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@ -150,15 +150,6 @@ inline void set_zero(mpz_t& z, Unit *p, size_t n) |
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} // mcl::fp::local
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struct TagDefault; |
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static inline void modC(Unit *y, const Unit *x, const mpz_class& mp, size_t N) |
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{ |
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mpz_t mx, my; |
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local::set_mpz_t(mx, x, N * 2); |
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local::set_mpz_t(my, y, N); |
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mpz_mod(my, mx, mp.get_mpz_t()); |
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local::clearArray(y, my->_mp_size, N); |
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} |
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#ifndef MCL_FP_BLOCK_MAX_BIT_N |
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#define MCL_FP_BLOCK_MAX_BIT_N 521 |
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#endif |
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@ -201,262 +192,6 @@ struct Op { |
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} |
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}; |
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template<size_t bitN> |
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struct OpeFunc { |
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typedef fp::Unit Unit; |
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static const size_t N = (bitN + sizeof(Unit) * 8 - 1) / (sizeof(Unit) * 8); |
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static inline void set_mpz_t(mpz_t& z, const Unit* p, int n = (int)N) |
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{ |
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z->_mp_alloc = n; |
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int i = n; |
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while (i > 0 && p[i - 1] == 0) { |
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i--; |
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} |
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z->_mp_size = i; |
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z->_mp_d = (mp_limb_t*)const_cast<Unit*>(p); |
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} |
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static inline void set_zero(mpz_t& z, Unit *p, size_t n) |
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{ |
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z->_mp_alloc = (int)n; |
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z->_mp_size = 0; |
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z->_mp_d = (mp_limb_t*)p; |
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} |
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static inline void clearC(Unit *x) |
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{ |
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local::clearArray(x, 0, N); |
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} |
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static inline void copyC(Unit *y, const Unit *x) |
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{ |
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local::copyArray(y, x, N); |
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} |
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static inline void addC(Unit *z, const Unit *x, const Unit *y, const Unit *p) |
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{ |
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Unit ret[N + 2]; // not N + 1
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mpz_t mz, mx, my, mp; |
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set_zero(mz, ret, N + 2); |
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set_mpz_t(mx, x); |
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set_mpz_t(my, y); |
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set_mpz_t(mp, p); |
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mpz_add(mz, mx, my); |
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if (mpz_cmp(mz, mp) >= 0) { |
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mpz_sub(mz, mz, mp); |
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} |
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local::toArray(z, N, mz); |
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} |
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static inline void subC(Unit *z, const Unit *x, const Unit *y, const Unit *p) |
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{ |
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Unit ret[N + 1]; |
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mpz_t mz, mx, my; |
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set_zero(mz, ret, N + 1); |
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set_mpz_t(mx, x); |
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set_mpz_t(my, y); |
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mpz_sub(mz, mx, my); |
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if (mpz_sgn(mz) < 0) { |
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mpz_t mp; |
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set_mpz_t(mp, p); |
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mpz_add(mz, mz, mp); |
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} |
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local::toArray(z, N, mz); |
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} |
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static inline void mulPreC(Unit *z, const Unit *x, const Unit *y) |
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{ |
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mpz_t mx, my, mz; |
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set_zero(mz, z, N * 2); |
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set_mpz_t(mx, x); |
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set_mpz_t(my, y); |
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mpz_mul(mz, mx, my); |
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local::toArray(z, N * 2, mz); |
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} |
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// x[N * 2] -> y[N]
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static inline void modC(Unit *y, const Unit *x, const Unit *p) |
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{ |
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mpz_t mx, my, mp; |
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set_mpz_t(mx, x, N * 2); |
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set_mpz_t(my, y); |
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set_mpz_t(mp, p); |
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mpz_mod(my, mx, mp); |
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local::clearArray(y, my->_mp_size, N); |
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} |
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static inline void invC(Unit *y, const Unit *x, const Unit *p) |
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{ |
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mpz_class my; |
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mpz_t mx, mp; |
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set_mpz_t(mx, x); |
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set_mpz_t(mp, p); |
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mpz_invert(my.get_mpz_t(), mx, mp); |
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local::toArray(y, N, my.get_mpz_t()); |
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} |
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static inline bool isZeroC(const Unit *x) |
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{ |
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return local::isZeroArray(x, N); |
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} |
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static inline void negC(Unit *y, const Unit *x, const Unit *p) |
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{ |
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if (isZeroC(x)) { |
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if (x != y) clearC(y); |
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return; |
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} |
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subC(y, p, x, p); |
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} |
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}; |
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inline void initOp(Op& op, size_t bitN, const fp::Unit*) |
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{ |
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typedef fp::Unit Unit; |
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assert(sizeof(mp_limb_t) == sizeof(Unit)); |
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const size_t UnitBitN = sizeof(Unit) * 8; |
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if (bitN <= 128) { |
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op.N = 128 / UnitBitN; |
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op.isZero = OpeFunc<128>::isZeroC; |
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op.clear = OpeFunc<128>::clearC; |
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op.copy = OpeFunc<128>::copyC; |
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op.negG = OpeFunc<128>::negC; |
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op.invG = OpeFunc<128>::invC; |
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op.addG = OpeFunc<128>::addC; |
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op.subG = OpeFunc<128>::subC; |
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op.mulPreG = OpeFunc<128>::mulPreC; |
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op.modG = OpeFunc<128>::modC; |
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#ifdef MCL_USE_LLVM |
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op.addG = mcl_fp_add128S; |
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op.subG = mcl_fp_sub128S; |
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op.mulPreG = mcl_fp_mulPre128; |
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#endif |
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} else |
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#if CYBOZU_OS_BIT == 32 |
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if (bitN <= 160) { |
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op.N = 160 / UnitBitN; |
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op.isZero = OpeFunc<160>::isZeroC; |
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op.clear = OpeFunc<160>::clearC; |
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op.copy = OpeFunc<160>::copyC; |
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op.negG = OpeFunc<160>::negC; |
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op.invG = OpeFunc<160>::invC; |
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op.addG = OpeFunc<160>::addC; |
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op.subG = OpeFunc<160>::subC; |
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op.mulPreG = OpeFunc<160>::mulPreC; |
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op.modG = OpeFunc<160>::modC; |
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#ifdef MCL_USE_LLVM |
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op.addG = mcl_fp_add160S; |
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op.subG = mcl_fp_sub160S; |
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op.mulPreG = mcl_fp_mulPre160; |
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#endif |
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} else |
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#endif |
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if (bitN <= 192) { |
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op.N = 192 / UnitBitN; |
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op.isZero = OpeFunc<192>::isZeroC; |
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op.clear = OpeFunc<192>::clearC; |
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op.copy = OpeFunc<192>::copyC; |
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op.negG = OpeFunc<192>::negC; |
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op.invG = OpeFunc<192>::invC; |
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op.addG = OpeFunc<192>::addC; |
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op.subG = OpeFunc<192>::subC; |
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op.mulPreG = OpeFunc<192>::mulPreC; |
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op.modG = OpeFunc<192>::modC; |
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#ifdef MCL_USE_LLVM |
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op.addG = mcl_fp_add192S; |
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op.subG = mcl_fp_sub192S; |
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op.mulPreG = mcl_fp_mulPre192; |
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#endif |
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} else |
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#if CYBOZU_OS_BIT == 32 |
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if (bitN <= 224) { |
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op.N = 224 / UnitBitN; |
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op.isZero = OpeFunc<224>::isZeroC; |
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op.clear = OpeFunc<224>::clearC; |
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op.copy = OpeFunc<224>::copyC; |
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op.negG = OpeFunc<224>::negC; |
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op.invG = OpeFunc<224>::invC; |
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op.addG = OpeFunc<224>::addC; |
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op.subG = OpeFunc<224>::subC; |
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op.mulPreG = OpeFunc<224>::mulPreC; |
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op.modG = OpeFunc<224>::modC; |
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#ifdef MCL_USE_LLVM |
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op.addG = mcl_fp_add224S; |
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op.subG = mcl_fp_sub224S; |
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op.mulPreG = mcl_fp_mulPre224; |
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#endif |
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} else |
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#endif |
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if (bitN <= 256) { |
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op.N = 256 / UnitBitN; |
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op.isZero = OpeFunc<256>::isZeroC; |
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op.clear = OpeFunc<256>::clearC; |
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op.copy = OpeFunc<256>::copyC; |
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op.negG = OpeFunc<256>::negC; |
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op.invG = OpeFunc<256>::invC; |
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op.addG = OpeFunc<256>::addC; |
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op.subG = OpeFunc<256>::subC; |
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op.mulPreG = OpeFunc<256>::mulPreC; |
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op.modG = OpeFunc<256>::modC; |
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#ifdef MCL_USE_LLVM |
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op.addG = mcl_fp_add256S; |
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op.subG = mcl_fp_sub256S; |
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op.mulPreG = mcl_fp_mulPre256; |
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#endif |
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} else |
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if (bitN <= 384) { |
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op.N = 384 / UnitBitN; |
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op.isZero = OpeFunc<384>::isZeroC; |
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op.clear = OpeFunc<384>::clearC; |
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op.copy = OpeFunc<384>::copyC; |
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op.negG = OpeFunc<384>::negC; |
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op.invG = OpeFunc<384>::invC; |
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op.addG = OpeFunc<384>::addC; |
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op.subG = OpeFunc<384>::subC; |
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op.mulPreG = OpeFunc<384>::mulPreC; |
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op.modG = OpeFunc<384>::modC; |
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#ifdef MCL_USE_LLVM |
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op.addG = mcl_fp_add384S; |
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op.subG = mcl_fp_sub384S; |
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op.mulPreG = mcl_fp_mulPre384; |
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#endif |
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} else |
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#if CYBOZU_OS_BIT == 64 |
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if (bitN <= 576) { |
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op.N = 576 / UnitBitN; |
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op.isZero = OpeFunc<576>::isZeroC; |
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op.clear = OpeFunc<576>::clearC; |
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op.copy = OpeFunc<576>::copyC; |
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op.negG = OpeFunc<576>::negC; |
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op.invG = OpeFunc<576>::invC; |
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op.addG = OpeFunc<576>::addC; |
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op.subG = OpeFunc<576>::subC; |
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op.mulPreG = OpeFunc<576>::mulPreC; |
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op.modG = OpeFunc<576>::modC; |
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#ifdef MCL_USE_LLVM |
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op.addG = mcl_fp_add576S; |
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op.subG = mcl_fp_sub576S; |
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op.mulPreG = mcl_fp_mulPre576; |
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#endif |
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} |
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#else |
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if (bitN <= 544) { |
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op.N = 544 / UnitBitN; |
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op.isZero = OpeFunc<544>::isZeroC; |
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op.clear = OpeFunc<544>::clearC; |
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op.copy = OpeFunc<544>::copyC; |
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op.negG = OpeFunc<544>::negC; |
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op.invG = OpeFunc<544>::invC; |
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op.addG = OpeFunc<544>::addC; |
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op.subG = OpeFunc<544>::subC; |
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op.mulPreG = OpeFunc<544>::mulPreC; |
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op.modG = OpeFunc<544>::modC; |
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#ifdef MCL_USE_LLVM |
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op.addG = mcl_fp_add544S; |
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op.subG = mcl_fp_sub544S; |
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op.mulPreG = mcl_fp_mulPre544; |
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#endif |
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} |
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#endif |
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#ifdef MCL_USE_LLVM |
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if (op.mp == mpz_class("0xfffffffffffffffffffffffffffffffeffffffffffffffff")) { |
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op.mul = &mcl_fp_mul_NIST_P192; // slower than MontFp192
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} |
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#endif |
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} |
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#ifdef USE_MONT_FP |
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template<class tag, size_t bitN> |
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MITSUNARI Shigeo
10 years ago