ack/util/ass/ass50.c
1984-11-08 12:08:31 +00:00

195 lines
3.7 KiB
C

/*
* (c) copyright 1983 by the Vrije Universiteit, Amsterdam, The Netherlands.
*
* This product is part of the Amsterdam Compiler Kit.
*
* Permission to use, sell, duplicate or disclose this software must be
* obtained in writing. Requests for such permissions may be sent to
*
* Dr. Andrew S. Tanenbaum
* Wiskundig Seminarium
* Vrije Universiteit
* Postbox 7161
* 1007 MC Amsterdam
* The Netherlands
*
*/
#include "ass00.h"
#include "assex.h"
#include "ip_spec.h"
#ifndef NORCSID
static char rcs_id[] = "$Header$" ;
#endif
/*
** Pass 5 of EM1 assembler/loader
** Fix reloc tables
** Write out code
*/
pass_5() {
register line_t *lnp;
cons_t off1;
char defined ;
int afterlength, partype ;
register int inslength, ope;
char *op_curr ;
pass = 5;
afterlength = 0;
for (lnp = pstate.s_fline ; lnp ; lnp= lnp->l_next, line_num++ ) {
ope = ctrunc(lnp->instr_num);
if ( ope==sp_ilb1 ) continue ;
if ( ope==sp_fpseu ) {
line_num = lnp->ad.ad_ln.ln_first ;
continue ;
}
off1 = parval(lnp,&defined);
if ( (op_curr = lnp->opoff)==NO_OFF ) {
fatal("opoff assertion failed") ;
}
inslength = oplength(*op_curr) ;
afterlength += inslength ;
/*
* Change absolute offset to a relative for branches.
*/
partype= em_flag[ope]&EM_PAR ;
if ( partype==PAR_B && defined ) {
off1 -= afterlength;
}
#ifdef JOHAN
if ( jflag ) {
extern char em_mnem[][4] ;
printf("%s %D\n",em_mnem[ope],off1) ;
}
#endif
if ( !defined && partype==PAR_G ) { /* must be external */
text_reloc((lnp->type1==GLOSYM ?
lnp->ad.ad_gp:lnp->ad.ad_df.df_gp),
(FOFFSET)(textbytes+afterlength-inslength) ,
op_curr-opchoice);
xputarb(inslength,off1,tfile);
textoff += inslength ;
} else {
genop(op_curr,off1,partype) ;
}
} /* end forloop */
line_num-- ;
patchcase();
textbytes += prog_size;
if ( textbytes>maxadr ) fatal("Maximum code area size exceeded") ;
} /* end pass_5 */
genop(startc,value,i_flag) char *startc ; cons_t value ; int i_flag ; {
char *currc ;
register flag ;
char opc ;
/*
* Real code generation.
*/
currc= startc ;
flag = ctrunc(*currc++);
opc = *currc++;
if ( (flag&OPTYPE)!=OPNO ) {
if ( !opfit(flag,*currc,value,i_flag) ) {
fatal("parameter value unsuitable for selected opcode") ;
}
if ( flag&OPWORD ) {
if ( value%wordsize!=0 ) {
error("parameter not word multiple");
}
value /= wordsize ;
}
if ( flag&OPNZ ) {
if ( value<=0 ) error("negative parameter");
value-- ;
}
}
if ( flag&OPESC ) put8(ESC) ;
switch ( flag&OPTYPE ) {
case OPMINI :
opc += value<0 ? -1-value : value ;
break ;
case OPSHORT :
if ( value<0 ) {
opc += -1-(value>>8) ;
} else {
opc += value>>8 ;
}
break ;
case OP32 :
case OP64 :
put8(ESC_L) ;
}
#ifdef DUMP
if ( c_flag ) {
switch(flag&OPTYPE) {
case OP32 :
case OP64 :
opcnt3[opc&0377]= 1 ;
break ;
default :
if ( flag&OPESC ) opcnt2[opc&0377]= 1 ;
else opcnt1[opc&0377]= 1 ;
break ;
}
}
#endif
put8(opc) ;
switch( flag&OPTYPE ) {
case OPNO:
case OPMINI:
break ;
case OPSHORT:
case OP8:
put8((char)value) ;
break ;
case OP16:
put16(int_cast value) ;
break ;
case OP32:
put32(value) ;
break ;
case OP64:
put64(value) ;
break ;
}
}
patchcase() {
register relc_t *r;
register locl_t *k;
if ( r= pstate.s_fdata ) {
r= r->r_next ;
} else {
r= f_data ;
}
for( ; r ; r= r->r_next ) {
if (r->r_typ == RELLOC) {
r->r_typ = RELADR;
k = r->r_val.rel_lp;
if (k->l_defined==YES)
r->r_val.rel_i = k->l_min + textbytes;
else
error("case label at line %d undefined",
k->l_min);
}
}
}