ack/util/ego/ra/ra.c
1987-03-09 19:15:41 +00:00

553 lines
11 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".
*/
/*
* R E G I S T E R A L L O C A T I O N
*
*/
#include <stdio.h>
#include "../share/types.h"
#include "../share/debug.h"
#include "../share/global.h"
#include "../share/files.h"
#include "../share/get.h"
#include "../share/put.h"
#include "../share/lset.h"
#include "../share/map.h"
#include "../share/alloc.h"
#include "../share/go.h"
#include "../../../h/em_reg.h"
#include "ra.h"
#include "ra_items.h"
#include "ra_allocl.h"
#include "ra_profits.h"
#include "ra_pack.h"
#include "ra_xform.h"
#define newrabx() (bext_p) newstruct(bext_ra)
#define newralpx() (lpext_p) newstruct(lpext_ra)
#define oldrabx(x) oldstruct(bext_ra,x)
#define oldralpx(x) oldstruct(lpext_ra,x)
short alloc_id;
static item_p items[NRITEMTYPES];
int nrinstrs;
line_p *instrmap;
cond_p alocaltab[NRREGTYPES][NRREGTYPES],alocaddrtab[NRREGTYPES][NRREGTYPES],
aconsttab,adconsttab,aglobaltab,aproctab;
cond_p olocaltab[NRREGTYPES],olocaddrtab[NRREGTYPES],
oconsttab,odconsttab,oglobaltab,oproctab;
cond_p regsav_cost;
short regs_available[] = {
/* Actually machine dependent; this is for vax2 */
3, /* reg_any i.e. data regs */
0, /* reg_loop */
3, /* reg_pointer i.e. address reg. */
0 /* reg_float */
} ;
STATIC cond_p getcondtab(f)
FILE *f;
{
int l,i;
cond_p tab;
fscanf(f,"%d",&l);
tab = newcondtab(l);
for (i = 0; i < l; i++) {
fscanf(f,"%hd %hd %hd",&tab[i].mc_cond,&tab[i].mc_tval,
&tab[i].mc_sval);
}
assert(tab[l-1].mc_cond == DEFAULT);
return tab;
}
get_atab(f,tab)
FILE *f;
cond_p tab[NRREGTYPES][NRREGTYPES];
{
int i,cnt,totyp,regtyp;
fscanf(f,"%d",&cnt);
for (i = 0; i < cnt; i++) {
fscanf(f,"%d %d",&regtyp,&totyp);
assert(regtyp >= 0 && regtyp < NRREGTYPES);
assert(totyp >= 0 && totyp < NRREGTYPES);
tab[regtyp][totyp] = getcondtab(f);
}
}
get_otab(f,tab)
FILE *f;
cond_p tab[NRREGTYPES];
{
int i,cnt,regtyp;
fscanf(f,"%d",&cnt);
for (i = 0; i < cnt; i++) {
fscanf(f,"%d",&regtyp);
assert(regtyp >= 0 && regtyp < NRREGTYPES);
tab[regtyp] = getcondtab(f);
}
}
STATIC ra_machinit(f)
FILE *f;
{
/* Read target machine dependent information for this phase */
char s[100];
for (;;) {
while(getc(f) != '\n');
fscanf(f,"%s",s);
if (strcmp(s,"%%RA") == 0)break;
}
fscanf(f,"%hd",&regs_available[reg_any]);
fscanf(f,"%hd",&regs_available[reg_pointer]);
fscanf(f,"%hd",&regs_available[reg_float]);
get_atab(f,alocaltab);
get_atab(f,alocaddrtab);
aconsttab = getcondtab(f);
adconsttab = getcondtab(f);
aglobaltab = getcondtab(f);
aproctab = getcondtab(f);
get_otab(f,olocaltab);
get_otab(f,olocaddrtab);
oconsttab = getcondtab(f);
odconsttab = getcondtab(f);
oglobaltab = getcondtab(f);
oproctab = getcondtab(f);
regsav_cost = getcondtab(f);
}
STATIC bblock_p header(lp)
loop_p lp;
{
/* Try to determine the 'header' block of loop lp.
* If 'e' is the entry block of loop L, then block 'b' is
* called the header block of L, iff:
* SUCC(b) = {e} & PRED(e) = {b}
* If lp has no header block, 0 is returned.
*/
bblock_p x = lp->lp_entry->b_idom;
if (x != (bblock_p) 0 && Lnrelems(x->b_succ) == 1 &&
(bblock_p) Lelem(Lfirst(x->b_succ)) == lp->lp_entry) {
return x;
}
return (bblock_p) 0;
}
STATIC ra_extproc(p)
proc_p p;
{
/* Allocate the extended data structures for procedure p */
register loop_p lp;
register Lindex pi;
register bblock_p b;
for (pi = Lfirst(p->p_loops); pi != (Lindex) 0;
pi = Lnext(pi,p->p_loops)) {
lp = (loop_p) Lelem(pi);
lp->lp_extend = newralpx();
lp->LP_HEADER = header(lp);
}
for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
b->b_extend = newrabx();
}
}
STATIC ra_cleanproc(p)
proc_p p;
{
/* Allocate the extended data structures for procedure p */
register loop_p lp;
register Lindex pi;
register bblock_p b;
for (pi = Lfirst(p->p_loops); pi != (Lindex) 0;
pi = Lnext(pi,p->p_loops)) {
lp = (loop_p) Lelem(pi);
oldralpx(lp->lp_extend);
}
for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
oldrabx(b->b_extend);
}
}
STATIC loop_blocks(p)
proc_p p;
{
/* Compute the LP_BLOCKS sets for all loops of p */
register bblock_p b;
register Lindex i;
for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
for (i = Lfirst(b->b_loops); i != (Lindex) 0;
i = Lnext(i,b->b_loops)) {
Ladd(b,&(((loop_p) Lelem(i))->LP_BLOCKS));
}
}
}
STATIC make_instrmap(p,map)
proc_p p;
line_p map[];
{
/* make the instructions map of procedure p */
register bblock_p b;
register line_p l;
register int i = 0;
for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
b->B_BEGIN = i; /* number of first instruction */
for (l = b->b_start; l != (line_p) 0; l = l->l_next) {
map[i++] = l;
}
b->B_END = i-1; /* number of last instruction */
}
}
STATIC bool useful_item(item)
item_p item;
{
/* See if it may be useful to put the item in a register.
* A local variable that is not a parameter may always be put
* in a register (as it need not be initialized).
* Other items must be used at least twice.
*/
int nruses = Lnrelems(item->it_usage);
assert (nruses > 0); /* otherwise it would not be an item! */
return nruses > 1 || (item->it_type == LOCALVAR &&
item->i_t.it_off < 0);
}
STATIC item_p cat_items(items)
item_p items[];
{
/* Make one item list out of an array of itemlists.
* Remove items that are used only once.
*/
register item_p it;
item_p *ip,head,next;
int t;
ip = &head;
for (t = 0; t < NRITEMTYPES;t++) {
for ( it = items[t]; it != (item_p) 0; it = next) {
next = it->it_next;
if (!it->it_desirable || !useful_item(it)) {
cleantimeset(it->it_usage);
olditem(it);
} else {
*ip = it;
ip = &it->it_next;
}
}
}
*ip = (item_p) 0;
return head;
}
STATIC clean_interval(list)
interv_p list;
{
register interv_p x,next;
for (x = list; x != (interv_p) 0; x = next) {
next = x->i_next;
oldinterval(x);
}
}
STATIC cleantimeset(s)
lset s;
{
register Lindex i;
register time_p t;
for (i = Lfirst(s); i != (Lindex) 0; i = Lnext(i,s)) {
t = (time_p) Lelem(i);
oldtime(t);
}
Ldeleteset(s);
}
STATIC clean_allocs(list)
alloc_p list;
{
register alloc_p x,next;
for (x = list; x != (alloc_p) 0; x = next) {
next = x->al_next;
clean_interval(x->al_timespan);
Cdeleteset(x->al_rivals);
Ldeleteset(x->al_inits);
clean_interval(x->al_busy);
clean_allocs(x->al_mates);
oldalloc(x);
}
}
STATIC cleanitems(list)
item_p list;
{
register item_p x,next;
for (x = list; x != (item_p) 0; x = next ) {
next = x->it_next;
cleantimeset(x->it_usage);
olditem(x);
}
}
ra_initialize()
{
init_replacements(ps,ws);
}
ra_optimize(p)
proc_p p;
{
item_p itemlist;
alloc_p alloclist,packed,unpacked;
offset locls;
bool time_opt = (time_space_ratio == 100);
ra_extproc(p);
loop_blocks(p);
alloc_id =0;
locls = p->p_localbytes;
build_itemlist(p,items,&nrinstrs);
instrmap = (line_p *) newmap(nrinstrs-1); /* map starts counting at 0 */
make_instrmap(p,instrmap);
build_lifetimes(items);
/* print_items(items,p); */
/* statistics(items); */
itemlist = cat_items(items); /* make one list */
alloclist = build_alloc_list(p,Lnrelems(p->p_loops),
itemlist);
build_rivals_graph(alloclist);
compute_profits(alloclist,time_opt);
/* print_allocs(alloclist); */
pack(alloclist,time_opt,&packed,&unpacked,p);
stat_regusage(packed);
xform_proc(p,packed,nrinstrs,instrmap);
/* print_allocs(packed); */
p->p_localbytes = locls;
/* don't really allocate dummy local variables! */
rem_locals(p,packed);
rem_formals(p,packed);
/* remove storage for real locals that
*are always put in register .
*/
clean_allocs(unpacked);
clean_allocs(packed);
cleanitems(itemlist);
oldmap(instrmap,nrinstrs-1);
ra_cleanproc(p);
}
main(argc,argv)
int argc;
char *argv[];
{
go(argc,argv,ra_initialize,ra_optimize,ra_machinit,no_action);
exit(0);
}
/***************************************************************************/
/***************************************************************************/
/***************************************************************************/
/* debugging stuff */
char *str_types[] = {
"local variable",
"addr. of local",
"addr. of external",
"addr. of procedure",
"constant",
"double constant"
};
char *str_regtypes[] = {
"any",
"loop",
"pointer",
"float"
};
print_items(items,p)
item_p items[];
proc_p p;
{
int t;
item_p item;
interv_p iv;
printf("BEGIN PROCEDURE %d\n",p->p_id);
for (t = 0; t < NRITEMTYPES;t++) {
for (item = items[t]; item != (item_p) 0;item = item->it_next) {
printf("\nitemtype = %s\n",str_types[t]);
if (t == GLOBL_ADDR) {
printf("id of external = %d\n",
item->i_t.it_obj->o_id);
} else {
printf("offset = %ld\n",
item->i_t.it_off);
}
printf("regtype = %s\n",str_regtypes[item->it_regtype]);
printf("size = %d\n",item->it_size);
printf("#usages = %d\n", Lnrelems(item->it_usage));
printf("lifetime = {");
for (iv = item->it_lives; iv != (interv_p) 0;
iv = iv->i_next) {
printf("(%d,%d) ",iv->i_start,iv->i_stop);
}
printf("} \n");
}
}
printf("END PROCEDURE %d\n\n",p->p_id);
}
print_allocs(list)
alloc_p list;
{
alloc_p al,m;
item_p item;
short t;
interv_p iv;
fprintf(stderr,"BEGIN ALLOCLIST of proc %d\n",curproc->p_id);
for (m = list ; m != (alloc_p) 0; m = m->al_next) {
for (al = m; al != (alloc_p) 0; al = al->al_mates) {
item = al->al_item;
t = item->it_type;
fprintf(stderr,"\nitem: [type = %s, ",str_types[t]);
switch(t) {
case GLOBL_ADDR:
fprintf(stderr,"id = %d]\n", item->i_t.it_obj->o_id);
break;
case PROC_ADDR:
fprintf(stderr,"id = %d]\n", item->i_t.it_proc->p_id);
break;
default:
fprintf(stderr,"offset = %ld]\n", item->i_t.it_off);
}
fprintf(stderr,"#usages(static) = %d\n",al->al_susecount);
fprintf(stderr,"#usages(dyn) = %d\n",al->al_dusecount);
fprintf(stderr,"#inits = %d\n",Lnrelems(al->al_inits));
fprintf(stderr,"timespan = {");
for (iv = al->al_timespan; iv != (interv_p) 0;
iv = iv->i_next) {
fprintf(stderr,"(%d,%d) ",iv->i_start,iv->i_stop);
}
fprintf(stderr,"} \n");
fprintf(stderr,"busy = {");
for (iv = al->al_busy; iv != (interv_p) 0;
iv = iv->i_next) {
fprintf(stderr,"(%d,%d) ",iv->i_start,iv->i_stop);
}
fprintf(stderr,"} \n");
fprintf(stderr,"profits = %d\n",al->al_profits);
fprintf(stderr,"dummy local = %ld\n",al->al_dummy);
fprintf(stderr,"regnr = %d\n",al->al_regnr);
}
}
}
short regs_needed[4];
stat_regusage(list)
alloc_p list;
{
int i;
alloc_p x;
for (i = 0; i < 4; i++) {
regs_needed[i] = 0;
}
for (x = list; x != (alloc_p) 0; x = x->al_next) {
regs_needed[x->al_regtype]++;
}
/* printf("data regs:%d\n",regs_needed[reg_any]); */
/* printf("address regs:%d\n",regs_needed[reg_pointer]); */
}
int cnt_regtypes[reg_float+1];
statistics(items)
item_p items[];
{
register item_p item,next;
int t,r;
int cnt;
printf("\nSTATISTICS\n");
for (r = 0; r <= reg_float; r++) cnt_regtypes[r] = 0;
for (t = 0; t < NRITEMTYPES;t++) {
cnt = 0;
for (item = items[t]; item != (item_p) 0;item = next) {
if (useful_item(item)) {
cnt++;
cnt_regtypes[item->it_regtype]++;
}
next = item->it_next;
}
printf("#%s = %d\n",str_types[t],cnt);
}
for (r = 0; r <= reg_float; r++) {
printf("#%s = %d\n",str_regtypes[r],cnt_regtypes[r]);
}
}