2008-06-25 03:33:36 -04:00
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/* mpn_mul_basecase -- Internal routine to multiply two natural numbers
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of length m and n.
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THIS IS AN INTERNAL FUNCTION WITH A MUTABLE INTERFACE. IT IS ONLY
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SAFE TO REACH THIS FUNCTION THROUGH DOCUMENTED INTERFACES.
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Copyright 1991, 1992, 1993, 1994, 1996, 1997, 2000, 2001, 2002 Free Software
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Foundation, Inc.
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This file is part of the GNU MP Library.
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The GNU MP Library is free software; you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation; either version 2.1 of the License, or (at your
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option) any later version.
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The GNU MP Library is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
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License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with the GNU MP Library; see the file COPYING.LIB. If not, write to
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the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
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MA 02110-1301, USA. */
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2009-02-12 05:24:24 -05:00
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#include "mpir.h"
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2008-06-25 03:33:36 -04:00
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#include "gmp-impl.h"
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/* Multiply {up,usize} by {vp,vsize} and write the result to
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{prodp,usize+vsize}. Must have usize>=vsize.
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Note that prodp gets usize+vsize limbs stored, even if the actual result
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only needs usize+vsize-1.
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There's no good reason to call here with vsize>=MUL_KARATSUBA_THRESHOLD.
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Currently this is allowed, but it might not be in the future.
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This is the most critical code for multiplication. All multiplies rely
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on this, both small and huge. Small ones arrive here immediately, huge
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ones arrive here as this is the base case for Karatsuba's recursive
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algorithm. */
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void
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mpn_mul_basecase (mp_ptr rp,
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mp_srcptr up, mp_size_t un,
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mp_srcptr vp, mp_size_t vn)
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{
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ASSERT (un >= vn);
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ASSERT (vn >= 1);
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ASSERT (! MPN_OVERLAP_P (rp, un+vn, up, un));
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ASSERT (! MPN_OVERLAP_P (rp, un+vn, vp, vn));
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/* We first multiply by the low order limb (or depending on optional function
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availability, limbs). This result can be stored, not added, to rp. We
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also avoid a loop for zeroing this way. */
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#if HAVE_NATIVE_mpn_mul_2
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if (vn >= 2)
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{
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rp[un + 1] = mpn_mul_2 (rp, up, un, vp);
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rp += 2, vp += 2, vn -= 2;
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}
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else
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{
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rp[un] = mpn_mul_1 (rp, up, un, vp[0]);
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return;
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}
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#else
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rp[un] = mpn_mul_1 (rp, up, un, vp[0]);
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rp += 1, vp += 1, vn -= 1;
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#endif
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/* Now accumulate the product of up[] and the next higher limb (or depending
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on optional function availability, limbs) from vp[]. */
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#define MAX_LEFT MP_SIZE_T_MAX /* Used to simplify loops into if statements */
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#if HAVE_NATIVE_mpn_addmul_6
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while (vn >= 6)
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{
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rp[un + 6 - 1] = mpn_addmul_6 (rp, up, un, vp);
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if (MAX_LEFT == 6)
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return;
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rp += 6, vp += 6, vn -= 6;
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if (MAX_LEFT < 2 * 6)
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break;
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}
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#undef MAX_LEFT
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#define MAX_LEFT (6 - 1)
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#endif
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#if HAVE_NATIVE_mpn_addmul_5
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while (vn >= 5)
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{
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rp[un + 5 - 1] = mpn_addmul_5 (rp, up, un, vp);
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if (MAX_LEFT == 5)
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return;
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rp += 5, vp += 5, vn -= 5;
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if (MAX_LEFT < 2 * 5)
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break;
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}
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#undef MAX_LEFT
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#define MAX_LEFT (5 - 1)
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#endif
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#if HAVE_NATIVE_mpn_addmul_4
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while (vn >= 4)
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{
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rp[un + 4 - 1] = mpn_addmul_4 (rp, up, un, vp);
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if (MAX_LEFT == 4)
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return;
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rp += 4, vp += 4, vn -= 4;
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if (MAX_LEFT < 2 * 4)
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break;
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}
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#undef MAX_LEFT
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#define MAX_LEFT (4 - 1)
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#endif
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#if HAVE_NATIVE_mpn_addmul_3
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while (vn >= 3)
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{
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rp[un + 3 - 1] = mpn_addmul_3 (rp, up, un, vp);
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if (MAX_LEFT == 3)
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return;
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rp += 3, vp += 3, vn -= 3;
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if (MAX_LEFT < 2 * 3)
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break;
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}
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#undef MAX_LEFT
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#define MAX_LEFT (3 - 1)
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#endif
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#if HAVE_NATIVE_mpn_addmul_2
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while (vn >= 2)
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{
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rp[un + 2 - 1] = mpn_addmul_2 (rp, up, un, vp);
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if (MAX_LEFT == 2)
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return;
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rp += 2, vp += 2, vn -= 2;
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if (MAX_LEFT < 2 * 2)
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break;
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}
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#undef MAX_LEFT
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#define MAX_LEFT (2 - 1)
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#endif
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while (vn >= 1)
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{
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rp[un] = mpn_addmul_1 (rp, up, un, vp[0]);
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if (MAX_LEFT == 1)
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return;
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rp += 1, vp += 1, vn -= 1;
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}
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}
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