ack/util/ego/ra/ra_interv.c

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/* $Id$ */
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/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*/
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/* R E G I S T E R A L L O C A T I O N
*
* R A _ I N T E R V A L . C
*/
#include <stdlib.h>
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#include <em_reg.h>
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#include "../share/types.h"
#include "../share/debug.h"
#include "../share/global.h"
#include "../share/alloc.h"
#include "../share/lset.h"
#include "ra.h"
#include "ra_interv.h"
interv_p cons_interval(short t_start, short t_stop)
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{
interv_p x;
x = newinterval();
x->i_start = t_start;
x->i_stop = t_stop;
return x;
}
void add_interval(short t1, short t2, interv_p *list)
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{
/* Add interval (t1,t2) to the list of intervals (which is
* an in-out parameter!). The list is sorted in 'chronological'
* order. We attempt to keep the list as small as possible, by
* putting adjacent intervals in one interval.
*/
register interv_p x1, x2, *q;
int adjacent = 0;
interv_p x;
q = list;
x1 = (interv_p) 0;
for (x2 = *list; x2 != (interv_p) 0; x2 = x2->i_next) {
if (t2 < x2->i_start) break;
x1 = x2;
q = &x2->i_next;
}
/* Now interval (t1,t2) should be inserted somewhere in between
* x1 and x2.
*/
if (x1 != (interv_p) 0 && t1 == x1->i_stop + 1) {
/* join x1 and (t1,t2) */
x1->i_stop = t2;
adjacent++;
}
if (x2 != (interv_p) 0 && t2 + 1 == x2->i_start) {
/* join (t1,t2) and x2 */
x2->i_start = t1;
adjacent++;
}
if (adjacent == 0) {
/* no adjacents, allocate a new intervalfor (t1,t2) */
x = cons_interval(t1,t2);
x->i_next = x2;
*q = x;
} else {
if (adjacent == 2) {
/* x1, (t1,t2) and x2 can be put in one interval */
x1->i_stop = x2->i_stop;
x1->i_next = x2->i_next;
oldinterval(x2);
}
}
}
interv_p loop_lifetime(lp)
loop_p lp;
{
/* Determine the timespan of the loop, expressed as a list
* of intervals.
*/
interv_p lt = 0;
register bblock_p b;
register Lindex bi;
for (bi = Lfirst(lp->LP_BLOCKS); bi != (Lindex) 0;
bi = Lnext(bi,lp->LP_BLOCKS)) {
b = (bblock_p) Lelem(bi);
add_interval(b->B_BEGIN,b->B_END,&lt);
}
return lt;
}
interv_p proc_lifetime(p)
proc_p p;
{
/* Determine the lifetime of an entire procedure */
register bblock_p b;
for (b = p->p_start; b->b_next != (bblock_p) 0; b = b->b_next) ;
return cons_interval(0,b->B_END);
}
STATIC void set_min_max(iv1,iv2)
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interv_p *iv1,*iv2;
{
/* Auxiliary routine of intersect */
interv_p i1 = *iv1, i2 = *iv2;
if (i1->i_start < i2->i_start) {
*iv1 = i1;
*iv2 = i2;
} else {
*iv1 = i2;
*iv2 = i1;
}
}
interv_p intersect(list1,list2)
interv_p list1,list2;
{
/* Intersect two lifetimes, each denoted by a list of intervals.
* We maintain two pointers, pmin and pmax, pointing to the
* next interval of each list. At any time, pmin points to the
* interval of which i_start is lowest; pmax points to the
* other interval (i.e. the next interval of the other list).
*/
interv_p lt = 0;
interv_p pmin,pmax;
#define BUMP(p) p = p->i_next
#define EMIT(t1,t2) add_interval(t1,t2,&lt)
pmin = list1;
pmax = list2;
while (pmin != (interv_p) 0 && pmax != (interv_p) 0) {
set_min_max(&pmin,&pmax);
if (pmax->i_start > pmin->i_stop) {
/* e.g. (5,7) and (9,13) */
BUMP(pmin);
} else {
if (pmax->i_stop < pmin->i_stop) {
/* e.g. (5,12) and (7,10) */
EMIT(pmax->i_start,pmax->i_stop);
BUMP(pmax);
} else {
/* e.g. (5,8) and (7,12) */
EMIT(pmax->i_start,pmin->i_stop);
if (pmax->i_stop == pmin->i_stop) {
/* e.g. (5,12) and (7,12) */
BUMP(pmax);
}
BUMP(pmin);
}
}
}
return lt;
}
bool not_disjoint(list1,list2)
interv_p list1,list2;
{
/* See if list1 and list2 do overlap somewhere */
interv_p pmin,pmax;
pmin = list1;
pmax = list2;
while (pmin != (interv_p) 0 && pmax != (interv_p) 0) {
set_min_max(&pmin,&pmax);
if (pmax->i_start > pmin->i_stop) {
/* e.g. (5,7) and (9,13) */
BUMP(pmin);
} else {
return TRUE; /* not disjoint */
}
}
return FALSE; /* disjoint */
}
bool contains(short t, interv_p timespan)
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{
register interv_p iv;
for (iv = timespan; iv != (interv_p) 0; iv = iv->i_next) {
if (t <= iv->i_stop) return (t >= iv->i_start);
}
return FALSE;
}
interv_p copy_timespan(list)
interv_p list;
{
/* copy the time span */
interv_p x,y,head,*p;
head = (interv_p) 0;
p = &head;
for (x = list; x != (interv_p) 0; x = x->i_next) {
y = cons_interval(x->i_start,x->i_stop);
*p = y;
p = &y->i_next;
}
return head;
}