/* Copyright (c) 1980 Regents of the University of California */
-static char sccsid[] = "@(#)ascode.c 4.1 %G%";
+static char sccsid[] = "@(#)ascode.c 4.7 %G%";
#include <stdio.h>
-#include <sys/types.h>
-#include <a.out.h>
#include "as.h"
#include "assyms.h"
+/*
+ * Loader reference types (plust PCREL) to bytes and lg bytes
+ */
+/* LEN1 LEN1+PC LEN2 LEN2+PC LEN4 LEN4+PC LEN8 LEN8+PC*/
+int reflen[] = /* {LEN*+PCREL} ==> number of bytes */
+{0, 0, 1, 1, 2, 2, 4, 4, 8, 8};
+int lgreflen[] = /* {LEN*+PCREL} ==> lg number of bytes */
+{-1, -1, 0, 0, 1, 1, 2, 2, 3, 3};
+
+/*
+ * Sizes to Loader reference types and type flags
+ */
+/*0 1 2 3 4 5 6 7 8*/
+int len124[] = /* {1,2,4,8} ==> {LEN1, LEN2, LEN4, LEN8} */
+{0, LEN1, LEN2, 0, LEN4, 0, 0, 0, LEN8};
+char mod124[] = /* {1,2,4,8} ==> {bits to construct operands */
+{0, 0x00, 0x20, 0, 0x40, 0, 0, 0, 0};
+int type_124[] = /* {1,2,4,8} ==> {TYPB, TYPW, TYPL, TYPQ} */
+{0, TYPB, TYPW, 0, TYPL, 0, 0, 0, TYPQ};
+
+/*
+ * type flags to Loader reference and byte lengths
+ */
+/*TYPB TYPW TYPL TYPQ TYPF TYPD*/
+int ty_NORELOC[] = /* {TYPB..TYPD} ==> {1 if relocation not OK */
+{0, 0, 0, 1, 1, 1};
+int ty_LEN[] = /* {TYPB..TYPD} ==> {LEN1..LEN8} */
+{LEN1, LEN2, LEN4, LEN8, LEN4, LEN8};
+int ty_nbyte[] = /* {TYPB..TYPD} ==> {1,2,4,8} */
+{1, 2, 4, 8, 4, 8};
+int ty_nlg[] = /* {TYPB..TYPD} ==> lg{1,2,4,8} */
+{0, 1, 2, 3, 2, 3};
+
insout(op, ap, nact)
struct arg *ap;
{
- int jxxflg;
-
+ int jxxflg;
+ register struct instab *ip; /* the instruction */
+ register struct arg *ap_walk; /* actual param walk */
+ register int i;
+ register int ap_type; /* actual param type */
+ register int ap_type_mask; /* masked actual param */
op &= 0xFF;
jxxflg = nact;
if (nact < 0)
nact = -nact;
if (passno == 1) {
- register struct arg *ap2;
- register struct instab *ip;
- int i,nexp;
- ip = itab[op];
- nexp = ip->nargs;
- if (nact < nexp)
- yyerror("Too few arguments");
- if (nact > nexp) {
- yyerror("Too many arguments");
- nact = nexp;
- }
+ ip = itab[op];
+ if (nact < ip->i_nargs)
+ yyerror("Too few arguments");
+ if (nact > ip->i_nargs) {
+ yyerror("Too many arguments");
+ nact = ip->i_nargs;
+ }
+ /*
+ * Check argument compatability with instruction template
+ */
+ for (ap_walk = ap, i = 1; i <= nact; ap_walk++, i++){
+ ap_type = ap_walk->a_atype;
+ ap_type_mask = ap_type & AMASK;
/*
- * Check argument compatability with instruction template
+ * The switch value is >> by 3 so that the switch
+ * code is dense, not implemented as a sequence
+ * of branches but implemented as a casel.
+ * In addition, cases ACCI and ACCR are added to force
+ * dense switch code.
*/
- for (ap2 = ap+nact, i = nact; --i >= 0;)
- argcompat(--ap2, ip->argtype[i], i+1);
- }
+ switch( ((fetcharg(ip, i-1)) & ACCESSMASK)>>3){ /* type of fp */
+ case ACCI >> 3:
+ case ACCR >> 3:
+ break;
+ case ACCB >> 3:
+ if ( !((ap_type_mask == AEXP) || (ap_type_mask == AIMM)) ){
+ yyerror("arg %d, branch displacement must be an expression",i);
+ return;
+ }
+ break;
+ case ACCA >> 3:
+ switch(ap_type_mask){
+ case AREG: yyerror("arg %d, addressing a register",i);
+ return;
+ case AIMM: if ( !(ap_type & ASTAR) ){
+ yyerror("arg %d, addressing an immediate operand",i);
+ return;
+ }
+ }
+ break;
+ case ACCM >> 3:
+ case ACCW >> 3:
+ switch(ap_type_mask){
+ case AIMM: if (!(ap_type&ASTAR)) {
+ yyerror("arg %d, modifying a constant",i);
+ return;
+ }
+ }
+ break;
+ } /* end of the switch on fp_type */
+ if (ap_type & AINDX) {
+ if (ap_walk->a_areg2==0xF) {
+ yyerror("arg %d, PC used as index",i);
+ return;
+ }
+ switch(ap_type_mask){
+ case AREG: yyerror("arg %d, indexing the register file",i);
+ return;
+ case AIMM: yyerror("arg %d, indexing a constant",i);
+ return;
+ case ADECR:
+ case AINCR: if (ap_walk->a_areg1==ap_walk->a_areg2) {
+ yyerror("arg %d, indexing with modified register",i);
+ return;
+ }
+ break;
+ } /* end of switch on ap_type_mask */
+ } /* end of AINDX */
+ }
+ } /* both passes here */
if (jxxflg < 0)
ijxout(op, ap, nact);
else putins(op, ap, nact);
}
-argcompat(act, exp, i)
- struct arg *act;
- int exp,i;
-{
- register at,atm;
-
- at = act->atype;
- atm = at & AMASK;
-
- if ( (exp & ACCB) && (!((atm == AEXP) || (atm == AIMM))) ){
- yyerror("arg %d, branch displacement must be an expression",i);
- return;
- }
- if ((exp & ACCA) && (atm == AREG)) {
- yyerror("arg %d, addressing a register",i);
- return;
- }
- if ((exp&ACCW) && (atm==AIMM) && !(at&ASTAR)) {
- yyerror("arg %d, modifying a constant",i);
- return;
- }
- if (at & AINDX) {
- if (act->areg2==017) {
- yyerror("arg %d, PC used as index",i);
- return;
- }
- if (atm==AREG) {
- yyerror("arg %d, indexing the register file",i);
- return;
- }
- if (atm==AIMM) {
- yyerror("arg %d, indexing a constant",i);
- return;
- }
- if (((atm==ADECR) || (atm==AINCR)) && (act->areg1==act->areg2)) {
- yyerror("arg %d, indexing with modified register",i);
- return;
- }
- }
-}
-
extern int d124;
- int len124[] = {0,LEN1,LEN2,0,LEN4};
- char mod124[] = {0,0x00,0x20,0,0x40};
putins(op, ap, n)
/*
register struct arg *ap;
{
register struct exp *xp;
- register int a;
- int i,xtrab;
+ register int argtype;
+ int i;
+ int reloc_how;
#ifdef DEBUG
fflush(stdout);
if (passno == 2)
goto PASS2;
- dotp->xvalue += n+1; /* 1 for the opcode, at least 1 per arg */
- for (i=0; i<n; i++,ap++) {/* some args take more than 1 byte */
- xtrab = 0;
- a=ap->atype;
- if (a & AINDX)
- dotp->xvalue++;
- switch (a&~(AINDX|ASTAR)) {
+ dotp->e_xvalue += n+1; /* 1 for the opcode, at least 1 per arg */
+ for (i=0; i<n; i++,ap++) { /* some args take more than 1 byte */
+ argtype = ap->a_atype;
+ if (argtype & AINDX)
+ dotp->e_xvalue++;
+ /*
+ * This switch has been fixed by enumerating the no action
+ * alternatives (those that have 1 one byte of code)
+ * so that a casel instruction is emitted.
+ */
+ switch (argtype&~(AINDX|ASTAR)) {
+ case AREG:
+ case ABASE:
+ case ADECR:
+ case AINCR:
+ break;
case AEXP:
- a = itab[op]->argtype[i];
- if (a == ACCB+TYPB)
+ argtype = fetcharg(itab[op], i);
+ if (argtype == ACCB+TYPB)
break;
- if (a==ACCB+TYPW){
- dotp->xvalue++;
+ if (argtype==ACCB+TYPW){
+ dotp->e_xvalue++;
break;
}
/*
* Reduces to PC relative
*/
- xtrab++;
- dotp->xvalue += ap->dispsize;
+ dotp->e_xvalue += ap->a_dispsize;
break;
case ADISP:
- xp=ap->xp;
- if ((xp->xtype&XTYPE)!=XABS || xp->xtype&XFORW){
- dotp->xvalue += ap->dispsize;
+ xp=ap->a_xp;
+ if ((xp->e_xtype&XTYPE)!=XABS || xp->e_xtype&XFORW){
+ dotp->e_xvalue += ap->a_dispsize;
break;
}
- if (xp->xvalue==0 && !(a&ASTAR))
+ if (xp->e_xvalue==0 && !(argtype&ASTAR))
break;
- dotp->xvalue++;
- if ((xp->xvalue<MINBYTE) || (xp->xvalue>MAXBYTE))
- dotp->xvalue++;
- if ((xp->xvalue<MINWORD) || (xp->xvalue>MAXWORD))
- dotp->xvalue += 2;
+ dotp->e_xvalue++;
+ if ((xp->e_xvalue<MINBYTE) || (xp->e_xvalue>MAXBYTE))
+ dotp->e_xvalue++;
+ if ((xp->e_xvalue<MINWORD) || (xp->e_xvalue>MAXWORD))
+ dotp->e_xvalue += 2;
break;
case AIMM:
- if (ap->atype&ASTAR) a=TYPL;
+ if (ap->a_atype&ASTAR) argtype=TYPL;
else {
- a = itab[op]->argtype[i];
- if (a&ACCA)
- a = TYPL;
+ argtype = fetcharg(itab[op], i);
+ if (argtype&ACCA)
+ argtype = TYPL;
else
- a &= TYPMASK;
- xp = ap->xp;
- if ( ((xp->xtype&XTYPE)==XABS)
- && (!(xp->xtype&XFORW))
- && (xp->xvalue>=0)
- && (xp->xvalue<=63)
- && (xp->yvalue == 0)
- && (a != TYPD)
- && (a != TYPF)
+ argtype &= TYPMASK;
+ xp = ap->a_xp;
+ if ( ((xp->e_xtype&XTYPE)==XABS)
+ && (!(xp->e_xtype&XFORW))
+ && (xp->e_xvalue>=0)
+ && (xp->e_xvalue<=63)
+ && (xp->e_yvalue == 0)
+ && (argtype != TYPD)
+ && (argtype != TYPF)
)
break;
}
- switch (a) {
+ switch (argtype) {
case TYPD:
case TYPF:
- if ( !(((xp->xtype&XTYPE)==XABS)
- && (!(xp->xtype&XFORW))
+ if ( !(((xp->e_xtype&XTYPE)==XABS)
+ && (!(xp->e_xtype&XFORW))
&& (slitflt(xp)))
){
/* it is NOT short */
- dotp->xvalue += ((a==TYPF)?
+ dotp->e_xvalue += ((argtype==TYPF)?
4 : 8);
}
break;
case TYPQ:
- dotp->xvalue += 8;break;
+ dotp->e_xvalue += 8;break;
case TYPL:
- dotp->xvalue += 4;break;
+ dotp->e_xvalue += 4;break;
case TYPW:
- dotp->xvalue += 2;break;
+ dotp->e_xvalue += 2;break;
case TYPB:
- dotp->xvalue += 1;break;
- } /*end of the switch on a*/
+ dotp->e_xvalue += 1;break;
+ } /*end of the switch on argtype*/
} /*end of the switch on the type*/
} /*end of looping for all arguments*/
return;
#endif UNIX
#ifdef VMS
*vms_obj_ptr++ = -1; *vms_obj_ptr++ = (char)op;
- dotp->xvalue += 1;
+ dotp->e_xvalue += 1;
#endif VMS
for (i=0; i<n; i++,ap++) {/* now for the arguments */
- a=ap->atype;
- xp=ap->xp;
- xtrab=0;
- if (a&AINDX) {
+ argtype=ap->a_atype;
+ xp=ap->a_xp;
+ reloc_how = TYPNONE;
+ if (argtype&AINDX) {
#ifdef UNIX
- { outb(0x40 | ap->areg2); }
+ { outb(0x40 | ap->a_areg2); }
#endif UNIX
#ifdef VMS
{ *vms_obj_ptr++ = -1;
- *vms_obj_ptr++ = (0x40 | ap->areg2);
- dotp->xvalue += 1; }
+ *vms_obj_ptr++ = (0x40 | ap->a_areg2);
+ dotp->e_xvalue += 1; }
#endif VMS
- a &= ~AINDX;
+ argtype &= ~AINDX;
}
- if (a&ASTAR) {
- ap->areg1 |= 0x10;
- a &= ~ASTAR;
+ if (argtype&ASTAR) {
+ ap->a_areg1 |= 0x10;
+ argtype &= ~ASTAR;
}
- switch (a) {
+ switch (argtype) {
case AREG: /* %r */
- ap->areg1 |= 0x50;
+ ap->a_areg1 |= 0x50;
break;
case ABASE: /* (%r) */
- ap->areg1 |= 0x60;
+ ap->a_areg1 |= 0x60;
break;
case ADECR: /* -(%r) */
- ap->areg1 |= 0x70;
+ ap->a_areg1 |= 0x70;
break;
- case AINCR: /* (%r) */
- ap->areg1 |= 0x80;
+ case AINCR: /* (%r)+ */
+ ap->a_areg1 |= 0x80;
break;
case AEXP: /* expr */
- a = itab[op]->argtype[i];
- if (a == ACCB+TYPB) {
- ap->areg1 = a =
- xp->xvalue - (dotp->xvalue + 1);
- if (a<MINBYTE || a>MAXBYTE)
+ argtype = fetcharg(itab[op], i);
+ if (argtype == ACCB+TYPB) {
+ ap->a_areg1 = argtype =
+ xp->e_xvalue - (dotp->e_xvalue + 1);
+ if (argtype<MINBYTE || argtype>MAXBYTE)
yyerror("Branch too far"); break;
}
- if (a == ACCB+TYPW) {
- ap->areg1 = a = xp->xvalue
- -= dotp->xvalue + 2;
- xp->xtype = XABS;
- if (a<MINWORD || a>MAXWORD)
+ if (argtype == ACCB+TYPW) {
+ ap->a_areg1 = argtype = xp->e_xvalue
+ -= dotp->e_xvalue + 2;
+ xp->e_xtype = XABS;
+ if (argtype<MINWORD || argtype>MAXWORD)
yyerror("Branch too far");
- xp->xvalue = a>>8;
- xtrab = LEN1;
+ xp->e_xvalue = argtype>>8;
+ reloc_how = TYPB;
break;
}
/* reduces to expr(pc) mode */
- ap->areg1 |= (0xAF + mod124[ap->dispsize]);
- xtrab = len124[ap->dispsize]+PCREL;
+ ap->a_areg1 |= (0xAF + mod124[ap->a_dispsize]);
+ reloc_how = type_124[ap->a_dispsize] + RELOC_PCREL;
break;
case ADISP: /* expr(%r) */
- ap->areg1 |= 0xA0;
- if ((xp->xtype&XTYPE)!=XABS || xp->xtype&XFORW){
- ap->areg1 += mod124[ap->dispsize];
- xtrab=len124[ap->dispsize];
+ ap->a_areg1 |= 0xA0;
+ if ((xp->e_xtype&XTYPE)!=XABS || xp->e_xtype&XFORW){
+ ap->a_areg1 += mod124[ap->a_dispsize];
+ reloc_how = type_124[ap->a_dispsize];
break;
}
- if (xp->xvalue==0 && !(ap->areg1&0x10)) {
- ap->areg1 ^= 0xC0;
+ if (xp->e_xvalue==0 && !(ap->a_areg1&0x10)) {
+ ap->a_areg1 ^= 0xC0;
break;
}
- xtrab=LEN1;
- if ((xp->xvalue<MINBYTE) || (xp->xvalue>MAXBYTE)){
- ap->areg1 += 0x20;
- xtrab=LEN2;
+ reloc_how = TYPB;
+ if ((xp->e_xvalue<MINBYTE) || (xp->e_xvalue>MAXBYTE)){
+ ap->a_areg1 += 0x20;
+ reloc_how = TYPW;
}
- if ((xp->xvalue<MINWORD) || (xp->xvalue>MAXWORD)){
- ap->areg1 += 0x20;
- xtrab=LEN4;
+ if ((xp->e_xvalue<MINWORD) || (xp->e_xvalue>MAXWORD)){
+ ap->a_areg1 += 0x20;
+ reloc_how = TYPL;
}
break;
case AIMM: /* $expr */
- if (ap->atype&ASTAR)
- a=TYPL;
+ if (ap->a_atype&ASTAR)
+ argtype=TYPL;
else {
- a = itab[op]->argtype[i];
- if (a&ACCA)
- a=TYPL;
+ argtype = fetcharg(itab[op], i);
+ if (argtype&ACCA)
+ argtype=TYPL;
else
- a &= TYPMASK;
- if ( ( (xp->xtype&XTYPE) == XABS)
- && !(xp->xtype&XFORW)
- && (xp->xvalue >= 0)
- && (xp->xvalue <= 63)
- && (xp->yvalue == 0)
- && (a != TYPF)
- && (a != TYPD) ) {
- ap->areg1 = xp->xvalue;
+ argtype &= TYPMASK;
+ if ( ( (xp->e_xtype&XTYPE) == XABS)
+ && !(xp->e_xtype&XFORW)
+ && (xp->e_xvalue >= 0)
+ && (xp->e_xvalue <= 63)
+ && (xp->e_yvalue == 0)
+ && (argtype != TYPF)
+ && (argtype != TYPD) ) {
+ ap->a_areg1 = xp->e_xvalue;
break;
}
}
- ap->areg1 |= 0x8F;
- switch (a) {
- case TYPD:
- case TYPF:
- if ( ((xp->xtype&XTYPE)==XABS)
- && (!(xp->xtype&XFORW))
+ ap->a_areg1 |= 0x8F;
+ reloc_how = argtype;
+ if (reloc_how == TYPD || reloc_how == TYPF){
+ if ( ((xp->e_xtype&XTYPE)==XABS)
+ && (!(xp->e_xtype&XFORW))
&& (slitflt(xp))
){
- ap->areg1=extlitflt(xp);
- } else {
- xtrab = (a==TYPF) ? LEN4: LEN8;
+ reloc_how = TYPNONE;
+ ap->a_areg1=extlitflt(xp);
}
- break;
- case TYPQ: xtrab = LEN8; break;
- case TYPL: xtrab = LEN4; break;
- case TYPW: xtrab = LEN2; break;
- case TYPB: xtrab = LEN1; break;
}
break;
- } /*end of the switch on a*/
+ } /*end of the switch on argtype*/
/*
* use the first byte to describe the argument
*/
#ifdef UNIX
- outb(ap->areg1);
+ outb(ap->a_areg1);
#endif UNIX
#ifdef VMS
- *vms_obj_ptr++ = -1; *vms_obj_ptr++ = (char)(ap->areg1);
- dotp->xvalue += 1;
+ *vms_obj_ptr++ = -1; *vms_obj_ptr++ = (char)(ap->a_areg1);
+ dotp->e_xvalue += 1;
if ((vms_obj_ptr-sobuf) > 400) {
write(objfil,sobuf,vms_obj_ptr-sobuf);
vms_obj_ptr=sobuf+1;
}
#endif VMS
- if (xtrab)
- /*
- * Floating point numbers are written to a.out
- * by outrel; they require that the least significant
- * 4 bytes of an 8 byte double precision number
- * immediately follow the field xvalue, which
- * they do.
- */
- outrel(&xp->xvalue, xtrab, xp->xtype, xp->xname);
+ if (reloc_how != TYPNONE)
+ outrel(xp, reloc_how);
} /*end of the for to pick up all arguments*/
}