ack/util/ego/il/il2_aux.c

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/* $Header$ */
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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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/* I N L I N E S U B S T I T U T I O N
*
* I L 2 _ A U X . C
*/
#include <stdio.h>
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#include <em_spec.h>
#include <em_mnem.h>
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#include "../share/types.h"
#include "il.h"
#include "../share/debug.h"
#include "../share/alloc.h"
#include "../share/global.h"
#include "../share/lset.h"
#include "il_aux.h"
#include "il2_aux.h"
#include "../share/get.h"
#include "../share/aux.h"
#define USE_INDIR(p) (p->p_use->u_flags & UF_INDIR)
#define OFTEN_USED(f) ((f->f_flags&FF_OFTENUSED) == FF_OFTENUSED)
#define CHANGE_EXT(p) (Cnrelems(p->p_change->c_ext) > 0)
#define NOT_INLINE(a) (a->ac_inl = FALSE)
#define INLINE(a) (a->ac_inl = TRUE)
#define CHANGED(p) p->p_flags2 |= PF_CHANGED
#define IS_CHANGED(p) (p->p_flags2 & PF_CHANGED)
STATIC bool match_pars(fm,act)
formal_p fm;
actual_p act;
{
/* Check if every actual parameter has the same
* size as its corresponding formal. If not, the
* actual parameters should not be expanded in line.
*/
while (act != (actual_p) 0) {
if (fm == (formal_p) 0 || tsize(fm->f_type) != act->ac_size) {
return FALSE;
}
act = act->ac_next;
fm = fm->f_next;
}
return (fm == (formal_p) 0 ? TRUE : FALSE);
}
STATIC bool change_act(p,act)
proc_p p;
actual_p act;
{
/* See if a call to p migth change any of the
* operands of the actual parameter expression.
* If the parameter is to be expanded in line,
* we must be sure its value does not depend
* on the point in the program where it is
* evaluated.
*/
line_p l;
for (l = act->ac_exp; l != (line_p) 0; l = l->l_next) {
switch(INSTR(l)) {
case op_lil:
case op_lof:
case op_loi:
case op_los:
case op_ldf:
return TRUE;
/* assume worst case */
case op_lol:
case op_ldl:
if (CHANGE_INDIR(p)) {
return TRUE;
}
break;
case op_loe:
case op_lde:
if (CHANGE_INDIR(p) || CHANGE_EXT(p)) {
return TRUE;
}
break;
}
}
return FALSE;
}
STATIC bool is_simple(expr)
line_p expr;
{
/* See if expr is something simple, i.e. a constant or
* a variable. So the expression must consist of
* only one instruction.
*/
if (expr->l_next == (line_p) 0) {
switch(INSTR(expr)) {
case op_loc:
case op_ldc:
case op_lol:
case op_ldl:
case op_loe:
case op_lde:
return TRUE;
}
}
return FALSE;
}
STATIC bool too_expensive(fm,act)
formal_p fm;
actual_p act;
{
/* If the formal parameter is used often and the
* actual parameter is not something simple
* (i.e. an expression, not a constant or variable)
* it may be too expensive too expand the parameter
* in line.
*/
return (OFTEN_USED(fm) && !is_simple(act->ac_exp));
}
bool anal_params(c)
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call_p c;
{
/* Determine which of the actual parameters of a
* call may be expanded in line.
*/
proc_p p;
actual_p act;
formal_p form;
int inlpars = 0;
p = c->cl_proc; /* the called procedure */
if (!match_pars(p->P_FORMALS, c->cl_actuals)) return FALSE;
if (!INLINE_PARS(p)) {
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for (act = c->cl_actuals; act != (actual_p) 0;
act = act->ac_next) {
NOT_INLINE(act);
}
return TRUE; /* "# of inline pars." field in cl_flags remains 0 */
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}
for (act = c->cl_actuals, form = p->P_FORMALS; act != (actual_p) 0;
act = act->ac_next, form = form->f_next) {
if (form->f_flags & FF_BAD ||
change_act(p,act) || too_expensive(form,act)) {
NOT_INLINE(act);
} else {
INLINE(act);
inlpars++;
}
}
if (inlpars > 15) inlpars = 15; /* We've only got 4 bits! */
c->cl_flags |= inlpars; /* number of inline parameters */
return TRUE;
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}
STATIC short space_saved(c)
call_p c;
{
/* When a call gets expanded in line, the total size of the
* code usually gets incremented, because we have to
* duplicate the text of the called routine. However, we save
* ourselves a CAL instruction and possibly anASP instruction
* (if the called procedure has parameters). Moreover, if we
* can put some parameters in line, we don't have to push
* their results on the stack before doing the call, so we
* save some code here too. The routine estimates the amount of
* code saved, expressed in number of EM instructions.
*/
return (1 + (c->cl_flags & CLF_INLPARS) + (c->cl_proc->p_nrformals>0));
}
STATIC short param_score(c)
call_p c;
{
/* If a call has an inline parameter that is a constant,
* chances are high that other optimization techniques
* can do further optimizations, especially if the constant
* happens to be "0". So the call gets extra points for this.
*/
register actual_p act;
line_p l;
short score = 0;
for (act = c->cl_actuals; act != (actual_p) 0; act = act->ac_next) {
if (act->ac_inl) {
l = act->ac_exp;
if (l->l_next == (line_p) 0 &&
(INSTR(l) == op_loc || INSTR(l) == op_ldc)) {
score += (off_set(l) == (offset) 0 ? 2 : 1);
/* 0's count for two! */
}
}
}
return score;
}
assign_ratio(c)
call_p c;
{
/* This routine is one of the most important ones
* of the inline substitution phase. It assigns a number
* (a 'ratio') to a call, indicating how desirable
* it is to expand the call in line.
* Currently, a very simplified straightforward heuristic
* is used.
*/
short ll, loopfact, ratio;
ll = c->cl_proc->P_SIZE - space_saved(c);
if (ll <= 0) ll = 1;
ratio = 1000 / ll;
if (ratio == 0) ratio = 1;
/* Add points if the called procedure falls through
* it's end (no BRA needed) or has formal parameters
* (ASP can be deleted).
*/
if (c->cl_proc->p_flags2 & PF_FALLTHROUGH) {
ratio += 10;
}
if (c->cl_proc->p_nrformals > 0) {
ratio += 10;
}
if (c->cl_caller->p_localbytes == 0) {
ratio -= 10;
}
ratio += (10 *param_score(c));
/* Extra points for constants as parameters */
if (ratio <= 0) ratio = 1;
ll = c->cl_looplevel+1;
if (ll == 1 && !IS_CALLED_IN_LOOP(c->cl_caller)) ll = 0;
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/* If the call is not in a loop and the called proc. is never called
* in a loop, ll is set to 0.
*/
loopfact = (ll > 3 ? 10 : ll*ll);
ratio *= loopfact;
if (c->cl_flags & CLF_FIRM) {
ratio = 2*ratio;
}
c->cl_ratio = ratio;
}
call_p abstract(c)
call_p c;
{
/* Abstract information from the call that is essential
* for choosing the calls that will be expanded.
* Put the information is an 'abstracted call'.
*/
call_p a;
a = newcall();
a->cl_caller = c->cl_caller;
a->cl_id = c->cl_id;
a->cl_proc = c->cl_proc;
a->cl_looplevel = c->cl_looplevel;
a->cl_ratio = c->cl_ratio;
a->cl_flags = c->cl_flags;
return a;
}
STATIC adjust_counts(callee,ccf)
proc_p callee;
FILE *ccf;
{
/* A call to callee is expanded in line;
* the text of callee is not removed, so
* every proc called by callee gets its
* P_NRCALLED field incremented.
*/
calcnt_p cc, head;
head = getcc(ccf,callee); /* get calcnt info of called proc */
for (cc = head; cc != (calcnt_p) 0; cc = cc->cc_next) {
cc->cc_proc->P_NRCALLED += cc->cc_count;
}
remcc(head); /* remove calcnt info */
}
STATIC bool is_dispensable(callee,ccf)
proc_p callee;
FILE *ccf;
{
/* A call to callee is expanded in line.
* Decrement its P_NRCALLED field and see if
* it can now be removed because it is no
* longer called. Procedures that ever have
* their address taken (via LPI) will never
* be removed, as they might be called indirectly.
*/
if ((--callee->P_NRCALLED) == 0 &&
(complete_program || (callee->p_flags1 & PF_EXTERNAL) == 0) &&
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(callee->p_flags1 & PF_LPI) == 0) {
DISPENSABLE(callee);
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OUTVERBOSE("dispensable: procedure %d can be removed",callee->p_id);
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#ifdef VERBOSE
Spremoved++;
#endif
return TRUE;
} else {
adjust_counts(callee,ccf);
return FALSE;
}
}
STATIC call_p nested_calls(a)
call_p a;
{
/* Get a list of all calls that will appear in the
* EM text if the call 'a' is expanded in line.
* These are the calls in the P_CALS list of the
* called procedure.
*/
call_p c, cp, head, *cpp;
head = (call_p) 0;
cpp = &head;
for (c = a->cl_proc->P_CALS; c != (call_p) 0; c = c->cl_cdr) {
cp = abstract(c);
cp->cl_looplevel += a->cl_looplevel;
cp->cl_flags = (byte) 0;
if (a->cl_flags & CLF_FIRM) {
cp->cl_flags |= CLF_FIRM;
}
assign_ratio(cp);
*cpp = cp;
cpp = &cp->cl_cdr;
}
return head;
}
STATIC call_p find_origin(c)
call_p c;
{
/* c is a nested call. Find the original call.
* This origional must be in the P_CALS list
* of the calling procedure.
*/
register call_p x;
for (x = c->cl_caller->P_CALS; x != (call_p) 0; x = x->cl_cdr) {
if (x->cl_id == c->cl_id) return x;
}
assert(FALSE);
/* NOTREACHED */
}
STATIC selected(a)
call_p a;
{
/* The call a is selected for in line expansion.
* Mark the call as being selected and get the
* calls nested in it; these will be candidates
* too now.
*/
SELECTED(a);
EVER_EXPANDED(find_origin(a));
a->cl_car = nested_calls(a);
}
STATIC compare(x,best,space)
call_p x, *best;
long space;
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{
/* See if x is better than the current best choice */
if (x != (call_p) 0 && !IS_CHANGED(x->cl_proc) &&
x->cl_proc->P_SIZE - space_saved(x) <= space) {
if ((*best == (call_p) 0 && x->cl_ratio != 0) ||
(*best != (call_p) 0 && x->cl_ratio > (*best)->cl_ratio )) {
*best = x;
}
}
}
STATIC call_p best_one(list,space)
call_p list;
long space;
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{
/* Find the best candidate of the list
* that has not already been selected. The
* candidate must fit in the given space.
* We look in the cdr as well as in the car
* direction.
*/
call_p best = (call_p) 0;
call_p c;
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for (c = list; c != (call_p) 0; c = c->cl_cdr) {
if (IS_SELECTED(c)) {
compare(best_one(c->cl_car,space),&best,space);
} else {
compare(c,&best,space);
}
}
return best;
}
STATIC singles(cals)
call_p cals;
{
/* If a procedure is only called once, this call
* will be expanded in line, because it costs
* no extra space.
*/
call_p c;
for (c = cals; c != (call_p) 0; c = c->cl_cdr) {
if (IS_SELECTED(c)) {
singles(c->cl_car);
} else {
if (c->cl_proc->P_NRCALLED == 1 &&
!IS_CHANGED(c->cl_proc) &&
(complete_program ||
(c->cl_proc->p_flags1 & PF_EXTERNAL) == 0) &&
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(c->cl_proc->p_flags1 & PF_LPI) == 0) {
c->cl_proc->P_NRCALLED = 0;
SELECTED(c);
EVER_EXPANDED(find_origin(c));
DISPENSABLE(c->cl_proc);
CHANGED(c->cl_caller);
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OUTVERBOSE("singles: procedure %d can be removed",
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c->cl_proc->p_id);
#ifdef VERBOSE
Spremoved++;
#endif
}
}
}
}
STATIC single_calls(proclist)
proc_p proclist;
{
proc_p p;
for (p = proclist; p != (proc_p) 0; p = p->p_next) {
if (!BIG_CALLER(p) && !IS_DISPENSABLE(p)) {
/* Calls appearing in a large procedure or in
* a procedure that was already eliminated
* are not considered.
*/
singles(p->P_CALS);
}
}
}
select_calls(proclist,ccf,space)
proc_p proclist;
FILE *ccf;
long space ;
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{
/* Select all calls that are to be expanded in line. */
proc_p p,chp;
call_p best, x;
for (;;) {
best = (call_p) 0;
chp = (proc_p) 0; /* the changed procedure */
for (p = proclist; p != (proc_p) 0; p = p->p_next) {
if (!BIG_CALLER(p) && !IS_DISPENSABLE(p)) {
/* Calls appearing in a large procedure or in
* a procedure that was already eliminated
* are not considered.
*/
x = best_one(p->P_CALS,space);
compare(x,&best,space);
if (x == best) chp = p;
}
}
if (best == (call_p) 0) break;
if (!is_dispensable(best->cl_proc,ccf)) {
space -= (best->cl_proc->P_SIZE - space_saved(best));
}
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else space += space_saved(best);
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#ifdef VERBOSE
if (verbose_flag) fprintf(stderr, "space left: %ld\n", space);
#endif
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selected(best);
CHANGED(chp);
}
single_calls(proclist);
#ifdef VERBOSE
Sstat(proclist,space);
#endif
}
STATIC nonnested_calls(cfile)
FILE *cfile;
{
register call_p c,a;
while((c = getcall(cfile)) != (call_p) 0) {
/* find the call in the call list of the caller */
for (a = c->cl_caller->P_CALS;
a != (call_p) 0 && c->cl_id != a->cl_id; a = a->cl_cdr);
assert(a != (call_p) 0 && a->cl_proc == c->cl_proc);
if (IS_EVER_EXPANDED(a)) {
a->cl_actuals = c->cl_actuals;
c->cl_actuals = (actual_p) 0;
}
rem_call(c);
}
}
STATIC copy_pars(src,dest)
call_p src, dest;
{
/* Copy the actual parameters of src to dest. */
actual_p as,ad, *app;
app = &dest->cl_actuals;
for (as = src->cl_actuals; as != (actual_p) 0; as = as->ac_next) {
ad = newactual();
ad->ac_exp = copy_expr(as->ac_exp);
ad->ac_size = as->ac_size;
ad->ac_inl = as->ac_inl;
*app = ad;
app = &ad->ac_next;
}
}
STATIC nest_pars(cals)
call_p cals;
{
/* Recursive auxiliary procedure of add_actuals. */
call_p c,org;
for (c = cals; c != (call_p) 0; c = c->cl_cdr) {
if (IS_SELECTED(c)) {
org = find_origin(c);
copy_pars(org,c);
nest_pars(c->cl_car);
}
}
}
add_actuals(proclist,cfile)
proc_p proclist;
FILE *cfile;
{
/* Fetch the actual parameters of all selected calls.
* For all non-nested calls (i.e. those calls that
* appeared originally in the EM text), we get the
* parameters from the cal-file.
* For nested calls (i.e. calls
* that are a result of in line substitution) we
* get the parameters from the original call.
*/
proc_p p;
call_p a;
nonnested_calls(cfile);
for (p = proclist; p != (proc_p) 0; p = p->p_next) {
for (a = p->P_CALS; a != (call_p) 0; a = a->cl_cdr) {
nest_pars(a->cl_car);
}
}
}
STATIC clean(cals)
call_p *cals;
{
call_p c,next,*cpp;
/* Recursive auxiliary routine of cleancals */
cpp = cals;
for (c = *cpp; c != (call_p) 0; c = next) {
next = c->cl_cdr;
if (IS_SELECTED(c)) {
clean(&c->cl_car);
cpp = &c->cl_cdr;
} else {
assert(c->cl_car == (call_p) 0);
oldcall(c);
*cpp = next;
}
}
}
cleancals(proclist)
proc_p proclist;
{
/* Remove all calls in the P_CALS list of p
* that were not selected for in line expansion.
*/
register proc_p p;
for (p = proclist; p != (proc_p) 0; p = p->p_next) {
clean(&p->P_CALS);
}
}
append_abstract(a,p)
call_p a;
proc_p p;
{
/* Append an abstract of a call-descriptor to
* the call-list of procedure p.
*/
call_p c;
if (p->P_CALS == (call_p) 0) {
p->P_CALS = a;
} else {
for (c = p->P_CALS; c->cl_cdr != (call_p) 0; c = c->cl_cdr);
c->cl_cdr = a;
}
}
#ifdef VERBOSE
/* At the end, we traverse the entire call-list, to see why the
* remaining calls were not expanded inline.
*/
Sstatist(list,space)
call_p list;
long space;
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{
call_p c;
for (c = list; c != (call_p) 0; c = c->cl_cdr) {
if (IS_SELECTED(c)) {
Sstatist(c->cl_car,space);
} else {
if (IS_CHANGED(c->cl_proc)) Schangedcallee++;
else if (BIG_PROC(c->cl_proc)) Sbigcallee++;
else if (c->cl_proc->P_SIZE > space) Sspace++;
else if (c->cl_ratio == 0) Szeroratio++;
else assert(FALSE);
}
}
}
Sstat(proclist,space)
proc_p proclist;
long space;
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{
proc_p p;
for (p = proclist; p != (proc_p) 0; p = p->p_next) {
if (BIG_CALLER(p)) Sbig_caller++;
else if (IS_DISPENSABLE(p)) Sdispensable++;
else Sstatist(p->P_CALS,space);
}
}
#endif