/* * Division Algorithm * (C) 1999-2007 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include namespace Botan { namespace { /* * Handle signed operands, if necessary */ void sign_fixup(const BigInt& x, const BigInt& y, BigInt& q, BigInt& r) { if(x.sign() == BigInt::Negative) { q.flip_sign(); if(r.is_nonzero()) { --q; r = y.abs() - r; } } if(y.sign() == BigInt::Negative) q.flip_sign(); } } /* * Solve x = q * y + r */ void divide(const BigInt& x, const BigInt& y_arg, BigInt& q, BigInt& r) { if(y_arg.is_zero()) throw BigInt::DivideByZero(); BigInt y = y_arg; const u32bit y_words = y.sig_words(); r = x; r.set_sign(BigInt::Positive); y.set_sign(BigInt::Positive); s32bit compare = r.cmp(y); if(compare < 0) q = 0; else if(compare == 0) { q = 1; r = 0; } else { u32bit shifts = 0; word y_top = y[y.sig_words()-1]; while(y_top < MP_WORD_TOP_BIT) { y_top <<= 1; ++shifts; } y <<= shifts; r <<= shifts; const u32bit n = r.sig_words() - 1, t = y_words - 1; q.get_reg().create(n - t + 1); if(n <= t) { while(r > y) { r -= y; ++q; } r >>= shifts; sign_fixup(x, y_arg, q, r); return; } BigInt temp = y << (MP_WORD_BITS * (n-t)); while(r >= temp) { r -= temp; ++q[n-t]; } for(u32bit j = n; j != t; --j) { const word x_j0 = r.word_at(j); const word x_j1 = r.word_at(j-1); const word y_t = y.word_at(t); if(x_j0 == y_t) q[j-t-1] = MP_WORD_MAX; else q[j-t-1] = bigint_divop(x_j0, x_j1, y_t); while(bigint_divcore(q[j-t-1], y_t, y.word_at(t-1), x_j0, x_j1, r.word_at(j-2))) --q[j-t-1]; r -= (q[j-t-1] * y) << (MP_WORD_BITS * (j-t-1)); if(r.is_negative()) { r += y << (MP_WORD_BITS * (j-t-1)); --q[j-t-1]; } } r >>= shifts; } sign_fixup(x, y_arg, q, r); } }