ack/mach/sparc/ce/ce.src/ms_reg.c

551 lines
12 KiB
C
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/* catch register messages. BEWARE: code uses plain printf's (fprint's)
* to generate code. This is not compatible with the usual procedure
* used in the EM_table
*/
#define CODE_EXPANDER
#include <em.h>
#include <em_reg.h>
#include <em_mes.h>
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#include <stb.h>
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#include "mach.h"
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#include "push_pop.h"
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#include <stdio.h>
#define MAX_NR_REGS 12
#define MAX_NR_FLTS MAX_NR_FLT_REGS /* depends on using float or doubles */
#define RM_OFFSET 0
#define RM_SIZE 1
#define RM_TYPE 2
#define RM_COUNT 3
typedef struct reg_info {
int offset;
int size; /* 4 or 8 */
int pri;
reg_t reg, reg2; /* reg2 used for doubles only */
} reg_info;
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static reg_info reg_dat[MAX_NR_REGS], flt_dat[MAX_NR_FLTS];
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static int current_reg_mes[RM_COUNT+4];
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static int in_reg_mes = 0; /* boolean */
static int reg_mes_nr;
static int db_mes = 0;
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static int db_kind = 0;
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static int db_str = 0;
static int db_nul = 0; /* boolean */
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static int worst_reg_pri, worst_flt_pri; /* reset by C_prolog (to some large number) */
static int nr_reg_vars, nr_flt_vars; /* dito (both to 0) */
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init_reg_man()
{
worst_reg_pri = worst_flt_pri = (unsigned)-1/2;
nr_reg_vars = nr_flt_vars = 0;
}
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static reg_t my_alloc_reg(pri,loc)
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int pri, *loc;
{
reg_t S1;
int i;
if ((S1 = alloc_reg_var()) == NULL)
if (current_reg_mes[RM_COUNT] > worst_reg_pri) {
for (i = 0; i < nr_reg_vars; i++)
if (reg_dat[i].pri <= worst_reg_pri) {
*loc = i;
S1 = reg_dat[i].reg;
break;
}
worst_reg_pri = (unsigned)-1/2;
for (i = 0; i < nr_reg_vars; i++)
if (reg_dat[i].pri <= worst_reg_pri)
worst_reg_pri = reg_dat[i].pri;
} else
return NULL; /* SORRY, FULL HOUSE! */
else
*loc = nr_reg_vars++;
return S1;
}
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static reg_t my_alloc_double(pri,loc,r2)
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int pri, *loc;
reg_t *r2;
/* implementation note: my_alloc_double only reclaims other doubles
* when a better candidate is given. It never reclaims floats, even if
* the current double is a mich better candidate.
*/
{
reg_t S1;
int i;
if ((S1 = alloc_double_var(r2)) == NULL)
if (current_reg_mes[RM_COUNT] > worst_flt_pri) {
for (i = 0; i < nr_flt_vars; i++)
if (flt_dat[i].pri <= worst_flt_pri &&
flt_dat[i].size == EM_DSIZE) {
*loc = i;
S1 = flt_dat[i].reg;
*r2 = flt_dat[i].reg2;
break;
}
worst_flt_pri = (unsigned)-1/2;
for (i = 0; i < nr_flt_vars; i++)
if (flt_dat[i].pri < worst_flt_pri)
worst_flt_pri = flt_dat[i].pri;
} else
return NULL; /* SORRY, FULL HOUSE! */
else
*loc = nr_flt_vars++;
return S1;
}
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static reg_t my_alloc_float(pri,loc)
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int pri, *loc;
/* just as for my_alloc_double, my_alloc_float never reclaims a double,
* even though this me be useful and easy. Sorry.
*/
{
reg_t S1;
int i;
if ((S1 = alloc_float_var()) == NULL)
if (current_reg_mes[RM_COUNT] > worst_flt_pri) {
for (i = 0; i < nr_flt_vars; i++)
if (flt_dat[i].pri <= worst_flt_pri &&
flt_dat[i].size == EM_WSIZE) {
*loc = i;
S1 = flt_dat[i].reg;
break;
}
worst_flt_pri = (unsigned)-1/2;
for (i = 0; i < nr_flt_vars; i++)
if (flt_dat[i].pri <= worst_flt_pri)
worst_flt_pri = flt_dat[i].pri;
} else
return NULL; /* SORRY, FULL HOUSE! */
else
*loc = nr_flt_vars++;
return S1;
}
free_all_reg_vars()
{
int i;
for (i = 0; i < nr_reg_vars; i++)
free_reg(reg_dat[i].reg);
for (i = 0; i < nr_flt_vars; i++)
switch (flt_dat[i].size) {
case EM_WSIZE: free_reg(flt_dat[i].reg); break;
case EM_DSIZE: free_double_reg(flt_dat[i].reg); break;
}
check_cache();
}
alloc_all_reg_vars()
{
int i;
for (i = 0; i < nr_reg_vars; i++)
forced_alloc_reg(reg_dat[i].reg);
for (i = 0; i < nr_flt_vars; i++)
switch (flt_dat[i].size) {
case EM_WSIZE: forced_alloc_reg(flt_dat[i].reg); break;
case EM_DSIZE:
forced_alloc_reg(flt_dat[i].reg);
forced_alloc_reg(flt_dat[i].reg2);
break;
}
check_cache();
}
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static params_to_regs() /* copy required parameters to registers */
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{
int i, j;
for (i = 0; i < nr_flt_vars; i++)
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if (flt_dat[i].offset >= 4092) {
fprint(codefile, "set %d, %%l2\n",
flt_dat[i].offset);
fprint(codefile, "ld [%%l1+%%l2], %s\n",
flt_dat[i].reg);
if (flt_dat[i].size == EM_DSIZE) {
fprint(codefile, "set %d, %%l2\n",
flt_dat[i].offset+4);
fprint(codefile, "ld [%%l1+%%l2], %s\n",
flt_dat[i].reg2);
}
}
else if (flt_dat[i].offset > 0)
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{
fprint(codefile, "ld [%%l1+%d], %s\n",
flt_dat[i].offset, flt_dat[i].reg);
if (flt_dat[i].size == EM_DSIZE)
fprint(codefile, "ld [%%l1+%d], %s\n",
flt_dat[i].offset + 4, flt_dat[i].reg2);
}
for (i = 0; i < nr_reg_vars; i++)
if (reg_dat[i].offset >= 4096) {
fprint(codefile, "set %d, %s\n",
reg_dat[i].offset, reg_dat[i].reg);
fprint(codefile, "ld [%%l1+%s], %s\n",
reg_dat[i].reg, reg_dat[i].reg);
}
else if (reg_dat[i].offset > 0)
fprint(codefile, "ld [%%l1+%d], %s\n",
reg_dat[i].offset, reg_dat[i].reg);
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}
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static cmp_flt_dat(e1, e2)
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reg_info *e1, *e2;
{
return (e1->offset - e2->offset);
}
static int even(s)
char *s;
{
int l = strlen(s);
/* Assume ASCII, where even-numbered characters (0,2,4,6,8) are even. */
return ! (s[l-1] & 1);
}
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static save_float_regs()
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{
int i;
int offset;
qsort(flt_dat, nr_flt_vars, sizeof(flt_dat[0]), cmp_flt_dat);
for (i = 0, offset= 0; i < nr_flt_vars; i++, offset += 8)
if ((i+1 < nr_flt_vars &&
flt_dat[i].offset == flt_dat[i+1].offset-4 &&
even(flt_dat[i].reg) &&
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flt_dat[i].size == EM_FSIZE &&
flt_dat[i+1].size == EM_FSIZE)
|| (flt_dat[i].size == EM_DSIZE)) {
fprint(codefile, "std %s, [%%fp + %d]\n",
flt_dat[i].reg, FLTSAV_OFFSET + offset);
if (flt_dat[i].size != EM_DSIZE)
++i;
} else
fprint(codefile, "st %s, [%%fp + %d]\n",
flt_dat[i].reg, FLTSAV_OFFSET + offset);
}
load_float_regs()
{
int i;
int offset;
for (i = 0, offset= 0; i < nr_flt_vars; i++, offset += 8)
if ((i+1 < nr_flt_vars &&
flt_dat[i].offset == flt_dat[i+1].offset-4 &&
even(flt_dat[i].reg) &&
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flt_dat[i].size == EM_FSIZE &&
flt_dat[i+1].size == EM_FSIZE)
|| (flt_dat[i].size == EM_DSIZE)) {
fprint(codefile, "ldd [%%fp + %d], %s\n",
FLTSAV_OFFSET + offset, flt_dat[i].reg);
if (flt_dat[i].size != EM_DSIZE)
++i;
} else
fprint(codefile, "ld [%%fp + %d], %s\n",
FLTSAV_OFFSET + offset, flt_dat[i].reg);
}
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void
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C_mes_begin( ms)
int ms;
{
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#ifdef __solaris__
static int inits;
#endif
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reg_mes_nr = 0;
in_reg_mes = (ms == ms_reg);
if (ms == ms_gto) {
free_all_reg_vars();
nr_reg_vars = 0; nr_flt_vars = 0;
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fprint(codefile, "ta 3\n");
}
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db_mes = (ms == ms_stb || ms == ms_std) ? ms : 0;
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#ifdef __solaris__
if (db_mes && ! inits) {
fprint(codefile, ".pushsection \".text\"\nBtext.text:\n.popsection\n");
fprint(codefile, ".pushsection \".data\"\nBdata.data:\n.popsection\n");
fprint(codefile, ".pushsection \".bss\"\nBbss.bss:\n.popsection\n");
inits = 1;
}
#endif
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}
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static dump_reg_tabs();
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#ifdef __solaris__
extern char *B_procnam;
#endif
void
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C_mes_end()
{
int pos;
reg_t S1, S2;
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if (db_mes) {
db_nul = 0;
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#ifdef __solaris__
if (db_mes == ms_std) {
if (db_str == 2) {
fprint(codefile, ",1f\n1:\n");
}
else {
fprint(codefile, ",1f-%s\n1:\n", B_procnam);
}
}
#else
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if (db_mes == ms_std && db_str == 2) fprint(codefile,",1f\n1:\n");
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#endif
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else fprint(codefile, "\n");
db_str = 0;
db_mes = 0;
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db_kind = 0;
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}
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if (!in_reg_mes) /* end of some other mes */
return;
if (reg_mes_nr == 0) { /* end of reg_mes's */
save_float_regs();
params_to_regs();
if (debug)
dump_reg_tabs(codefile);
return;
}
if (current_reg_mes[RM_COUNT] == 0) /* never used, so ignore */
return;
if (current_reg_mes[RM_OFFSET] >= 0)
current_reg_mes[RM_OFFSET] += EM_BSIZE;
if (debug)
fprint(codefile, "\t\t! Got reg_mes: %d %d %d %d\n",
current_reg_mes[0], current_reg_mes[1],
current_reg_mes[2], current_reg_mes[3]);
if (current_reg_mes[RM_TYPE] == reg_float) {
switch(current_reg_mes[RM_SIZE]) {
case EM_WSIZE :
if ((S1 = my_alloc_float(current_reg_mes[RM_COUNT], &pos))
== NULL)
return;
break;
case EM_DSIZE:
if ((S1 = my_alloc_double(current_reg_mes[RM_COUNT], &pos, &S2))
== NULL)
return;
flt_dat[pos].reg2 = S2;
default: break;
}
flt_dat[pos].offset = current_reg_mes[RM_OFFSET];
flt_dat[pos].size = current_reg_mes[RM_SIZE];
flt_dat[pos].pri = current_reg_mes[RM_COUNT];
flt_dat[pos].reg = S1;
} else {
if (current_reg_mes[RM_SIZE] != EM_WSIZE)
return; /* IGNORE THESE */
if ((S1 = my_alloc_reg(current_reg_mes[RM_COUNT], &pos)) == NULL)
return; /* SORRY, FULL HOUSE! */
reg_dat[pos].offset = current_reg_mes[RM_OFFSET];
reg_dat[pos].size = current_reg_mes[RM_SIZE];
reg_dat[pos].pri = current_reg_mes[RM_COUNT];
reg_dat[pos].reg = S1;
}
}
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extern int __gdb_flag;
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void
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C_cst( l)
arith l;
{
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static int correct_offset;
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if (db_mes) {
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if (! db_kind) db_kind = l;
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if (! db_str) {
switchseg( SEGTXT);
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if (l == N_SLINE && ! __gdb_flag) {
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flush_cache();
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#ifdef __solaris__
fprint(codefile, "call $__uX_LiB\nnop\n");
#else
fprint(codefile, "call ___uX_LiB\nnop\n");
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#endif
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}
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#ifdef __solaris__
fprint(codefile, ".stabn 0x%lx,0", (long) l);
#else
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if (db_mes == ms_std) {
fprint(codefile, ".stabd 0x%lx,0", (long) l);
}
else fprint(codefile, ".stabn 0x%lx,0", (long) l);
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#endif
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db_str = 1;
db_nul = 1;
}
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else {
if (correct_offset++ == -1) {
l += EM_BSIZE;
}
fprint(codefile, ",0x%lx", (long) l);
}
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if (! db_nul) {
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correct_offset = 0;
if (l == N_PSYM && __gdb_flag) {
correct_offset = -2;
}
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fprint(codefile, ",0");
db_nul = 1;
}
}
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if (in_reg_mes)
current_reg_mes[reg_mes_nr++] = l;
}
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void
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C_scon(s, l)
register char *s;
register arith l;
{
if (db_mes) {
fprint(codefile, ".stabs \"");
while (--l) {
register int c = *s++;
if (isprint(c) && c != '"' && c != '\\')
fprint(codefile, "%c", c);
else
fprint(codefile, "\\%03o", c);
}
fprint(codefile, "\"");
db_str = 2;
}
}
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void
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C_dlb(l, off)
label l;
arith off;
{
if (db_mes) {
fprint(codefile,",");
fprint(codefile, DLB_FMT, (long) l);
if (off) fprint(codefile,"+%ld", (long) off);
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#ifdef __solaris__
switch(db_kind) {
case N_LCSYM:
fprint(codefile, "-Bbss.bss");
break;
case N_STSYM:
fprint(codefile, "-Bdata.data");
break;
}
#endif
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}
}
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void
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C_dnam(l, off)
char *l;
arith off;
{
if (db_mes) {
fprint(codefile,",");
fprint(codefile, DNAM_FMT, l);
if (off) fprint(codefile,"+%ld", (long) off);
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#ifdef __solaris__
switch(db_kind) {
case N_LCSYM:
fprint(codefile, "-Bbss.bss");
break;
case N_STSYM:
fprint(codefile, "-Bdata.data");
break;
}
#endif
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}
}
extern int B_procno;
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void
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C_ilb(l)
label l;
{
if (db_mes) {
fprint(codefile,",");
fprint(codefile, ILB_FMT, B_procno, (long)l);
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#ifdef __solaris__
fprint(codefile, "-Btext.text");
#endif
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}
}
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void
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C_pnam(s)
char *s;
{
if (db_mes) {
fprint(codefile,",");
fprint(codefile, NAME_FMT, s);
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#ifdef __solaris__
fprint(codefile, "-Btext.text");
#endif
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}
}
static
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dump_reg_tabs(stream)
FILE *stream;
{
int i;
fprint(stream, "!offset\tsize\tname (%d regvars)\n", nr_reg_vars);
for (i = 0; i < nr_reg_vars; i++)
fprint(stream, "! %d\t%d\t%s\n", reg_dat[i].offset, reg_dat[i].size,
reg_dat[i].reg);
fprint(stream, "!offset\tsize\tname (%d fltvars)\n", nr_flt_vars);
for (i = 0; i < nr_flt_vars; i++)
fprint(stream, "! %d\t%d\t%s\n", flt_dat[i].offset, flt_dat[i].size,
flt_dat[i].reg);
}
reg_t find_local(offset, reg2) /* WARNING: no size checking here! */
int offset;
reg_t *reg2;
{
int i;
if (reg2)
*reg2 = NULL;
for (i = 0; i < nr_reg_vars; i++)
if (reg_dat[i].offset == offset)
return reg_dat[i].reg;
for (i = 0; i < nr_flt_vars; i++)
if (flt_dat[i].offset == offset) {
if (flt_dat[i].size == EM_DSIZE)
if (reg2)
*reg2 = flt_dat[i].reg2;
return flt_dat[i].reg;
}
return NULL;
}