/* $Header$ */ /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ /* @(#)comm6.c 1.7 */ /* * implement pseudo instructions */ #include "comm0.h" #include "comm1.h" #include "y.tab.h" newequate(ip, typ) register item_t *ip; register short typ; { typ &= ~S_EXT; if (typ & S_COM) typ = S_UND; else if ((typ & S_VAR) && (typ & S_TYP) != S_ABS) typ = S_UND; #ifdef THREE_PASS else if (pass == PASS_1 && typ == S_UND) typ = S_VAR; else if (pass == PASS_2 && (ip->i_type & S_TYP) == S_UND) ip->i_type |= typ; #endif THREE_PASS if (typ == S_UND) serror("illegal equate"); if (pass == PASS_3) assert((ip->i_type & S_TYP) == (typ & S_TYP)); newident(ip, typ); } newident(ip, typ) register item_t *ip; { register flag; #ifdef GENLAB static char genlab[] = GENLAB; #endif GENLAB if (pass == PASS_1) { /* printf("declare %s: %o\n", ip->i_name, typ); */ if (ip->i_type & ~S_EXT) serror("multiple declared"); else --unresolved; ip->i_type |= typ; } if (PASS_SYMB == 0) return; #ifdef THREE_PASS if (ip->i_type & S_EXT) flag = SYM_EXT; else flag = SYM_LOC; #else flag = SYM_EXT|SYM_LOC; /* S_EXT not stable in PASS_1 */ #endif THREE_PASS #ifdef GENLAB if (!(flag & SYM_EXT) && strncmp(ip->i_name, genlab, sizeof(genlab)-1) == 0) flag = SYM_LAB; #endif GENLAB if (sflag & flag) newsymb( ip->i_name, ip->i_type & (S_EXT|S_TYP), (short)0, load(ip) ); } newlabel(ip) register item_t *ip; { #if DEBUG != 0 #ifdef THREE_PASS register addr_t oldval = ip->i_valu; #endif #endif if (DOTSCT == NULL) nosect(); ip->i_type &= ~S_TYP; ip->i_type |= DOTTYP; if (store(ip, (valu_t) DOTVAL) == 0) return; #ifdef THREE_PASS assert(pass != PASS_2 || oldval - ip->i_valu == DOTGAIN); #endif } newsect(ip) register item_t *ip; { register short typ; register sect_t *sp = NULL; typ = ip->i_type & S_TYP; if (typ == S_UND) { /* * new section */ assert(pass == PASS_1); --unresolved; typ = outhead.oh_nsect + S_MIN; outhead.oh_nsect++; if (outhead.oh_nsect > SECTMAX || typ > S_MAX) fatal("too many sections"); sp = §[typ - S_MIN]; sp->s_item = ip; sp->s_lign = ALIGNSECT; #ifndef ASLD ip->i_type = typ; #else ip->i_type = typ | S_EXT; #endif ip->i_valu = 0; } else if (typ >= S_MIN) { sp = §[typ - S_MIN]; if (sp->s_item != ip) sp = NULL; } if (sp == NULL) serror("multiple declared"); else switchsect(typ); } /*ARGSUSED*/ newbase(base) valu_t base; { #ifdef ASLD register sect_t *sp; if ((sp = DOTSCT) == NULL) nosect(); if (sp->s_flag & BASED) serror("already based"); sp->s_base = base; sp->s_flag |= BASED; DOTVAL += base; #else warning(".base ignored"); #endif } /* * NOTE: A rather different solution is used for ASLD and not ASLD: * ASLD, or local commons: * - maximum length of .comm is recorded in i_valu during PASS_1 * - address of .comm is recorded in i_valu in later passes: * assigned at end of PASS_1, corrected for s_gain at end of PASS_2 * not ASLD: * - maximum length of .comm is recorded in i_valu during PASS_1 * - i_valu is used for relocation info during PASS_3 */ newcomm(ip, val) register item_t *ip; valu_t val; { if (pass == PASS_1) { if (DOTSCT == NULL) nosect(); if (val == 0) serror("bad size"); /* printf("declare %s: %o\n", ip->i_name, DOTTYP); */ if ((ip->i_type & ~S_EXT) == S_UND) { --unresolved; ip->i_type = S_COM|DOTTYP|(ip->i_type&S_EXT); ip->i_valu = val; new_common(ip); } else if (ip->i_type == (S_COM|DOTTYP|(ip->i_type&S_EXT))) { if (ip->i_valu < val) ip->i_valu = val; } else serror("multiple declared"); } } switchsect(newtyp) short newtyp; { register sect_t *sp; if (sp = DOTSCT) sp->s_size = DOTVAL - sp->s_base; if (newtyp == S_UND) { DOTSCT = NULL; DOTTYP = newtyp; return; } assert(newtyp >= S_MIN); sp = §[newtyp - S_MIN]; DOTVAL = sp->s_size + sp->s_base; DOTSCT = sp; DOTTYP = newtyp; } align(bytes) valu_t bytes; { register valu_t gap; register sect_t *sp; if ((sp = DOTSCT) == NULL) nosect(); if (bytes == 0) bytes = ALIGNWORD; if (sp->s_lign % bytes) if (bytes % sp->s_lign) serror("illegal alignment"); else sp->s_lign = bytes; if (pass == PASS_1) /* * be pessimistic: biggest gap possible */ gap = bytes - 1; else { /* * calculate gap correctly; * will be the same in PASS_2 and PASS_3 */ if ((gap = DOTVAL % bytes) != 0) gap = bytes - gap; #ifdef THREE_PASS if (pass == PASS_2) /* * keep track of gain with respect to PASS_1 */ DOTGAIN += (bytes - 1) - gap; #endif } DOTVAL += gap; sp->s_zero += gap; } #ifdef RELOCATION newrelo(s, n) short s; { int iscomm; struct outrelo outrelo; if (rflag == 0) return; if (PASS_RELO == 0) return; s &= ~S_DOT; assert((s & ~(S_COM|S_VAR|S_TYP)) == 0); #ifdef ASLD #ifndef THREE_PASS if (s == S_UND) serror("bad relocation"); #endif #endif /* * always relocation info if S_VAR to solve problems with: * move b,d0 * b=a * a: .data2 0 */ iscomm = s & S_COM; s &= ~S_COM; if ((n & RELPC) == 0 && s == S_ABS) return; if ((n & RELPC) != 0 && s == DOTTYP #ifndef ASLD && ! iscomm #endif ) return; if (pass != PASS_3) { outhead.oh_nrelo++; return; } s &= ~S_VAR; outrelo.or_type = (char)n; outrelo.or_sect = (char)DOTTYP; #ifndef ASLD if (s == S_UND || iscomm) { assert(relonami != 0); outrelo.or_nami = relonami-1; relonami = 0; } else #endif if (s < S_MIN) { assert(s == S_ABS); /* * use first non existing entry (argh) */ outrelo.or_nami = outhead.oh_nname; } else { /* * section symbols are at the end */ outrelo.or_nami = outhead.oh_nname - outhead.oh_nsect + (s - S_MIN) ; } outrelo.or_addr = (long)DOTVAL; wr_relo(&outrelo, 1); } #endif long new_string(s) char *s; { long r = 0; if (s) { long len = strlen(s) + 1; r = outhead.oh_nchar; if (pass == PASS_3) wr_string(s, len); outhead.oh_nchar += len; } return r; } newsymb(name, type, desc, valu) register char *name; short type; short desc; valu_t valu; { struct outname outname; if (name && *name == 0) name = 0; assert(PASS_SYMB); if (pass != PASS_3) { new_string(name); outhead.oh_nname++; return; } nname++; outname.on_foff = new_string(name); outname.on_type = type; outname.on_desc = desc; outname.on_valu = valu; if (sizeof(valu) != sizeof(long)) outname.on_valu &= ~(((0xFFFFFFFF)<<(4*sizeof(valu_t)))<<(4*sizeof(valu_t))); wr_name(&outname, 1); } new_common(ip) item_t *ip; { register struct common_t *cp; static nleft = 0; static struct common_t *next; if (--nleft < 0) { next = (struct common_t *) malloc(MEMINCR); if (next == 0) { fatal("out of memory"); } nleft += (MEMINCR / sizeof (struct common_t)); } cp = next++; cp->c_next = commons; cp->c_it = ip; commons = cp; }