simplify Fp2::init

dev
MITSUNARI Shigeo 6 years ago
parent 3a6b1c2124
commit 4c26c9edfb
  1. 62
      include/mcl/fp_tower.hpp
  2. 1
      src/fp_generator.hpp

@ -240,11 +240,19 @@ public:
a = a_;
b = b_;
}
#ifdef MCL_XBYAK_DIRECT_CALL
static void (*add)(Fp2T& z, const Fp2T& x, const Fp2T& y);
static void (*sub)(Fp2T& z, const Fp2T& x, const Fp2T& y);
static void (*neg)(Fp2T& y, const Fp2T& x);
static void (*mul)(Fp2T& z, const Fp2T& x, const Fp2T& y);
static void (*sqr)(Fp2T& y, const Fp2T& x);
#else
static void add(Fp2T& z, const Fp2T& x, const Fp2T& y) { addC(z, x, y); }
static void sub(Fp2T& z, const Fp2T& x, const Fp2T& y) { subC(z, x, y); }
static void neg(Fp2T& y, const Fp2T& x) { negC(y, x); }
static void mul(Fp2T& z, const Fp2T& x, const Fp2T& y) { mulC(z, x, y); }
static void sqr(Fp2T& y, const Fp2T& x) { sqrC(y, x); }
#endif
static void (*mul_xi)(Fp2T& y, const Fp2T& x);
static void addPre(Fp2T& z, const Fp2T& x, const Fp2T& y) { Fp::addPre(z.a, x.a, y.a); Fp::addPre(z.b, x.b, y.b); }
static void inv(Fp2T& y, const Fp2T& x) { Fp::op_.fp2_inv(y.a.v_, x.a.v_); }
@ -378,40 +386,26 @@ public:
// assert(Fp::maxSize <= 256);
mcl::fp::Op& op = Fp::op_;
assert(op.xi_a);
#ifdef MCL_XBYAK_DIRECT_CALL
add = (void (*)(Fp2T& z, const Fp2T& x, const Fp2T& y))op.fp2_addA_;
if (add == 0) add = fp2_addC;
if (add == 0) add = addC;
sub = (void (*)(Fp2T& z, const Fp2T& x, const Fp2T& y))op.fp2_subA_;
if (sub == 0) sub = fp2_subC;
if (sub == 0) sub = subC;
neg = (void (*)(Fp2T& y, const Fp2T& x))op.fp2_negA_;
if (neg == 0) neg = fp2_negC;
if (neg == 0) neg = negC;
mul = (void (*)(Fp2T& z, const Fp2T& x, const Fp2T& y))op.fp2_mulA_;
if (mul == 0) {
if (op.isFastMod) {
mul = fp2_mulC;
} else if (!op.isFullBit) {
if (0 && sizeof(Fp) * 8 == op.N * fp::UnitBitSize && op.fp2_mulNF) {
mul = fp2_mulNFW;
} else {
mul = fp2_mulC;
}
} else {
mul = fp2_mulC;
}
}
if (mul == 0) mul = mulC;
sqr = (void (*)(Fp2T& y, const Fp2T& x))op.fp2_sqrA_;
if (sqr == 0) sqr = fp2_sqrC;
if (sqr == 0) sqr = sqrC;
#endif
op.fp2_inv = fp2_invW;
if (op.xi_a == 1) {
/*
current fp_generator.hpp generates mul_xi for xi_a = 1
*/
if (op.fp2_mul_xiA_) {
mul_xi = (void (*)(Fp2T&, const Fp2T&))op.fp2_mul_xiA_;
mul_xi = (void (*)(Fp2T&, const Fp2T&))op.fp2_mul_xiA_;
if (mul_xi == 0) {
if (op.xi_a == 1) {
mul_xi = fp2_mul_xi_1_1iC;
} else {
mul_xi = fp2_mul_xi_1_1i;
mul_xi = fp2_mul_xiC;
}
} else {
mul_xi = fp2_mul_xiC;
}
FpDblT<Fp>::init();
Fp2DblT<Fp>::init();
@ -485,17 +479,17 @@ private:
default Fp2T operator
Fp2T = Fp[i]/(i^2 + 1)
*/
static void fp2_addC(Fp2T& z, const Fp2T& x, const Fp2T& y)
static void addC(Fp2T& z, const Fp2T& x, const Fp2T& y)
{
Fp::add(z.a, x.a, y.a);
Fp::add(z.b, x.b, y.b);
}
static void fp2_subC(Fp2T& z, const Fp2T& x, const Fp2T& y)
static void subC(Fp2T& z, const Fp2T& x, const Fp2T& y)
{
Fp::sub(z.a, x.a, y.a);
Fp::sub(z.b, x.b, y.b);
}
static void fp2_negC(Fp2T& y, const Fp2T& x)
static void negC(Fp2T& y, const Fp2T& x)
{
Fp::neg(y.a, x.a);
Fp::neg(y.b, x.b);
@ -526,13 +520,13 @@ private:
Fp::sub(pz[1], t1, ac);
pz[1] -= bd;
}
#endif
static void fp2_mulNFW(Fp2T& z, const Fp2T& x, const Fp2T& y)
{
const fp::Op& op = Fp::op_;
op.fp2_mulNF((Unit*)&z, (const Unit*)&x, (const Unit*)&y, op.p);
}
static void fp2_mulC(Fp2T& z, const Fp2T& x, const Fp2T& y)
#endif
static void mulC(Fp2T& z, const Fp2T& x, const Fp2T& y)
{
Fp2Dbl d;
Fp2Dbl::mulPre(d, x, y);
@ -543,7 +537,7 @@ private:
x = a + bi, i^2 = -1
y = x^2 = (a + bi)^2 = (a + b)(a - b) + 2abi
*/
static void fp2_sqrC(Fp2T& y, const Fp2T& x)
static void sqrC(Fp2T& y, const Fp2T& x)
{
const Fp& a = x.a;
const Fp& b = x.b;
@ -588,7 +582,7 @@ private:
xi = 1 + i ; xi_a = 1
y = (a + bi)xi = (a - b) + (a + b)i
*/
static void fp2_mul_xi_1_1i(Fp2T& y, const Fp2T& x)
static void fp2_mul_xi_1_1iC(Fp2T& y, const Fp2T& x)
{
const Fp& a = x.a;
const Fp& b = x.b;
@ -618,11 +612,13 @@ private:
}
};
#ifdef MCL_XBYAK_DIRECT_CALL
template<class Fp_> void (*Fp2T<Fp_>::add)(Fp2T& z, const Fp2T& x, const Fp2T& y);
template<class Fp_> void (*Fp2T<Fp_>::sub)(Fp2T& z, const Fp2T& x, const Fp2T& y);
template<class Fp_> void (*Fp2T<Fp_>::neg)(Fp2T& y, const Fp2T& x);
template<class Fp_> void (*Fp2T<Fp_>::mul)(Fp2T& z, const Fp2T& x, const Fp2T& y);
template<class Fp_> void (*Fp2T<Fp_>::sqr)(Fp2T& y, const Fp2T& x);
#endif
template<class Fp_> void (*Fp2T<Fp_>::mul_xi)(Fp2T& y, const Fp2T& x);
template<class Fp>

@ -3675,6 +3675,7 @@ private:
void2u gen_fp2_mul_xi()
{
if (isFullBit_) return 0;
if (op_->xi_a != 1) return 0;
align(16);
void2u func = getCurr<void2u>();
if (pn_ == 4) {

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