ack/mach/proto/as/comm6.c

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/* $Id$ */
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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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/* @(#)comm6.c 1.7 */
/*
* implement pseudo instructions
*/
#include "comm0.h"
#include "comm1.h"
#include "y.tab.h"
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#include "object.h"
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static void new_common(item_t *);
void
newequate(item_t *ip, int typ)
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{
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 */
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if (typ == S_UND)
serror("illegal equate");
if (pass == PASS_3)
assert((ip->i_type & S_TYP) == (typ & S_TYP));
newident(ip, typ);
}
void
newident(item_t *ip, int typ)
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{
int flag;
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#ifdef GENLAB
static char genlab[] = GENLAB;
#endif /* GENLAB */
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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 */
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#ifdef GENLAB
if (!(flag & SYM_EXT) &&
strncmp(ip->i_name, genlab, sizeof(genlab)-1) == 0)
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flag = SYM_LAB;
#endif /* GENLAB */
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if (sflag & flag)
newsymb(
ip->i_name,
ip->i_type & (S_EXT|S_TYP),
0,
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load(ip)
);
}
void
newlabel(item_t *ip)
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{
#if defined(THREE_PASS) && !defined(NDEBUG)
ADDR_T oldval = ip->i_valu;
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#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 - (ADDR_T) ip->i_valu == DOTGAIN);
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#endif
}
void
newsect(item_t *ip)
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{
int typ;
sect_t *sp = NULL;
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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 = &sect[typ - S_MIN];
sp->s_item = ip;
sp->s_lign = ALIGNSECT;
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#ifndef ASLD
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ip->i_type = typ;
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#else
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ip->i_type = typ | S_EXT;
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#endif
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ip->i_valu = 0;
} else if (typ >= S_MIN) {
sp = &sect[typ - S_MIN];
if (sp->s_item != ip)
sp = NULL;
}
if (sp == NULL)
serror("multiple declared");
else
switchsect(typ);
}
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/*ARGSUSED*/
void
newbase(valu_t base)
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{
#ifdef ASLD
sect_t *sp;
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if ((sp = DOTSCT) == NULL)
nosect();
if (sp->s_flag & BASED)
serror("already based");
if (sp->s_flag & SOUGHT)
serror("cannot rebase section after a seek");
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sp->s_base = base;
sp->s_flag |= BASED;
DOTVAL += base;
#else
warning(".base ignored");
#endif
}
/*
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* NOTE: A rather different solution is used for ASLD and not ASLD:
* ASLD, or local commons:
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* - 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
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* not ASLD:
* - maximum length of .comm is recorded in i_valu during PASS_1
* - i_valu is used for relocation info during PASS_3
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*/
void
newcomm(item_t *ip, valu_t val)
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{
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;
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ip->i_type = S_COM|DOTTYP|(ip->i_type&S_EXT);
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ip->i_valu = val;
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new_common(ip);
} else if (ip->i_type == (S_COM|DOTTYP|(ip->i_type&S_EXT))) {
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if (ip->i_valu < val)
ip->i_valu = val;
} else
serror("multiple declared");
}
}
void
switchsect(int newtyp)
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{
sect_t *sp;
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if ((sp = DOTSCT))
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sp->s_size = DOTVAL - sp->s_base;
if (newtyp == S_UND) {
DOTSCT = NULL;
DOTTYP = newtyp;
return;
}
assert(newtyp >= S_MIN);
sp = &sect[newtyp - S_MIN];
DOTVAL = sp->s_size + sp->s_base;
DOTSCT = sp;
DOTTYP = newtyp;
}
void
align(valu_t bytes)
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{
valu_t gap;
sect_t *sp;
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if ((sp = DOTSCT) == NULL)
nosect();
if (bytes == 0)
bytes = ALIGNWORD;
if (sp->s_lign % bytes)
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{
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if (bytes % sp->s_lign)
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{
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serror("illegal alignment");
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}
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else
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{
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sp->s_lign = bytes;
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}
}
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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
}
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DOTVAL += gap;
sp->s_zero += gap;
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}
#ifdef RELOCATION
void
newrelo(int s, int n)
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{
int iscomm;
struct outrelo outrelo;
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if (rflag == 0)
return;
if (PASS_RELO == 0)
return;
s &= ~S_DOT;
assert((s & ~(S_COM|S_VAR|S_TYP)) == 0);
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#ifdef ASLD
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#ifndef THREE_PASS
if (s == S_UND)
serror("bad relocation");
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#endif
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#endif
/*
* always relocation info if S_VAR to solve problems with:
* move b,d0
* b=a
* a: .data2 0
* but no relocation info if S_VAR is set, but type is S_ABS.
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*/
iscomm = s & S_COM;
s &= ~S_COM;
if ((n & RELPC) == 0 && ((s & ~S_VAR) == S_ABS))
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return;
if ((n & RELPC) != 0 && s == DOTTYP
#ifndef ASLD
&& ! iscomm
#endif
)
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return;
if (pass != PASS_3) {
outhead.oh_nrelo++;
return;
}
s &= ~S_VAR;
outrelo.or_type = n;
outrelo.or_sect = DOTTYP;
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#ifndef ASLD
if (s == S_UND || iscomm) {
assert(relonami != 0);
outrelo.or_nami = relonami-1;
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relonami = 0;
} else
#endif
if (s < S_MIN) {
assert(s == S_ABS);
/*
* use first non existing entry (argh)
*/
outrelo.or_nami = outhead.oh_nname;
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} else {
/*
* section symbols are at the end
*/
outrelo.or_nami = outhead.oh_nname
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- outhead.oh_nsect
+ (s - S_MIN)
;
}
outrelo.or_addr = (long)DOTVAL;
wr_relo(&outrelo, 1);
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}
#endif
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long
new_string(const char *s)
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{
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;
}
void
newsymb(const char *name, int type, int desc, valu_t valu)
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{
struct outname outname;
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if (name && *name == 0)
name = 0;
assert(PASS_SYMB);
if (pass != PASS_3) {
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new_string(name);
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outhead.oh_nname++;
return;
}
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nname++;
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outname.on_foff = new_string(name);
outname.on_type = type;
outname.on_desc = desc;
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outname.on_valu = valu;
wr_name(&outname, 1);
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}
static void
new_common(item_t *ip)
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{
struct common_t *cp;
static int nleft = 0;
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static struct common_t *next;
if (--nleft < 0) {
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next = (struct common_t *) malloc(MEMINCR);
if (next == 0) {
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fatal("out of memory");
}
nleft += (MEMINCR / sizeof (struct common_t));
}
cp = next++;
cp->c_next = commons;
cp->c_it = ip;
commons = cp;
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}