon(ip->ip_node); walkf(ip->ip_node, cktree); if ((ip->ip_node = deluseless(ip->ip_node)) == NULL) { DLIST_REMOVE(ip, qelem); } else while (!DLIST_ISEMPTY(&prepole, qelem)) { struct interpass *ipp; ipp = DLIST_NEXT(&prepole, qelem); DLIST_REMOVE(ipp, qelem); DLIST_INSERT_BEFORE(ip, ipp, qelem); } } fixxasm(&ipole); /* setup for extended asm */ optimize(&ipole); ngenregs(&ipole); DLIST_FOREACH(ip, &ipole, qelem) emit(ip); } void emit(struct interpass *ip) { NODE *p, *r; struct optab *op; int o; switch (ip->type) { case IP_NODE: p = ip->ip_node; nodepole = p; //printf("bu:\n"); //fwalk(p, e2print, 0); canon(p); /* may convert stuff after genregs */ //fwalk(p, e2print, 0); switch (p->n_op) { case CBRANCH: /* Only emit branch insn if RESCC */ /* careful when an OPLOG has been elided */ if (p->n_left->n_su == 0 && p->n_left->n_left != NULL) { op = &table[TBLIDX(p->n_left->n_left->n_su)]; r = p->n_left; } else { op = &table[TBLIDX(p->n_left->n_su)]; r = p; } if (op->rewrite & RESCC) { o = p->n_left->n_op; gencode(r, FORCC); cbgen(o, p->n_right->n_lval); } else { gencode(r, FORCC); } break; case FORCE: gencode(p->n_left, INREGS); break; case XASM: genxasm(p); break; default: if (p->n_op != REG || p->n_type != VOID) /* XXX */ gencode(p, FOREFF); /* Emit instructions */ } tfree(p); break; case IP_PROLOG: prologue((struct interpass_prolog *)ip); break; case IP_EPILOG: eoftn((struct interpass_prolog *)ip); tmpsave = NULL; /* Always forget old nodes */ p2maxautooff = p2autooff = AUTOINIT/SZCHAR; break; case IP_DEFLAB: deflab(ip->ip_lbl); break; case IP_ASM: printf("%s", ip->ip_asm); break; default: cerror("emit %d", ip->type); } } #ifdef PCC_DEBUG char *cnames[] = { "SANY", "SAREG", "SBREG", "SCREG", "SDREG", "SCC", "SNAME", "SCON", "SFLD", "SOREG", "STARNM", "STARREG", "INTEMP", "FORARG", "SWADD", 0, }; /* * print a nice-looking description of cookie */ char * prcook(int cookie) { static char buf[50]; int i, flag; if (cookie & SPECIAL) { switch (cookie) { case SZERO: return "SZERO"; case SONE: return "SONE"; case SMONE: return "SMONE"; default: snprintf(buf, sizeof(buf), "SPECIAL+%d", cookie & ~SPECIAL); return buf; } } flag = 0; buf[0] = 0; for (i = 0; cnames[i]; ++i) { if (cookie & (1<n_op) { case EQ: case NE: case LE: case LT: case GE: case GT: case ULE: case ULT: case UGE: case UGT: p1 = p->n_left; p2 = p->n_right; if (p2->n_op == ICON && p2->n_lval == 0 && optype(p1->n_op) == BITYPE) { if (findops(p1, FORCC) == 0) break; } rv = relops(p); break; case PLUS: case MINUS: case MUL: case DIV: case MOD: case AND: case OR: case ER: case LS: case RS: rv = findops(p, cookie); break; case ASSIGN: case STASG: rv = findasg(p, cookie); break; case UMUL: /* May turn into an OREG */ rv = findumul(p, cookie); break; case REG: case TEMP: case NAME: case ICON: case FCON: case OREG: rv = findleaf(p, cookie); break; case STCALL: case CALL: /* CALL arguments are handled special */ for (p1 = p->n_right; p1->n_op == CM; p1 = p1->n_left) geninsn(p1->n_right, FOREFF); geninsn(p1, FOREFF); /* FALLTHROUGH */ case FLD: case COMPL: case UMINUS: case PCONV: case SCONV: /* case INIT: */ case GOTO: case FUNARG: case STARG: case UCALL: case USTCALL: case ADDROF: rv = finduni(p, cookie); break; case CBRANCH: p1 = p->n_left; p2 = p->n_right; p1->n_label = p2->n_lval; geninsn(p1, FORCC); p->n_su = 0; break; case FORCE: /* XXX needed? */ geninsn(p->n_left, INREGS); p->n_su = 0; /* su calculations traverse left */ break; case XASM: for (p1 = p->n_left; p1->n_op == CM; p1 = p1->n_left) geninsn(p1->n_right, FOREFF); geninsn(p1, FOREFF); break; /* all stuff already done? */ case XARG: /* generate code for correct class here */ geninsn(p->n_left, 1 << p->n_label); break; default: comperr("geninsn: bad op %s, node %p", opst[o], p); } if (rv == FFAIL) comperr("Cannot generate code, node %p op %s", p,opst[p->n_op]); if (rv == FRETRY) goto again; return rv; } /* * Store a given subtree in a temporary location. * Return an OREG node where it is located. */ NODE * store(NODE *p) { extern struct interpass *storesave; struct interpass *ip; NODE *q, *r; int s; s = BITOOR(freetemp(szty(p->n_type))); q = mklnode(OREG, s, FPREG, p->n_type); r = mklnode(OREG, s, FPREG, p->n_type); ip = ipnode(mkbinode(ASSIGN, q, p, p->n_type)); storesave = ip; return r; } #ifdef PCC_DEBUG #define CDEBUG(x) if (c2debug) printf x #else #define CDEBUG(x) #endif /* * Do a register-register move if necessary. */ static void ckmove(NODE *p, NODE *q) { if (q->n_op != REG || p->n_reg == -1) return; /* no register */ if (DECRA(p->n_reg, 0) == DECRA(q->n_reg, 0)) return; /* no move necessary */ CDEBUG(("rmove: node %p, %s -> %s\n", p, rnames[DECRA(q->n_reg, 0)], rnames[DECRA(p->n_reg, 0)])); rmove(DECRA(q->n_reg, 0), DECRA(p->n_reg, 0), p->n_type); q->n_reg = q->n_rval = DECRA(p->n_reg, 0); } /* * Rewrite node to register after instruction emit. */ static void rewrite(NODE *p, int rewrite, int cookie) { NODE *l, *r; int o; l = getlr(p, 'L'); r = getlr(p, 'R'); o = p->n_op; p->n_op = REG; p->n_lval = 0; p->n_name = ""; if (o == ASSIGN) { /* special rewrite care */ int reg = DECRA(p->n_reg, 0); #define TL(x) (TBLIDX(x->n_su) || x->n_op == REG) if (p->n_reg == -1) ; else if (TL(l) && (DECRA(l->n_reg, 0) == reg)) ; else if (TL(r) && (DECRA(r->n_reg, 0) == reg)) ; else if (TL(l)) rmove(DECRA(l->n_reg, 0), reg, p->n_type); else if (TL(r)) rmove(DECRA(r->n_reg, 0), reg, p->n_type); #if 0 else comperr("rewrite"); #endif #undef TL } if (optype(o) != LTYPE) tfree(l); if (optype(o) == BITYPE) tfree(r); if (rewrite == 0) return; CDEBUG(("rewrite: %p, reg %s\n", p, p->n_reg == -1? "" : rnames[DECRA(p->n_reg, 0)])); p->n_rval = DECRA(p->n_reg, 0); } /* * printout extended assembler. */ void genxasm(NODE *p) { NODE *q, **nary; int n = 1, o = 0; char *w; for (q = p->n_left; q->n_op == CM; q = q->n_left) n++; nary = tmpalloc(sizeof(NODE *)*n); o = n; for (q = p->n_left; q->n_op == CM; q = q->n_left) { gencode(q->n_right->n_left, INREGS); nary[--o] = q->n_right; } gencode(q->n_left, INREGS); nary[--o] = q; w = p->n_name; putchar('\t'); while (*w != 0) { if (*w == '%') { if (w[1] < '1' || w[1] > (n + '0')) uerror("bad xasm arg number"); else adrput(stdout, nary[(int)w[1]-'1']->n_left); w++; } else putchar(*w); w++; } putchar('\n'); } void gencode(NODE *p, int cookie) { struct optab *q = &table[TBLIDX(p->n_su)]; NODE *p1, *l, *r; int o = optype(p->n_op); l = p->n_left; r = p->n_right; if (TBLIDX(p->n_su) == 0) { if (o == BITYPE && (p->n_su & DORIGHT)) gencode(r, 0); if (optype(p->n_op) != LTYPE) gencode(l, 0); if (o == BITYPE && !(p->n_su & DORIGHT)) gencode(r, 0); return; } CDEBUG(("gencode: node %p\n", p)); if (p->n_op == REG && DECRA(p->n_reg, 0) == p->n_rval) return; /* meaningless move to itself */ if (callop(p->n_op)) lastcall(p); /* last chance before function args */ if (p->n_op == CALL || p->n_op == FORTCALL || p->n_op == STCALL) { /* Print out arguments first */ for (p1 = r; p1->n_op == CM; p1 = p1->n_left) gencode(p1->n_right, FOREFF); gencode(p1, FOREFF); o = UTYPE; /* avoid going down again */ } if (o == BITYPE && (p->n_su & DORIGHT)) { gencode(r, INREGS); if (q->rewrite & RRIGHT) ckmove(p, r); } if (o != LTYPE) { gencode(l, INREGS); if (q->rewrite & RLEFT) ckmove(p, l); } if (o == BITYPE && !(p->n_su & DORIGHT)) { gencode(r, INREGS); if (q->rewrite & RRIGHT) ckmove(p, r); } canon(p); if (q->needs & NSPECIAL) { int rr = rspecial(q, NRIGHT); int lr = rspecial(q, NLEFT); if (rr >= 0) { #ifdef PCC_DEBUG if (optype(p->n_op) != BITYPE) comperr("gencode: rspecial borked"); #endif if (r->n_op != REG) comperr("gencode: rop != REG"); if (rr != r->n_rval) rmove(r->n_rval, rr, r->n_type); r->n_rval = r->n_reg = rr; } if (lr >= 0) { if (l->n_op != REG) comperr("gencode: %p lop != REG", p); if (lr != l->n_rval) rmove(l->n_rval, lr, l->n_type); l->n_rval = l->n_reg = lr; } if (rr >= 0 && lr >= 0 && (l->n_reg == rr || r->n_reg == lr)) comperr("gencode: cross-reg-move"); } if (p->n_op == ASSIGN && p->n_left->n_op == REG && p->n_right->n_op == REG && p->n_left->n_rval == p->n_right->n_rval){ /* do not emit anything */ CDEBUG(("gencode(%p) assign nothing\n", p)); rewrite(p, q->rewrite, cookie); return; } CDEBUG(("emitting node %p\n", p)); if (TBLIDX(p->n_su) == 0) return; expand(p, cookie, q->cstring); if (callop(p->n_op) && cookie != FOREFF && DECRA(p->n_reg, 0) != RETREG(p->n_type)) { CDEBUG(("gencode(%p) retreg\n", p)); rmove(RETREG(p->n_type), DECRA(p->n_reg, 0), p->n_type); } else if (q->needs & NSPECIAL) { int rr = rspecial(q, NRES); if (rr >= 0 && DECRA(p->n_reg, 0) != rr) { CDEBUG(("gencode(%p) nspec retreg\n", p)); rmove(rr, DECRA(p->n_reg, 0), p->n_type); } } else if ((q->rewrite & RESC1) && (DECRA(p->n_reg, 1) != DECRA(p->n_reg, 0))) { CDEBUG(("gencode(%p) RESC1 retreg\n", p)); rmove(DECRA(p->n_reg, 1), DECRA(p->n_reg, 0), p->n_type); } #if 0 /* XXX - kolla upp det här */ else if (p->n_op == ASSIGN) { /* may need move added if RLEFT/RRIGHT */ /* XXX should be handled in sucomp() */ if ((q->rewrite & RLEFT) && (p->n_left->n_op == REG) && (p->n_left->n_rval != DECRA(p->n_reg, 0)) && TCLASS(p->n_su)) { rmove(p->n_left->n_rval, DECRA(p->n_reg, 0), p->n_type); } else if ((q->rewrite & RRIGHT) && (p->n_right->n_op == REG) && (p->n_right->n_rval != DECRA(p->n_reg, 0)) && TCLASS(p->n_su)) { rmove(p->n_right->n_rval, DECRA(p->n_reg, 0), p->n_type); } } #endif rewrite(p, q->rewrite, cookie); } int negrel[] = { NE, EQ, GT, GE, LT, LE, UGT, UGE, ULT, ULE } ; /* negatives of relationals */ size_t negrelsize = sizeof negrel / sizeof negrel[0]; #ifdef PCC_DEBUG #undef PRTABLE void e2print(NODE *p, int down, int *a, int *b) { #ifdef PRTABLE extern int tablesize; #endif prfil = stdout; *a = *b = down+1; while( down >= 2 ){ fprintf(prfil, "\t"); down -= 2; } if( down-- ) fprintf(prfil, " " ); fprintf(prfil, "%p) %s", p, opst[p->n_op] ); switch( p->n_op ) { /* special cases */ case REG: fprintf(prfil, " %s", rnames[p->n_rval] ); break; case TEMP: fprintf(prfil, " %d", regno(p)); break; case XASM: case XARG: fprintf(prfil, " '%s'", p->n_name); break; case ICON: case NAME: case OREG: fprintf(prfil, " " ); adrput(prfil, p ); break; case STCALL: case USTCALL: case STARG: case STASG: fprintf(prfil, " size=%d", p->n_stsize ); fprintf(prfil, " align=%d", p->n_stalign ); break; } fprintf(prfil, ", " ); tprint(prfil, p->n_type, p->n_qual); fprintf(prfil, ", " ); prtreg(prfil, p); fprintf(prfil, ", SU= %d(%cREG,%s,%s,%s,%s)\n", TBLIDX(p->n_su), TCLASS(p->n_su)+'@', #ifdef PRTABLE TBLIDX(p->n_su) >= 0 && TBLIDX(p->n_su) <= tablesize ? table[TBLIDX(p->n_su)].cstring : "", #else "", #endif ltyp[LMASK&p->n_su], rtyp[(p->n_su&RMASK) >> 2], p->n_su & DORIGHT ? "DORIGHT" : ""); } #endif #ifndef FIELDOPS /* * do this if there is no special hardware support for fields */ static void ffld(NODE *p, int down, int *down1, int *down2 ) { /* * look for fields that are not in an lvalue context, * and rewrite them... */ NODE *shp; int s, o, v, ty; *down1 = asgop( p->n_op ); *down2 = 0; if( !down && p->n_op == FLD ){ /* rewrite the node */ if( !rewfld(p) ) return; ty = p->n_type; v = p->n_rval; s = UPKFSZ(v); # ifdef RTOLBYTES o = UPKFOFF(v); /* amount to shift */ # else o = szty(p->n_type)*SZINT - s - UPKFOFF(v); /* amount to shift */ #endif /* make & mask part */ if (ISUNSIGNED(ty)) { p->n_left->n_type = ty; p->n_op = AND; p->n_right = mklnode(ICON, ((CONSZ)1 << s)-1, 0, ty); /* now, if a shift is needed, do it */ if( o != 0 ){ shp = mkbinode(RS, p->n_left, mklnode(ICON, o, 0, INT), ty); p->n_left = shp; /* whew! */ } } else { /* must sign-extend, assume RS will do */ /* if not, arch must use rewfld() */ p->n_left->n_type = INT; /* Ok? */ p->n_op = RS; p->n_right = mklnode(ICON, SZINT-s, 0, INT); p->n_left = mkbinode(LS, p->n_left, mklnode(ICON, SZINT-s-o, 0, INT), INT); } } } #endif /* * change left TEMPs into OREGs */ void deltemp(NODE *p) { struct tmpsave *w; NODE *l, *r; if (p->n_op == TEMP) { /* Check if already existing */ for (w = tmpsave; w; w = w->next) if (w->tempno == regno(p)) break; if (w == NULL) { /* new on stack */ w = tmpalloc(sizeof(struct tmpsave)); w->tempno = regno(p); w->tempaddr = BITOOR(freetemp(szty(p->n_type))); w->next = tmpsave; tmpsave = w; } l = mklnode(REG, 0, FPREG, INCREF(p->n_type)); r = mklnode(ICON, w->tempaddr, 0, INT); p->n_left = mkbinode(PLUS, l, r, INCREF(p->n_type)); p->n_op = UMUL; } else if (p->n_op == ADDROF && p->n_left->n_op != NAME) { /* TEMPs are already converted to OREGs */ if ((l = p->n_left)->n_op != OREG) comperr("bad U&"); p->n_op = PLUS; l->n_op = REG; l->n_type = INCREF(l->n_type); p->n_right = mklnode(ICON, l->n_lval, 0, INT); } } /* * for pointer/integer arithmetic, set pointer at left node */ static void setleft(NODE *p) { NODE *q; /* only additions for now */ if (p->n_op != PLUS) return; if (ISPTR(p->n_right->n_type) && !ISPTR(p->n_left->n_type)) { q = p->n_right; p->n_right = p->n_left; p->n_left = q; } } /* It is OK to have these as externals */ static int oregr; static CONSZ oregtemp; static char *oregcp; /* * look for situations where we can turn * into OREG * If sharp then do not allow temps. */ int oregok(NODE *p, int sharp) { NODE *q; NODE *ql, *qr; int r; CONSZ temp; char *cp; q = p->n_left; #if 0 if ((q->n_op == REG || (q->n_op == TEMP && !sharp)) && q->n_rval == DECRA(q->n_reg, 0)) { #endif if (q->n_op == REG || (q->n_op == TEMP && !sharp)) { temp = q->n_lval; r = q->n_rval; cp = q->n_name; goto ormake; } if (q->n_op != PLUS && q->n_op != MINUS) return 0; ql = q->n_left; qr = q->n_right; #ifdef R2REGS /* look for doubly indexed expressions */ /* XXX - fix checks */ if( q->n_op == PLUS) { int i; if( (r=base(ql))>=0 && (i=offset(qr, tlen(p)))>=0) { makeor2(p, ql, r, i); return 1; } else if((r=base(qr))>=0 && (i=offset(ql, tlen(p)))>=0) { makeor2(p, qr, r, i); return 1; } } #endif #if 0 if( (q->n_op==PLUS || q->n_op==MINUS) && qr->n_op == ICON && (ql->n_op==REG || (ql->n_op==TEMP && !sharp)) && szty(qr->n_type)==1 && (ql->n_rval == DECRA(ql->n_reg, 0) || /* XXX */ ql->n_rval == FPREG || ql->n_rval == STKREG)) { #endif if ((q->n_op==PLUS || q->n_op==MINUS) && qr->n_op == ICON && (ql->n_op==REG || (ql->n_op==TEMP && !sharp))) { temp = qr->n_lval; if( q->n_op == MINUS ) temp = -temp; r = ql->n_rval; temp += ql->n_lval; cp = qr->n_name; if( *cp && ( q->n_op == MINUS || *ql->n_name ) ) return 0; if( !*cp ) cp = ql->n_name; ormake: if( notoff( p->n_type, r, temp, cp )) return 0; oregtemp = temp; oregr = r; oregcp = cp; return 1; } return 0; } static void ormake(NODE *p) { NODE *q = p->n_left; p->n_op = OREG; p->n_rval = oregr; p->n_lval = oregtemp; p->n_name = oregcp; tfree(q); } /* * look for situations where we can turn * into OREG */ void oreg2(NODE *p) { if (p->n_op != UMUL) return; if (oregok(p, 1)) ormake(p); if (p->n_op == UMUL) myormake(p); } void canon(p) NODE *p; { /* put p in canonical form */ walkf(p, setleft); /* ptrs at left node for arithmetic */ walkf(p, oreg2); /* look for and create OREG nodes */ #ifndef FIELDOPS fwalk(p, ffld, 0); /* look for field operators */ # endif mycanon(p); /* your own canonicalization routine(s) */ } void comperr(char *str, ...) { extern char *ftitle; va_list ap; if (nerrors) { fprintf(stderr, "cannot recover from earlier errors: goodbye!\n"); exit(1); } va_start(ap, str); fprintf(stderr, "%s, line %d: compiler error: ", ftitle, thisline); vfprintf(stderr, str, ap); fprintf(stderr, "\n"); va_end(ap); prfil = stderr; if (nodepole && nodepole->n_op != FREE) fwalk(nodepole, e2print, 0); exit(1); } /* * allocate k integers worth of temp space * we also make the convention that, if the number of words is * more than 1, it must be aligned for storing doubles... * Returns bits offset from base register. * XXX - redo this. */ int freetemp(int k) { #ifndef BACKTEMP int t; if (k > 1) SETOFF(p2autooff, ALDOUBLE/ALCHAR); t = p2autooff; p2autooff += k*(SZINT/SZCHAR); if (p2autooff > p2maxautooff) p2maxautooff = p2autooff; return (t); #else p2autooff += k*(SZINT/SZCHAR); if (k > 1) SETOFF(p2autooff, ALDOUBLE/ALCHAR); if (p2autooff > p2maxautooff) p2maxautooff = p2autooff; return( -p2autooff ); #endif } NODE * mklnode(int op, CONSZ lval, int rval, TWORD type) { NODE *p = talloc(); p->n_name = ""; p->n_qual = 0; p->n_op = op; p->n_lval = lval; p->n_rval = rval; p->n_type = type; p->n_regw = NULL; p->n_su = 0; return p; } NODE * mkbinode(int op, NODE *left, NODE *right, TWORD type) { NODE *p = talloc(); p->n_name = ""; p->n_qual = 0; p->n_op = op; p->n_left = left; p->n_right = right; p->n_type = type; p->n_regw = NULL; return p; } NODE * mkunode(int op, NODE *left, int rval, TWORD type) { NODE *p = talloc(); p->n_name = ""; p->n_qual = 0; p->n_op = op; p->n_left = left; p->n_rval = rval; p->n_type = type; p->n_regw = NULL; return p; } struct interpass * ipnode(NODE *p) { struct interpass *ip = tmpalloc(sizeof(struct interpass)); ip->ip_node = p; ip->type = IP_NODE; ip->lineno = thisline; return ip; } int rspecial(struct optab *q, int what) { struct rspecial *r = nspecial(q); while (r->op) { if (r->op == what) return r->num; r++; } return -1; } /* * Ensure that a node is correct for the destination. */ static void ltypify(struct interpass *ip, NODE *p) { struct interpass *ip2; TWORD t = p->n_left->n_type; NODE *q, *r; char *w; // int asg = 0, and = 0; #ifdef notyet if (myxasm(ip, p)) return; /* handled by target-specific code */ #endif w = p->n_name; // if (*w == '=') // w++, asg = 1; switch (*w) { case 'r': /* general reg */ /* set register class */ p->n_label = gclass(p->n_left->n_type); if (optype(p->n_left->n_op) == LTYPE) break; q = mklnode(TEMP, 0, epp->ip_tmpnum++, t); r = tcopy(q); ip2 = ipnode(mkbinode(ASSIGN, q, p->n_left, t)); DLIST_INSERT_BEFORE(ip, ip2, qelem); p->n_left = r; break; default: uerror("unsupported xasm option string '%s'", p->n_name); } // fwalk(p, e2print, 0); } /* Extended assembler hacks */ static void fixxasm(struct interpass *ipole) { struct interpass *ip; NODE *p; DLIST_FOREACH(ip, ipole, qelem) { if (ip->type != IP_NODE || ip->ip_node->n_op != XASM) continue; /* Got an assembler node */ p = ip->ip_node->n_left; /* * Ensure that the arg nodes can be directly addressable * We decide that everything shall be LTYPE here. */ for (; p->n_op == CM; p = p->n_left) ltypify(ip, p->n_right); ltypify(ip, p); p = ip->ip_node->n_right; if (p->n_op != ICON || p->n_type != STRTY) uerror("xasm constraints not supported"); } }