563 lines
11 KiB
C
563 lines
11 KiB
C
/* $Header$ */
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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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/* U S E - D E F I N I T I O N A N A L Y S I S */
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#include <stdio.h>
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#include "../share/types.h"
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#include "ud.h"
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#include "../share/debug.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/def.h"
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#include "../share/files.h"
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#include "../share/map.h"
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#include "../share/get.h"
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#include "../share/put.h"
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#include "../share/alloc.h"
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#include "../share/aux.h"
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#include "../share/init_glob.h"
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#include "../share/locals.h"
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#include "../share/go.h"
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#include "../../../h/em_spec.h"
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#include "ud_defs.h"
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#include "ud_const.h"
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#include "ud_copy.h"
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/* core allocation macros */
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#define newudbx() (bext_p) newstruct(bext_ud)
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#define oldudbx(x) oldstruct(bext_ud,x)
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short nrglobals;
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short nrvars;
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int Svalue,Svariable;
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cond_p globl_cond_tab,local_cond_tab;
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STATIC cond_p getcondtab(f)
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FILE *f;
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{
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int l,i;
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cond_p tab;
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fscanf(f,"%d",&l);
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tab = newcondtab(l);
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for (i = 0; i < l; i++) {
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fscanf(f,"%hd %hd %hd",&tab[i].mc_cond,&tab[i].mc_tval,
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&tab[i].mc_sval);
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}
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assert(tab[l-1].mc_cond == DEFAULT);
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return tab;
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}
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STATIC ud_machinit(f)
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FILE *f;
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{
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char s[100];
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for (;;) {
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while(getc(f) != '\n');
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fscanf(f,"%s",s);
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if (strcmp(s,"%%UD") == 0)break;
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}
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globl_cond_tab = getcondtab(f);
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local_cond_tab = getcondtab(f);
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}
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STATIC bool test_cond(cond,val)
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short cond;
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offset val;
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{
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switch(cond) {
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case DEFAULT:
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return TRUE;
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case FITBYTE:
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return val >= -128 && val < 128;
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}
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assert(FALSE);
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/* NOTREACHED */
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}
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STATIC short map_value(tab,val,time)
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struct cond_tab tab[];
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offset val;
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bool time;
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{
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cond_p p;
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for (p = &tab[0]; ; p++) {
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if (test_cond(p->mc_cond,val)) {
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return (time ? p->mc_tval : p->mc_sval);
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}
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}
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}
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STATIC init_root(root)
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bblock_p root;
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{
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/* Initialise the IN OUT sets of the entry block of the
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* current procedure. Global variables and parameters
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* already have a value at this point, although we do
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* not know which value. Therefor, implicit definitions
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* to all global variables and parameters are
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* put in IN.
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*/
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short v;
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for (v = 1; v <= nrglobals; v++) {
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Cadd(IMPLICIT_DEF(GLOB_TO_VARNR(v)), &IN(root));
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}
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for (v = 1; v <= nrlocals; v++) {
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if (locals[v]->lc_off >= 0) {
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Cadd(IMPLICIT_DEF(LOC_TO_VARNR(v)),&IN(root));
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}
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}
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/* OUT(root) = IN(root) - KILL(root) + GEN(root) */
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Ccopy_set(IN(root),&OUT(root));
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Csubtract(KILL(root),&OUT(root));
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Cjoin(GEN(root),&OUT(root));
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}
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STATIC unite_outs(bbset,setp)
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lset bbset;
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cset *setp;
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{
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/* Take the union of OUT(b), for all b in bbset,
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* and put the result in setp.
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*/
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Lindex i;
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Cclear_set(setp);
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for (i = Lfirst(bbset); i != (Lindex) 0; i = Lnext(i,bbset)) {
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Cjoin(OUT((bblock_p) Lelem(i)), setp);
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}
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}
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STATIC solve_equations(p)
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proc_p p;
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{
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/* Solve the data flow equations for reaching
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* definitions of procedure p.
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* These equations are:
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* (1) OUT(b) = IN(b) - KILL(b) + GEN(b)
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* (2) IN(b) = OUT(p1) + .. + OUT(pn) ;
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* where PRED(b) = {p1, .. , pn}
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* We use the iterative algorithm of Aho&Ullman to
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* solve the equations.
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*/
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register bblock_p b;
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bool change;
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cset newin;
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/* initializations */
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newin = Cempty_set(nrdefs);
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for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
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IN(b) = Cempty_set(nrdefs);
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OUT(b) = Cempty_set(nrdefs);
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Ccopy_set(GEN(b), &OUT(b));
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}
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init_root(p->p_start);
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/* Global variables and parameters have already a value
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* at the procedure entry block.
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*/
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change = TRUE;
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/* main loop */
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while (change) {
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change = FALSE;
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for (b = p->p_start->b_next; b != (bblock_p) 0; b = b->b_next) {
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unite_outs(b->b_pred, &newin);
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/* newin = OUT(p1) + .. + OUT(pn) */
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if (!Cequal(newin,IN(b))) {
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change = TRUE;
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Ccopy_set(newin, &IN(b));
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Ccopy_set(IN(b), &OUT(b));
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Csubtract(KILL(b), &OUT(b));
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Cjoin(GEN(b), &OUT(b));
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}
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}
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}
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for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
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Cdeleteset(KILL(b));
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Cdeleteset(OUT(b));
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}
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Cdeleteset(newin);
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}
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short global_addr_cost()
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{
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return add_timespace(map_value(globl_cond_tab,(offset) 0,TRUE),
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map_value(globl_cond_tab,(offset) 0,FALSE));
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}
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short local_addr_cost(off)
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offset off;
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{
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return add_timespace(map_value(local_cond_tab,off,TRUE),
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map_value(local_cond_tab,off,FALSE));
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}
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STATIC bool fold_is_desirable(old,new)
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line_p old,new;
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{
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/* See if it is desirable to replace the variable used by the
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* EM instruction 'old' by the variable used by 'new'.
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* We do not replace 'cheaply addressable variables' by 'expensively
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* addressable variables'. E.g. if we're optimizing object code size,
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* we do not replace a local variable by a global variable on a VAX,
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* because the former occupies 1 or 2 bytes and the latter occupies
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* 4 bytes.
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* If 2 local variables are equally expensive to address, we replace
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* the first one by the second only if the first one is used at
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* least as many times as the second one.
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*/
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local_p oldloc,newloc;
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short old_cost,new_cost,nr;
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bool ok;
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if (TYPE(old) == OPOBJECT) {
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/* old variable is a global variable */
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return TYPE(new) != OPOBJECT &&
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global_addr_cost() >=
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local_addr_cost(off_set(new));
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}
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find_local(off_set(old),&nr,&ok);
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assert(ok);
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oldloc = locals[nr];
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old_cost = local_addr_cost(off_set(old));
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if (TYPE(new) == OPOBJECT) {
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return oldloc->lc_score == 2 || /* old var. can be eliminated */
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old_cost > global_addr_cost();
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}
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find_local(off_set(new),&nr,&ok);
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assert(ok);
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newloc = locals[nr];
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new_cost = local_addr_cost(off_set(new));
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return old_cost > new_cost ||
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(old_cost == new_cost && oldloc->lc_score < newloc->lc_score);
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}
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#ifdef TRACE
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/*********** TRACING ROUTINES ***********/
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pr_localtab() {
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short i;
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local_p lc;
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printf("LOCAL-TABLE (%d)\n\n",nrlocals);
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for (i = 1; i <= nrlocals; i++) {
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lc = locals[i];
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printf("LOCAL %d\n",i);
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printf(" offset= %ld\n",lc->lc_off);
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printf(" size= %d\n",lc->lc_size);
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printf(" flags= %d\n",lc->lc_flags);
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}
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}
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pr_globals()
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{
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dblock_p d;
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obj_p obj;
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printf("GLOBALS (%d)\n\n",nrglobals);
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printf("ID GLOBNR\n");
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for (d = fdblock; d != (dblock_p) 0; d = d->d_next) {
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for (obj = d->d_objlist; obj != (obj_p) 0; obj = obj->o_next) {
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if (obj->o_globnr != 0) {
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printf("%d %d\n", obj->o_id,obj->o_globnr);
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}
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}
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}
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}
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extern char em_mnem[];
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pr_defs()
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{
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short i;
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line_p l;
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printf("DEF TABLE\n\n");
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for (i = 1; i <= nrexpldefs; i++) {
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l = defs[i];
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printf("%d %s ",EXPL_TO_DEFNR(i),
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&em_mnem[(INSTR(l)-sp_fmnem)*4]);
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switch(TYPE(l)) {
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case OPSHORT:
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printf("%d\n",SHORT(l));
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break;
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case OPOFFSET:
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printf("%ld\n",OFFSET(l));
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break;
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case OPOBJECT:
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printf("%d\n",OBJ(l)->o_id);
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break;
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default:
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assert(FALSE);
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}
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}
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}
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pr_set(name,k,s,n)
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char *name;
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cset s;
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short k,n;
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{
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short i;
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printf("%s(%d) = {",name,k);
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for (i = 1; i <= n; i++) {
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if (Cis_elem(i,s)) {
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printf("%d ",i);
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}
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}
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printf ("}\n");
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}
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pr_blocks(p)
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proc_p p;
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{
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bblock_p b;
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short n;
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for (b = p->p_start; b != 0; b = b->b_next) {
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printf ("\n");
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n = b->b_id;
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pr_set("GEN",n,GEN(b),nrdefs);
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pr_set("KILL",n,KILL(b),nrdefs);
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pr_set("IN ",n,IN(b),nrdefs);
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pr_set("OUT",n,OUT(b),nrdefs);
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pr_set("CHGVARS",n,CHGVARS(b),nrvars);
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}
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}
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pr_copies()
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{
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short i;
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printf("\nCOPY TABLE\n\n");
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for (i = 1; i <= nrdefs; i++) {
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if (def_to_copynr[i] != 0) {
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printf("%d %d\n",i,def_to_copynr[i]);
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}
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}
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}
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pr_cblocks(p)
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proc_p p;
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{
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bblock_p b;
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short n;
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for (b = p->p_start; b != 0; b = b->b_next) {
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printf ("\n");
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n = b->b_id;
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pr_set("CGEN",n,C_GEN(b),nrcopies);
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pr_set("CKILL",n,C_KILL(b),nrcopies);
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pr_set("CIN ",n,C_IN(b),nrcopies);
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pr_set("COUT",n,C_OUT(b),nrcopies);
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}
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}
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/*********** END TRACING ********/
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#endif
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STATIC ud_analysis(p)
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proc_p p;
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{
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/* Perform use-definition analysis on procedure p */
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make_localtab(p); /* See for which local we'll keep ud-info */
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#ifdef TRACE
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pr_localtab();
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#endif
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nrvars = nrglobals + nrlocals;
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make_defs(p); /* Make a table of all useful definitions in p */
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#ifdef TRACE
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pr_defs();
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#endif
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nrdefs = nrexpldefs + nrvars; /* number of definitions */
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gen_sets(p); /* compute GEN(b), for every basic block b */
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kill_sets(p); /* compute KILL(b), for every basic block b */
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solve_equations(p); /* solve data flow equations for p */
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#ifdef TRACE
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pr_blocks(p);
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#endif
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}
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STATIC clean_maps()
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{
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local_p *p;
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cset *v;
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oldmap(defs,nrexpldefs);
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for (p = &locals[1]; p <= &locals[nrlocals]; p++) {
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oldlocal(*p);
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}
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oldmap(locals,nrlocals);
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for (v = &vardefs[1]; v <= &vardefs[nrvars]; v++) {
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Cdeleteset(*v);
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}
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oldmap(vardefs,nrvars);
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}
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STATIC bool try_optim(l,b)
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line_p l;
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bblock_p b;
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{
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/* Try copy propagation and constant propagation */
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line_p def;
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offset val;
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short defnr;
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if (is_use(l) && (def = unique_def(l,b,&defnr)) != (line_p) 0) {
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if (is_copy(def)) {
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if (value_retained(def,defnr,l,b) &&
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fold_is_desirable(l,PREV(def))) {
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fold_var(l,PREV(def),b);
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OUTVERBOSE("vp:variable folded in proc %d",
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curproc->p_id,0);
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Svariable++;
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return TRUE;
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}
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} else {
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if (value_known(def,&val)) {
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fold_const(l,b,val);
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OUTVERBOSE("vp:value folded in proc %d",
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curproc->p_id,0);
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Svalue++;
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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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value_propagation(p)
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proc_p p;
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{
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/* Apply value propagation to procedure p */
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bool changes;
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bblock_p b;
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line_p l, next;
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changes = TRUE;
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/* If a statement like A := B is folded to A := constant,
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* new opportunities for constant folding may arise,
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* e.g. the value of A might be statically known too now.
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*/
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while (changes) {
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changes = FALSE;
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for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
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for (l = b->b_start; l != (line_p) 0; l = next) {
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next = l->l_next;
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if (try_optim(l,b)) {
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changes = TRUE;
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}
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}
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}
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}
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oldmap(copies,nrcopies);
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oldtable(def_to_copynr,nrdefs);
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}
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STATIC ud_extend(p)
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proc_p p;
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{
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/* Allocate extended data structures for Use Definition analysis */
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register bblock_p b;
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for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
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b->b_extend = newudbx();
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}
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}
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STATIC ud_cleanup(p)
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proc_p p;
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{
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/* Deallocate extended data structures for Use Definition analysis */
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register bblock_p b;
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for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
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Cdeleteset(GEN(b));
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Cdeleteset(IN(b));
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Cdeleteset(C_GEN(b));
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Cdeleteset(C_KILL(b));
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Cdeleteset(C_IN(b));
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Cdeleteset(C_OUT(b));
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Cdeleteset(CHGVARS(b));
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oldudbx(b->b_extend);
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}
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}
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ud_optimize(p)
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proc_p p;
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{
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ud_extend(p);
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locals = (local_p *) 0;
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vardefs = (cset *) 0;
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defs = (line_p *) 0;
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ud_analysis(p);
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copy_analysis(p);
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#ifdef TRACE
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pr_copies();
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pr_cblocks(p);
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#endif
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value_propagation(p);
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ud_cleanup(p);
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clean_maps();
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}
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main(argc,argv)
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int argc;
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char *argv[];
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{
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go(argc,argv,init_globals,ud_optimize,ud_machinit,no_action);
|
|
report("values folded",Svalue);
|
|
report("variables folded",Svariable);
|
|
exit(0);
|
|
}
|
|
|
|
|
|
|