1987-03-10 11:49:39 +00:00
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/* $Header$ */
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1987-03-09 19:15:41 +00:00
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/*
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* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
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* See the copyright notice in the ACK home directory, in the file "Copyright".
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*/
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1984-11-26 14:35:32 +00:00
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/* R E G I S T E R A L L O C A T I O N
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*
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* R A _ A L L O C L I S T . C
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*/
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1991-03-05 12:44:05 +00:00
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#include <em_mnem.h>
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#include <em_spec.h>
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#include <em_pseu.h>
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#include <em_reg.h>
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1984-11-26 14:35:32 +00:00
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#include "../share/types.h"
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#include "../share/debug.h"
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#include "../share/def.h"
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#include "../share/global.h"
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#include "../share/lset.h"
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#include "../share/cset.h"
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#include "../share/aux.h"
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#include "../share/alloc.h"
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#include "../share/map.h"
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#include "ra.h"
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#include "ra_aux.h"
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#include "ra_items.h"
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#include "ra_allocl.h"
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#include "ra_interv.h"
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STATIC count_usage(p,item,nrloops,sloopcnt,dloopcnt)
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proc_p p;
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item_p item;
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short nrloops, sloopcnt[], dloopcnt[];
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{
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/* Determine how many times the item is used in every loop.
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* We maintain a 'static' count and a 'dynamic' count. The dynamic
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* count estimates the number of times the item is used during
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* execution, i.e. it gives a higher mark to items used inside
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* a loop.
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*/
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lset loops;
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loop_p l;
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int i;
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short lev;
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Lindex ui,li;
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time_p u;
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for (i = 0; i <= nrloops; i++) {
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sloopcnt[i] = 0;
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dloopcnt[i] = 0;
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}
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for (ui = Lfirst(item->it_usage); ui != (Lindex) 0;
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ui = Lnext(ui,item->it_usage)) {
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u = (time_p) Lelem(ui);
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loops = u->t_bblock->b_loops;
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lev = Lnrelems(loops);
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/* set of loops in which this usage of item occurs */
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for (li = Lfirst(loops); li != (Lindex) 0; li=Lnext(li,loops)) {
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l = (loop_p) Lelem(li);
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sloopcnt[l->lp_id]++;
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1990-12-18 11:14:34 +00:00
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dloopcnt[l->lp_id] +=
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1984-11-26 14:35:32 +00:00
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(IS_FIRM(u->t_bblock) ? loop_scale(lev) : 1);
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}
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}
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}
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STATIC alloc_p cons_alloc(item,timespan,stat_usecount,
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dyn_usecount,inits,wholeproc,isloop,iswholeproc)
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item_p item;
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interv_p timespan;
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short stat_usecount,dyn_usecount;
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lset inits;
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alloc_p wholeproc;
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bool isloop,iswholeproc;
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{
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alloc_p x;
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x = newalloc();
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x->al_id = ++alloc_id;
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x->al_item = item;
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x->al_timespan = timespan;
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x->al_susecount = stat_usecount;
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x->al_dusecount = dyn_usecount;
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x->al_inits = inits;
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x->al_wholeproc = wholeproc;
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x->al_isloop = isloop;
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x->al_iswholeproc = iswholeproc;
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return x;
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}
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STATIC insert_alloc(alloc,list_p)
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alloc_p alloc, *list_p;
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{
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alloc->al_next = *list_p;
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*list_p = alloc;
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}
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#define MUST_INIT(i,b) (i->it_type!=LOCALVAR ||contains(b->B_BEGIN,i->it_lives))
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#define MUST_UPDATE(i,b) (i->it_type==LOCALVAR &&contains(b->B_BEGIN,i->it_lives))
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STATIC lset loop_inits(lp,item,header)
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loop_p lp;
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item_p item;
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bblock_p header;
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{
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/* Build the set of entry points to loop lp where item
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* must be initialized
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*/
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lset s = Lempty_set();
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if (header != (bblock_p) 0 && MUST_INIT(item,header)) {
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Ladd(header,&s);
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}
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return s;
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}
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#define IN_LOOP(b) (Lnrelems(b->b_loops) > 0)
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STATIC bblock_p init_point(item)
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item_p item;
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{
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/* Find the most appropriate point to initialize any register
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* containing the item. We want to do the initialization as
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* late as possible, to allow other items to be put in the
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* same register, before this initialization. Yet, as we want
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* to do the initialization only once, it must be done in a
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* basic block that is a dominator of all points where the
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* item is used (ultimately in the first block of the procedure).
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* This basic block should not be part of loop.
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*/
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bblock_p b,dom = 0;
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Lindex ti;
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time_p t;
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for (ti = Lfirst(item->it_usage); ti != (Lindex) 0;
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ti = Lnext(ti,item->it_usage)) {
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t = (time_p) Lelem(ti);
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b = t->t_bblock;
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dom = (dom == (bblock_p) 0 ? b : common_dom(dom,b));
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}
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while (IN_LOOP(dom)) {
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/* Find a dominator of dom (possibly
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* dom itself) that is outside any loop.
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*/
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dom = dom->b_idom;
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}
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return dom;
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}
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STATIC add_blocks(b,s,span)
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bblock_p b;
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cset *s;
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interv_p *span;
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{
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Lindex pi;
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if (!Cis_elem(b->b_id,*s)) {
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Cadd(b->b_id,s);
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add_interval(b->B_BEGIN,b->B_END,span);
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for (pi = Lfirst(b->b_pred); pi != (Lindex) 0;
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pi = Lnext(pi,b->b_pred)) {
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add_blocks((bblock_p) Lelem(pi),s,span);
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}
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}
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}
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STATIC whole_lifetime(item,ini_out,span_out)
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item_p item;
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bblock_p *ini_out;
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interv_p *span_out;
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{
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/* Find the initialization point and the time_span of the item, if
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* we put the item in a register during all its uses.
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*/
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bblock_p b, ini = init_point(item);
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cset s = Cempty_set(blength);
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Lindex ti;
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time_p t;
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interv_p span = (interv_p) 0;
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for (ti = Lfirst(item->it_usage); ti != (Lindex) 0;
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ti = Lnext(ti,item->it_usage)) {
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t = (time_p) Lelem(ti);
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b = t->t_bblock;
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add_blocks(b,&s,&span);
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}
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if (!Cis_elem(ini->b_id,s)) {
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add_interval(ini->B_BEGIN,ini->B_END,&span);
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}
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Cdeleteset(s);
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*ini_out = ini;
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*span_out = span;
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}
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STATIC lset proc_inits(p,item,ini)
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proc_p p;
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item_p item;
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bblock_p ini;
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{
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lset s = Lempty_set();
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if (item->it_type != LOCALVAR || item->i_t.it_off >= 0) {
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/* only local variables need not be initialized */
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Ladd(ini, &s);
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}
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return s;
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}
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STATIC bool updates_needed(lp,item)
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loop_p lp;
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item_p item;
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{
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/* See if the value of item is live after the loop has
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* been exited, i.e. must the item be updated after the loop?
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*/
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Lindex bi,si;
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bblock_p b,s;
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for (bi = Lfirst(lp->LP_BLOCKS); bi != (Lindex) 0;
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bi = Lnext(bi,lp->LP_BLOCKS)) {
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b = (bblock_p) Lelem(bi);
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for (si = Lfirst(b->b_succ); si != (Lindex) 0;
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si = Lnext(si,b->b_succ)) {
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s = (bblock_p) Lelem(si);
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if (!Lis_elem(s,lp->LP_BLOCKS) && MUST_UPDATE(item,s)) {
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return TRUE;
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}
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}
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}
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return FALSE;
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}
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STATIC short countuses(usage,b)
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lset usage;
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bblock_p b;
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{
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short cnt = 0;
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Lindex ti;
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time_p t;
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for (ti = Lfirst(usage); ti != (Lindex) 0; ti = Lnext(ti,usage)) {
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t = (time_p) Lelem(ti);
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if (t->t_bblock == b) cnt++;
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}
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return cnt;
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}
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STATIC allocs_of_item(p,item,loops,sloopcnt,dloopcnt,alloc_list_p)
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proc_p p;
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item_p item;
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lset loops;
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short *sloopcnt,*dloopcnt; /* dynamic arrays */
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alloc_p *alloc_list_p;
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{
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register Lindex li;
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loop_p lp;
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bblock_p header,ini;
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short susecount,dusecount;
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interv_p lt;
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alloc_p wholeproc;
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/* The whole procedure may be used as timespan.
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The dynamic usecount of a procedure is taken to be the same
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as its static usecount; this number is not very important, as
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time-optimziation chooses loops first.
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*/
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whole_lifetime(item,&ini,<);
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wholeproc = cons_alloc(item,lt,Lnrelems(item->it_usage),
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Lnrelems(item->it_usage), proc_inits(p,item,ini),
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(alloc_p) 0,FALSE,TRUE);
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insert_alloc(wholeproc, alloc_list_p);
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for (li = Lfirst(loops); li != (Lindex) 0; li = Lnext(li,loops)) {
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lp = (loop_p) Lelem(li);
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1990-12-18 11:14:34 +00:00
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if (sloopcnt[lp->lp_id] != 0 && !updates_needed(lp,item)
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&& !((header = lp->LP_HEADER) == (bblock_p) 0 &&
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MUST_INIT(item,lp->lp_entry))) {
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1984-11-26 14:35:32 +00:00
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/* Item is used within loop, so consider loop
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* as a timespan during which item may be put in
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* a register.
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if ((header = lp->LP_HEADER) == (bblock_p) 0 &&
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MUST_INIT(item,lp->lp_entry)) continue;
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1990-12-18 11:14:34 +00:00
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*/
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1984-11-26 14:35:32 +00:00
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lt = loop_lifetime(lp);
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susecount = sloopcnt[lp->lp_id];
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dusecount = dloopcnt[lp->lp_id];
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if (MUST_INIT(item,lp->lp_entry)) {
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/* include header block in timespan */
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add_interval(header->B_BEGIN,header->B_END,<);
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susecount += countuses(item->it_usage,header);
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} else {
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header = (bblock_p) 0;
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}
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insert_alloc(cons_alloc(item,lt,susecount,dusecount,
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loop_inits(lp,item,header),wholeproc,
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TRUE,FALSE),
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alloc_list_p);
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1990-12-18 11:14:34 +00:00
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} else if (sloopcnt[lp->lp_id] != 0) {
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/* I confess: this is a hack. I didn't expect the
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* Spanish inquisition.
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*/
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if (wholeproc->al_dusecount < dloopcnt[lp->lp_id])
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wholeproc->al_dusecount = dloopcnt[lp->lp_id];
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1984-11-26 14:35:32 +00:00
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}
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}
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}
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alloc_p build_alloc_list(p,nrloops,itemlist)
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proc_p p;
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short nrloops;
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item_p itemlist;
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{
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short *sloopcnt,*dloopcnt; /* dynamic arrays */
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register item_p item;
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alloc_p alloc_list = (alloc_p) 0;
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sloopcnt = (short *) newtable(nrloops);
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dloopcnt = (short *) newtable(nrloops);
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for (item = itemlist; item != (item_p) 0; item = item->it_next) {
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count_usage(p,item,nrloops,sloopcnt,dloopcnt);
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allocs_of_item(p,item,p->p_loops,sloopcnt,dloopcnt,
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&alloc_list);
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}
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oldtable(sloopcnt,nrloops);
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oldtable(dloopcnt,nrloops);
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return alloc_list;
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}
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build_rivals_graph(alloclist)
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alloc_p alloclist;
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{
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/* See which allocations in the list are rivals of each other,
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* i.e. there is some point of time, falling in both
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* timespans, at which the items of both allocations are live.
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* Allocations with the same item (but different timespans) are
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* not considered to be rivals.
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* We use an auxiliary data structure "busy" for each allocation,
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* indicating when the item is live during the timespan of the
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* allocation.
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|
|
*/
|
|
|
|
|
|
|
|
register alloc_p alloc,x;
|
|
|
|
|
|
|
|
for (alloc = alloclist; alloc != (alloc_p) 0; alloc = alloc->al_next) {
|
|
|
|
alloc->al_rivals = Cempty_set(alloc_id);
|
|
|
|
}
|
|
|
|
for (alloc = alloclist; alloc != (alloc_p) 0; alloc = alloc->al_next) {
|
|
|
|
alloc->al_busy =
|
|
|
|
(alloc->al_item->it_type == LOCALVAR ?
|
|
|
|
intersect(alloc->al_timespan,alloc->al_item->it_lives) :
|
|
|
|
copy_timespan(alloc->al_timespan));
|
|
|
|
for (x = alloclist; x != alloc; x = x->al_next) {
|
|
|
|
if (x->al_item != alloc->al_item &&
|
|
|
|
not_disjoint(alloc->al_busy,x->al_busy)) {
|
|
|
|
Cadd(x->al_id,&alloc->al_rivals);
|
|
|
|
Cadd(alloc->al_id,&x->al_rivals);
|
|
|
|
if (alloc->al_regtype == x->al_regtype) {
|
|
|
|
alloc->al_cntrivals++;
|
|
|
|
x->al_cntrivals++;
|
|
|
|
}
|
|
|
|
}
|
|
|
|
}
|
|
|
|
}
|
|
|
|
}
|