ack/mach/proto/ncg/regvar.c

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#include <assert.h>
#include <stdlib.h>
#include <stdio.h>
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#include "param.h"
#include "tables.h"
#ifdef REGVARS
#ifndef NORCSID
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static char rcsid[] = "$Id$";
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#endif
#include "types.h"
#include <cgg_cg.h>
#include "data.h"
#include "regvar.h"
#include <em_reg.h>
#include "result.h"
#include "extern.h"
/*
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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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*
* Author: Hans van Staveren
*/
static struct regvar *rvlist;
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struct regvar *linkreg(long of, int sz, int tp, int sc) {
struct regvar *rvlp;
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rvlp= (struct regvar *) myalloc(sizeof *rvlp);
rvlp->rv_next = rvlist;
rvlist=rvlp;
rvlp->rv_off = of;
rvlp->rv_size = sz;
rvlp->rv_type = tp;
rvlp->rv_score = sc;
rvlp->rv_reg = 0; /* no register assigned yet */
return(rvlp);
}
void tryreg(struct regvar *rvlp, int typ) {
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int score;
int i;
struct regassigned *ra;
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struct regvar *save;
if (typ != reg_any && nregvar[typ]!=0) {
struct reginfo *ri = &machregs[rvnumbers[typ][0]];
int size, wrong;
size = ri->r_size;
wrong = (size!=rvlp->rv_size);
#ifdef REGLAP
/* reg_float may have one subregister */
if (wrong && ri->r_members[0]!=0) {
size = machregs[ri->r_members[0]].r_size;
wrong = (size!=rvlp->rv_size);
}
#endif /* REGLAP */
if (wrong)
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score = -1;
else
score = regscore(rvlp->rv_off,
rvlp->rv_size,
rvlp->rv_type,
rvlp->rv_score,
typ); /* machine dependent */
ra = regassigned[typ];
if (score>ra[nregvar[typ]-1].ra_score) {
save = ra[nregvar[typ]-1].ra_rv;
for (i=nregvar[typ]-1;i>0 && ra[i-1].ra_score<score;i--)
ra[i] = ra[i-1];
ra[i].ra_rv = rvlp;
ra[i].ra_score = score;
if((rvlp=save)==0)
return;
}
}
if (nregvar[reg_any]==0)
return;
if (machregs[rvnumbers[reg_any][0]].r_size!=rvlp->rv_size)
score = -1;
else
score = regscore(rvlp->rv_off,
rvlp->rv_size,
rvlp->rv_type,
rvlp->rv_score,
reg_any); /* machine dependent */
ra = regassigned[reg_any];
if (score>ra[nregvar[reg_any]-1].ra_score) {
for (i=nregvar[reg_any]-1;i>0 && ra[i-1].ra_score<score;i--)
ra[i] = ra[i-1];
ra[i].ra_rv = rvlp;
ra[i].ra_score = score;
}
}
void fixregvars(int saveall) {
struct reginfo *rp, *rp2;
struct regvar *rv;
int i, regno, rvtyp;
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swtxt();
i_regsave(); /* machine dependent initialization */
for (rvtyp=reg_any;rvtyp<=reg_float;rvtyp++) {
for(i=0;i<nregvar[rvtyp];i++)
if (saveall) {
rp= &machregs[rvnumbers[rvtyp][i]];
#ifdef REGLAP
/*
* A reg_float may have two sizes. If so,
* only save the larger size.
*/
if ((regno = rp->r_members[0]) != 0 &&
machregs[regno].r_size > rp->r_size)
rp= &machregs[regno];
#endif
regsave(codestrings[rp->r_repr],
(long)-TEM_WSIZE,rp->r_size);
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} else if(regassigned[rvtyp][i].ra_score>0) {
rv=regassigned[rvtyp][i].ra_rv;
rv->rv_reg = regno = rvnumbers[rvtyp][i];
rv->rv_type = rvtyp;
#ifdef REGLAP
/*
* Change regno to match rv->rv_size, but
* leave old regno in rv->rv_reg so that
* isregvar_size() can handle both sizes.
*/
if (machregs[regno].r_size != rv->rv_size) {
regno = machregs[regno].r_members[0];
assert(regno != 0);
assert(machregs[regno].r_size == rv->rv_size);
}
#endif
regsave(codestrings[machregs[regno].r_repr],
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rv->rv_off,rv->rv_size);
}
}
f_regsave();
}
int isregvar(long off) {
struct regvar *rvlp;
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for(rvlp=rvlist;rvlp!=0;rvlp=rvlp->rv_next)
if(rvlp->rv_off == off)
return(rvlp->rv_reg);
return(-1);
}
#ifdef REGLAP
int isregvar_size(long off, int size) {
int regno = isregvar(off);
/*
* A reg_float may have two sizes. If this register has the
* wrong size, then use the overlapping register. A register
* may switch sizes in the middle of a procedure.
*/
if (regno > 0 && machregs[regno].r_size != size) {
if (machregs[regno].r_size != size) {
regno = machregs[regno].r_members[0];
assert(regno != 0);
assert(machregs[regno].r_size == size);
}
}
return regno;
}
#endif /* REGLAP */
int isregtyp(long off) {
struct regvar *rvlp;
for (rvlp=rvlist;rvlp!=0;rvlp=rvlp->rv_next)
if (rvlp->rv_off == off)
return(rvlp->rv_reg ? rvlp->rv_type+1 : 0);
return(-1);
}
void unlinkregs(void) {
struct regvar *rvlp,*t;
struct regassigned *ra;
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int rvtyp,i;
for (rvlp=rvlist;rvlp!=0;rvlp=t) {
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t=rvlp->rv_next;
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myfree((string)rvlp);
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}
rvlist=0;
for (rvtyp=reg_any;rvtyp<=reg_float;rvtyp++) {
for (i=0;i<nregvar[rvtyp];i++) {
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ra= &regassigned[rvtyp][i];
ra->ra_rv = 0;
ra->ra_score = 0;
}
}
}
#endif /* REGVARS */
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/* nothing after this */