ref: 9930411eb53445ca7d1f1d98d85d79c646890cc2
dir: /mi/fold.c/
#include <stdlib.h>
#include <stdio.h>
#include <inttypes.h>
#include <stdarg.h>
#include <ctype.h>
#include <string.h>
#include <assert.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#include "parse.h"
#include "mi.h"
static int islit(Node *n, vlong *v)
{
Node *l;
if (exprop(n) != Olit)
return 0;
l = n->expr.args[0];
if (l->lit.littype != Lint)
return 0;
*v = l->lit.intval;
return 1;
}
static int isval(Node *n, vlong val)
{
vlong v;
if (!islit(n, &v))
return 0;
return v == val;
}
static Node *val(Srcloc loc, vlong val, Type *t)
{
Node *l, *n;
l = mkint(loc, val);
n = mkexpr(loc, Olit, l, NULL);
l->lit.type = t;
n->expr.type = t;
return n;
}
static int issmallconst(Node *dcl)
{
Type *t;
if (!dcl->decl.isconst)
return 0;
if (!dcl->decl.init)
return 0;
t = tybase(exprtype(dcl->decl.init));
if (t->type <= Tyflt64)
return 1;
return 0;
}
static Node *foldcast(Node *n)
{
Type *to, *from;
Node *sub;
sub = n->expr.args[0];
to = exprtype(n);
from = exprtype(sub);
switch (tybase(to)->type) {
case Tybool:
case Tyint8: case Tyint16: case Tyint32: case Tyint64:
case Tyuint8: case Tyuint16: case Tyuint32: case Tyuint64:
case Tyint: case Tyuint: case Tylong: case Tyulong:
case Tychar: case Tybyte:
case Typtr:
switch (tybase(from)->type) {
case Tybool:
case Tyint8: case Tyint16: case Tyint32: case Tyint64:
case Tyuint8: case Tyuint16: case Tyuint32: case Tyuint64:
case Tyint: case Tyuint: case Tylong: case Tyulong:
case Tychar: case Tybyte:
case Typtr:
if (exprop(sub) == Olit || tybase(from)->type == tybase(to)->type) {
sub->expr.type = to;
return sub;
} else {
return n;
}
default:
return n;
}
default:
return n;
}
return n;
}
Node *fold(Node *n, int foldvar)
{
Node **args, *r;
Type *t;
vlong a, b;
size_t i;
if (!n)
return NULL;
if (n->type != Nexpr)
return n;
r = NULL;
args = n->expr.args;
for (i = 0; i < n->expr.nargs; i++)
args[i] = fold(args[i], foldvar);
switch (exprop(n)) {
case Ovar:
if (foldvar && issmallconst(decls[n->expr.did]))
r = fold(decls[n->expr.did]->decl.init, foldvar);
break;
case Oadd:
/* x + 0 = 0 */
if (isval(args[0], 0))
r = args[1];
if (isval(args[1], 0))
r = args[0];
if (islit(args[0], &a) && islit(args[1], &b))
r = val(n->loc, a + b, exprtype(n));
break;
case Osub:
/* x - 0 = 0 */
if (isval(args[1], 0))
r = args[0];
if (islit(args[0], &a) && islit(args[1], &b))
r = val(n->loc, a - b, exprtype(n));
break;
case Omul:
/* 1 * x = x */
if (isval(args[0], 1))
r = args[1];
if (isval(args[1], 1))
r = args[0];
/* 0 * x = 0 */
if (isval(args[0], 0))
r = args[0];
if (isval(args[1], 0))
r = args[1];
if (islit(args[0], &a) && islit(args[1], &b))
r = val(n->loc, a * b, exprtype(n));
break;
case Odiv:
/* x/0 = error */
if (isval(args[1], 0))
fatal(args[1], "division by zero");
/* x/1 = x */
if (isval(args[1], 1))
r = args[0];
/* 0/x = 0 */
if (isval(args[1], 0))
r = args[1];
if (islit(args[0], &a) && islit(args[1], &b))
r = val(n->loc, a / b, exprtype(n));
break;
case Omod:
/* x%1 = x */
if (isval(args[1], 0))
r = args[0];
if (islit(args[0], &a) && islit(args[1], &b))
r = val(n->loc, a % b, exprtype(n));
break;
case Oneg:
if (islit(args[0], &a))
r = val(n->loc, -a, exprtype(n));
break;
case Obsl:
if (islit(args[0], &a) && islit(args[1], &b))
r = val(n->loc, a << b, exprtype(n));
break;
case Obsr:
if (islit(args[0], &a) && islit(args[1], &b))
r = val(n->loc, a >> b, exprtype(n));
break;
case Obor:
if (islit(args[0], &a) && islit(args[1], &b))
r = val(n->loc, a | b, exprtype(n));
break;
case Oband:
if (islit(args[0], &a) && islit(args[1], &b))
r = val(n->loc, a & b, exprtype(n));
break;
case Obxor:
if (islit(args[0], &a) && islit(args[1], &b))
r = val(n->loc, a ^ b, exprtype(n));
break;
case Omemb:
t = tybase(exprtype(args[0]));
/* we only fold lengths right now */
if (t->type == Tyarray && !strcmp(namestr(args[1]), "len"))
r = t->asize;
break;
case Ocast:
r = foldcast(n);
break;
default:
break;
}
if (r && n->expr.idx)
r->expr.idx = n->expr.idx;
if (r)
return r;
else
return n;
}