ack/mach/i86/ncg/mach.c
George Koehler 1faff418ec Teach some ncg machines to use .data8
This turns EM `con 5000000000I8` into assembly `.data8 5000000000` for
machines i386, i80, i86, m68020, powerpc, vc4.  These are the only ncg
machines in our build.

i80 and i86 get con_mult(sz) for sz == 4 and sz == 8.  The other
machines only get sz == 8, because they have 4-byte words, and ncg
only calls con_mult(sz) when sz is greater than the word size.  The
tab "\t" after .data4 or .data8 is like the tabs in the con_*() macros
of mach/*/ncg/mach.h.

i86 now uses .data4, like i80.  Also, i86 and i386 now use the numeric
string without converting it to an integer and back to a string.
2019-08-13 15:37:05 -04:00

194 lines
3.4 KiB
C

/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*
*/
#ifndef NORCSID
static char rcs_m[]= "$Id$" ;
static char rcs_mh[]= ID_MH ;
#endif
/*
* machine dependent back end routines for the Intel 8086
*/
void
con_part(sz,w) register sz; word w; {
while (part_size % sz)
part_size++;
if (part_size == TEM_WSIZE)
part_flush();
if (sz == 1) {
w &= 0xFF;
if (part_size)
w <<= 8;
part_word |= w;
} else {
assert(sz == 2);
part_word = w;
}
part_size += sz;
}
void
con_mult(word sz) {
if (sz != 4 && sz != 8)
fatal("bad icon/ucon size");
fprintf(codefile,".data%d\t%s\n", (int)sz, str);
}
#define CODE_GENERATOR
#define IEEEFLOAT
#define FL_MSL_AT_LOW_ADDRESS 0
#define FL_MSW_AT_LOW_ADDRESS 0
#define FL_MSB_AT_LOW_ADDRESS 0
#include <con_float>
/*
string holstr(n) word n; {
sprintf(str,hol_off,n,holno);
return(mystrcpy(str));
}
*/
#ifdef REGVARS
full lbytes;
#endif
void
prolog(nlocals) full nlocals; {
fputs("\tpush\tbp\n\tmov\tbp,sp\n", codefile);
#ifdef REGVARS
lbytes = nlocals;
#else
switch (nlocals) {
case 4: fputs("\tpush\tax\n", codefile);
case 2: fputs("\tpush\tax\n", codefile);
case 0: break;
default:
fprintf(codefile, "\tsub\tsp,%d\n",nlocals); break;
}
#endif
}
#ifdef REGVARS
long si_off;
long di_off;
int firstreg;
int
regscore(off, size, typ, score, totyp)
long off;
{
if (size != 2) return -1;
score -= 1;
score += score;
if (typ == reg_pointer || typ == reg_loop) score += (score >> 2);
score -= 2; /* cost of saving */
if (off >= 0) score -= 3;
return score;
}
void
i_regsave()
{
si_off = -1;
di_off = -1;
firstreg = 0;
}
void
f_regsave()
{
if (si_off != di_off) {
if (di_off == -lbytes) lbytes -= 2;
if (si_off == -lbytes) lbytes -= 2;
if (di_off == -lbytes) lbytes -= 2;
}
switch (lbytes) {
case 4: fputs("\tpush\tax\n", codefile);
case 2: fputs("\tpush\tax\n", codefile);
case 0: break;
default:
fprintf(codefile, "\tsub\tsp,%d\n",lbytes); break;
}
if (firstreg == 1) {
fputs("push di\n", codefile);
if (si_off != -1) fputs("push si\n", codefile);
}
else if (firstreg == -1) {
fputs("push si\n", codefile);
if (di_off != -1) fputs("push di\n", codefile);
}
if (di_off >= 0)
fprintf(codefile, "mov di,%ld(bp)\n", di_off);
if (si_off >= 0)
fprintf(codefile, "mov si,%ld(bp)\n", si_off);
}
void
regsave(regstr, off, size)
const char *regstr;
long off;
{
if (strcmp(regstr, "si") == 0) {
if (! firstreg) firstreg = -1;
si_off = off;
}
else {
if (! firstreg) firstreg = 1;
di_off = off;
}
}
void
regreturn()
{
if (firstreg == 1) {
if (si_off != -1) fputs("jmp .sdret\n", codefile);
else fputs("jmp .dret\n", codefile);
}
else if (firstreg == -1) {
if (di_off != -1) fputs("jmp .dsret\n", codefile);
else fputs("jmp .sret\n", codefile);
}
else fputs("jmp .cret\n", codefile);
}
#endif /* REGVARS */
void
mes(type) word type ; {
int argt ;
switch ( (int)type ) {
case ms_ext :
for (;;) {
switch ( argt=getarg(
ptyp(sp_cend)|ptyp(sp_pnam)|sym_ptyp) ) {
case sp_cend :
return ;
default:
strarg(argt) ;
fprintf(codefile, ".define %s\n",argstr) ;
break ;
}
}
default :
while ( getarg(any_ptyp) != sp_cend ) ;
break ;
}
}
char *segname[] = {
".sect .text", /* SEGTXT */
".sect .data", /* SEGCON */
".sect .rom", /* SEGROM */
".sect .bss" /* SEGBSS */
};