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#include "ir.h"
static union ref
foldint(enum op op, enum irclass k, union ref lr, union ref rr)
{
vlong x;
union {
vlong s;
uvlong u;
} l = {.s = intconval(lr)}, r = {.s = intconval(rr)};
bool w = cls2siz[k] == 8;
if (in_range(op, Odiv, Ourem)) assert(r.u != 0);
switch (op) {
case Ocopy: x = l.s; break;
case Oneg: x = -l.s; break;
case Onot: x = ~l.s; break;
case Ocvtf32s: x = (int)(float)fltconval(lr); break;
case Ocvtf32u: x = (uint)(float)fltconval(lr); break;
case Ocvtf64s: x = (vlong)fltconval(lr); break;
case Ocvtf64u: x = (uvlong)fltconval(lr); break;
case Oexts8: x = (schar)l.s; break;
case Oextu8: x = (uchar)l.s; break;
case Oexts16: x = (short)l.s; break;
case Oextu16: x = (ushort)l.s; break;
case Oexts32: x = (int)l.s; break;
case Oextu32: x = (uint)l.s; break;
case Oadd: x = l.u + r.u; break;
case Osub: x = l.u - r.u; break;
case Omul: x = l.u * r.u; break;
case Odiv: x = w ? l.s / r.s : (int)l.s / (int)r.s; break;
case Oudiv: x = w ? l.u / r.u : (uint)l.u / (uint)r.u; break;
case Orem: x = w ? l.s % r.s : (int)l.s % (int)r.s; break;
case Ourem: x = w ? l.u % r.u : (uint)l.u % (uint)r.u; break;
case Oand: x = l.u & r.u; break;
case Oior: x = l.u | r.u; break;
case Oxor: x = l.u ^ r.u; break;
case Oshl: x = l.u << (r.u & (w ? 63 : 31)); break;
case Oslr: x = w ? l.u >> (r.u&63) : (int)l.s >> (r.u&31); break;
case Osar: x = w ? l.s >> (r.u&63) : (int)l.s >> (r.u&31); break;
case Oequ: x = l.s == r.s; break;
case Oneq: x = l.s != r.s; break;
case Olth: x = l.s < r.s; break;
case Ogth: x = l.s > r.s; break;
case Olte: x = l.s <= r.s; break;
case Ogte: x = l.s >= r.s; break;
case Oulth: x = l.u < r.u; break;
case Ougth: x = l.u > r.u; break;
case Oulte: x = l.u <= r.u; break;
case Ougte: x = l.u >= r.u; break;
default: assert(0);
}
return mkintcon(k, x);
}
static union ref
foldflt(enum op op, enum irclass k, union ref lr, union ref rr)
{
int xi;
double x, l = fltconval(lr), r = fltconval(rr);
bool w = k == KF64;
switch (op) {
case Ocopy: x = l; break;
case Oneg: x = -l; break;
case Ocvtf32f64: x = (float)l; break;
case Ocvtf64f32: x = (float)l; break;
case Ocvts32f: x = (int)intconval(lr); break;
case Ocvtu32f: x = (int)intconval(lr); break;
case Ocvts64f: x = (vlong)intconval(lr); break;
case Ocvtu64f: x = (uvlong)intconval(lr); break;
case Oadd: x = l + r; break;
case Osub: x = l - r; break;
case Omul: x = l * r; break;
case Odiv: x = l / r; break;
case Oequ: xi = l == r; break;
case Oneq: xi = l != r; break;
case Olth: xi = l < r; break;
case Ogth: xi = l > r; break;
case Olte: xi = l <= r; break;
case Ogte: xi = l >= r; break;
default: assert(0);
}
if (oiscmp(op)) return mkref(RICON, xi);
if (!w) x = (float)x;
return mkfltcon(k, x);
}
bool
foldbinop(union ref *to, enum op op, enum irclass k, union ref l, union ref r)
{
if (!oisarith(op))
return 0;
if (!isnumcon(l) || !isnumcon(r)) return 0;
if (in_range(op, Odiv, Ourem) && kisint(k) && intconval(r) == 0)
return 0;
if (kisint(k))
*to = foldint(op, k, l, r);
else
*to = foldflt(op, k, l, r);
return 1;
}
bool
foldunop(union ref *to, enum op op, enum irclass k, union ref a)
{
if (!isnumcon(a)) return 0;
if (op != Ocopy && !oisarith(op))
return 0;
if (kisint(k))
*to = foldint(op, k, a, ZEROREF);
else
*to = foldflt(op, k, a, ZEROREF);
return 1;
}
/* vim:set ts=3 sw=3 expandtab: */
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