ack/util/ego/cs/cs_kill.c

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1987-03-09 19:15:41 +00:00
/*
* (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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#include "../../../h/em_mnem.h"
#include "../share/types.h"
#include "../share/debug.h"
#include "../share/global.h"
#include "../share/lset.h"
#include "../share/cset.h"
#include "../share/aux.h"
#include "../share/map.h"
#include "cs.h"
#include "cs_aux.h"
#include "cs_debug.h"
#include "cs_avail.h"
#include "cs_entity.h"
STATIC base_valno(enp)
entity_p enp;
{
/* Return the value number of the (base) address of an indirectly
* accessed entity.
*/
switch (enp->en_kind) {
default:
assert(FALSE);
break;
case ENINDIR:
return enp->en_ind;
case ENOFFSETTED:
return enp->en_base;
case ENARRELEM:
return enp->en_arbase;
}
/* NOTREACHED */
}
STATIC entity_p find_base(vn)
valnum vn;
{
/* Vn is the valuenumber of the (base) address of an indirectly
* accessed entity. Return the entity that holds this address
* recursively.
*/
register Lindex i;
register avail_p ravp;
for (i = Lfirst(entities); i != (Lindex) 0; i = Lnext(i, entities)) {
register entity_p renp = en_elem(i);
if (renp->en_vn == vn) {
switch (renp->en_kind) {
case ENAEXTERNAL:
case ENALOCAL:
case ENALOCBASE:
case ENAARGBASE:
return renp;
case ENAOFFSETTED:
return find_base(renp->en_base);
}
}
}
/* We couldn't find it among the entities.
* Let's try the available expressions.
*/
for (ravp = avails; ravp != (avail_p) 0; ravp = ravp->av_before) {
if (ravp->av_result == vn) {
if (ravp->av_instr == (byte) op_aar)
return find_base(ravp->av_ofirst);
if (ravp->av_instr == (byte) op_ads)
return find_base(ravp->av_oleft);
}
}
/* Bad luck. */
return (entity_p) 0;
}
STATIC bool obj_overlap(op1, op2)
obj_p op1, op2;
{
/* Op1 and op2 point to two objects in the same datablock.
* Obj_overlap returns whether these objects might overlap.
*/
obj_p tmp;
if (op1->o_off > op2->o_off) {
/* Exchange them. */
tmp = op1; op1 = op2; op2 = tmp;
}
return op1->o_size == UNKNOWN_SIZE ||
op1->o_off + op1->o_size > op2->o_off;
}
#define same_datablock(o1, o2) ((o1)->o_dblock == (o2)->o_dblock)
STATIC bool addr_local(enp)
entity_p enp;
{
/* Is enp the address of a stack item. */
if (enp == (entity_p) 0) return FALSE;
return enp->en_kind == ENALOCAL || enp->en_kind == ENALOCBASE ||
enp->en_kind == ENAARGBASE;
}
STATIC bool addr_external(enp)
entity_p enp;
{
/* Is enp the address of an external. */
return enp != (entity_p) 0 && enp->en_kind == ENAEXTERNAL;
}
STATIC kill_external(obp, indir)
obj_p obp;
int indir;
{
/* A store is done via the object in obp. If this store is direct
* we kill directly accessed entities in the same data block only
* if they overlap with obp, otherwise we kill everything in the
* data block. Indirectly accessed entities of which it can not be
* proven taht they are not in the same data block, are killed in
* both cases.
*/
register Lindex i;
OUTTRACE("kill external", 0);
for (i = Lfirst(entities); i != (Lindex) 0; i = Lnext(i, entities)) {
entity_p enp = en_elem(i);
entity_p base;
switch (enp->en_kind) {
case ENEXTERNAL:
if (!same_datablock(enp->en_ext, obp))
break;
if (!indir && !obj_overlap(enp->en_ext, obp))
break;
OUTTRACE("kill %d", enp->en_vn);
enp->en_vn = newvalnum();
break;
case ENINDIR:
case ENOFFSETTED:
case ENARRELEM:
/* We spare its value number if we are sure
* that its (base) address points into the
* stack or into another data block.
*/
base = find_base(base_valno(enp));
if (addr_local(base))
break;
if (addr_external(base) &&
!same_datablock(base->en_ext, obp)
)
break;
OUTTRACE("kill %d", enp->en_vn);
enp->en_vn = newvalnum();
break;
}
}
}
STATIC bool loc_overlap(enp1, enp2)
entity_p enp1, enp2;
{
/* Enp1 and enp2 point to two locals. Loc_overlap returns whether
* they overlap.
*/
entity_p tmp;
assert(enp1->en_kind == ENLOCAL && enp2->en_kind == ENLOCAL);
if (enp1->en_loc > enp2->en_loc) {
/* Exchange them. */
tmp = enp1; enp1 = enp2; enp2 = tmp;
}
if (enp1->en_loc < 0 && enp2->en_loc >= 0)
return FALSE; /* Locals and parameters do not overlap. */
else return enp1->en_size == UNKNOWN_SIZE ||
enp1->en_loc + enp1->en_size > enp2->en_loc;
}
STATIC kill_local(enp, indir)
entity_p enp;
bool indir;
{
/* This time a store is done into an ENLOCAL. */
register Lindex i;
OUTTRACE("kill local", 0);
for (i = Lfirst(entities); i != (Lindex) 0; i = Lnext(i, entities)) {
entity_p rep = en_elem(i);
entity_p base;
switch (rep->en_kind) {
case ENLOCAL:
if (indir) {
/* Kill locals that might be stored into
* via a pointer. Note: enp not used.
*/
if (!is_regvar(rep->en_loc)) {
OUTTRACE("kill %d", rep->en_vn);
rep->en_vn = newvalnum();
}
} else if (loc_overlap(rep, enp)) {
/* Only kill overlapping locals. */
OUTTRACE("kill %d", rep->en_vn);
rep->en_vn = newvalnum();
}
break;
case ENINDIR:
case ENOFFSETTED:
case ENARRELEM:
if (!is_regvar(enp->en_loc)) {
base = find_base(base_valno(rep));
if (!addr_external(base)) {
OUTTRACE("kill %d", rep->en_vn);
rep->en_vn = newvalnum();
}
}
break;
}
}
}
STATIC kill_sim()
{
/* A store is done into the ENIGNMASK. */
register Lindex i;
OUTTRACE("kill sim", 0);
for (i = Lfirst(entities); i != (Lindex) 0; i = Lnext(i, entities)) {
register entity_p rep = en_elem(i);
if (rep->en_kind == ENIGNMASK) {
OUTTRACE("kill %d", rep->en_vn);
rep->en_vn = newvalnum();
return; /* There is only one ignoremask. */
}
}
}
kill_direct(enp)
entity_p enp;
{
/* A store will be done into enp. We must forget the values of all the
* entities this one may overlap with.
*/
switch (enp->en_kind) {
default:
assert(FALSE);
break;
case ENEXTERNAL:
kill_external(enp->en_ext, FALSE);
break;
case ENLOCAL:
kill_local(enp, FALSE);
break;
case ENIGNMASK:
kill_sim();
break;
}
}
kill_indir(enp)
entity_p enp;
{
/* An indirect store is done, in an ENINDIR,
* an ENOFFSETTED or an ENARRELEM.
*/
entity_p p;
/* If we can find the (base) address of this entity, then we can spare
* the entities that are provably not pointed to by the address.
* We will also make use of the MES 3 pseudo's, generated by
* the front-end. When a MES 3 is generated for a local, this local
* will not be referenced indirectly.
*/
if ((p = find_base(base_valno(enp))) == (entity_p) 0) {
kill_much(); /* Kill all entities without registermessage. */
} else {
switch (p->en_kind) {
case ENAEXTERNAL:
/* An indirect store into global data. */
kill_external(p->en_ext, TRUE);
break;
case ENALOCAL:
case ENALOCBASE:
case ENAARGBASE:
/* An indirect store into stack data. */
kill_local(p, TRUE);
break;
}
}
}
kill_much()
{
/* Kills all killable entities,
* except the locals for which a registermessage was generated.
*/
register Lindex i;
OUTTRACE("kill much", 0);
for (i = Lfirst(entities); i != (Lindex) 0; i = Lnext(i, entities)) {
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register entity_p rep = en_elem(i);
if (rep->en_static) continue;
if (rep->en_kind == ENLOCAL && is_regvar(rep->en_loc)) continue;
OUTTRACE("kill %d", rep->en_vn);
rep->en_vn = newvalnum();
}
}
STATIC bool bad_procflags(pp)
proc_p pp;
{
/* Return whether the flags about the procedure in pp indicate
* that we have little information about it. It might be that
* we haven't seen the text of pp, or that we have seen that pp
* calls a procedure which we haven't seen the text of.
*/
return !(pp->p_flags1 & PF_BODYSEEN) || (pp->p_flags1 & PF_CALUNKNOWN);
}
STATIC kill_globset(s)
cset s;
{
/* S is a set of global variables that might be changed.
* We act as if a direct store is done into each of them.
*/
register Cindex i;
OUTTRACE("kill globset", 0);
for (i = Cfirst(s); i != (Cindex) 0; i = Cnext(i,s)) {
kill_external(omap[Celem(i)], FALSE);
}
}
kill_call(pp)
proc_p pp;
{
/* Kill everything that might be destroyed by calling
* the procedure in pp.
*/
if (bad_procflags(pp)) {
/* We don't know enough about this procedure. */
kill_much();
} else if (pp->p_change->c_flags & CF_INDIR) {
/* The procedure does an indirect store. */
kill_much();
} else {
/* Procedure might affect global data. */
kill_globset(pp->p_change->c_ext);
}
}
kill_all()
{
/* Kills all entities. */
register Lindex i;
OUTTRACE("kill all entities", 0);
for (i = Lfirst(entities); i != (Lindex) i; i = Lnext(i, entities)) {
entity_p enp = en_elem(i);
OUTTRACE("kill %d", enp->en_vn);
enp->en_vn = newvalnum();
}
}