2008-06-25 03:33:36 -04:00
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/* mpf_mul_ui -- Multiply a float and an unsigned integer.
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Copyright 1993, 1994, 1996, 2001, 2003, 2004 Free Software 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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#include "longlong.h"
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/* The core operation is a multiply of PREC(r) limbs from u by v, producing
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either PREC(r) or PREC(r)+1 result limbs. If u is shorter than PREC(r),
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then we take only as much as it has. If u is longer we incorporate a
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carry from the lower limbs.
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If u has just 1 extra limb, then the carry to add is high(up[0]*v). That
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is of course what mpn_mul_1 would do if it was called with PREC(r)+1
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limbs of input.
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If u has more than 1 extra limb, then there can be a further carry bit
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out of lower uncalculated limbs (the way the low of one product adds to
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the high of the product below it). This is of course what an mpn_mul_1
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would do if it was called with the full u operand. But we instead work
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downwards explicitly, until a carry occurs or until a value other than
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GMP_NUMB_MAX occurs (that being the only value a carry bit can propagate
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across).
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The carry determination normally requires two umul_ppmm's, only rarely
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will GMP_NUMB_MAX occur and require further products.
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The carry limb is conveniently added into the mul_1 using mpn_mul_1c when
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that function exists, otherwise a subsequent mpn_add_1 is needed.
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Clearly when mpn_mul_1c is used the carry must be calculated first. But
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this is also the case when add_1 is used, since if r==u and ABSIZ(r) >
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PREC(r) then the mpn_mul_1 overwrites the low part of the input.
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A reuse r==u with size > prec can occur from a size PREC(r)+1 in the
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usual way, or it can occur from an mpf_set_prec_raw leaving a bigger
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sized value. In both cases we can end up calling mpn_mul_1 with
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overlapping src and dst regions, but this will be with dst < src and such
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an overlap is permitted.
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Not done:
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No attempt is made to determine in advance whether the result will be
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PREC(r) or PREC(r)+1 limbs. If it's going to be PREC(r)+1 then we could
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take one less limb from u and generate just PREC(r), that of course
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satisfying application requested precision. But any test counting bits
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or forming the high product would almost certainly take longer than the
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incremental cost of an extra limb in mpn_mul_1.
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Enhancements:
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Repeated mpf_mul_ui's with an even v will accumulate low zero bits on the
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result, leaving low zero limbs after a while, which it might be nice to
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strip to save work in subsequent operations. Calculating the low limb
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explicitly would let us direct mpn_mul_1 to put the balance at rp when
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the low is zero (instead of normally rp+1). But it's not clear whether
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this would be worthwhile. Explicit code for the low limb will probably
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be slower than having it done in mpn_mul_1, so we need to consider how
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often a zero will be stripped and how much that's likely to save
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later. */
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void
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2011-12-16 14:47:56 -05:00
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mpf_mul_ui (mpf_ptr r, mpf_srcptr u, gmp_ui v)
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2008-06-25 03:33:36 -04:00
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{
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mp_srcptr up;
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mp_size_t usize;
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mp_size_t size;
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mp_size_t prec, excess;
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mp_limb_t cy_limb, vl, cbit, cin;
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mp_ptr rp;
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usize = u->_mp_size;
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if (UNLIKELY (v == 0) || UNLIKELY (usize == 0))
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{
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r->_mp_size = 0;
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r->_mp_exp = 0;
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return;
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}
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2011-12-16 14:47:56 -05:00
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#if BITS_PER_UI > GMP_NUMB_BITS /* avoid warnings about shift amount */
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if (v > GMP_NUMB_MAX)
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{
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mpf_t vf;
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mp_limb_t vp[2];
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vp[0] = v & GMP_NUMB_MASK;
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vp[1] = v >> GMP_NUMB_BITS;
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PTR(vf) = vp;
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SIZ(vf) = 2;
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ASSERT_CODE (PREC(vf) = 2);
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EXP(vf) = 2;
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mpf_mul (r, u, vf);
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return;
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}
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#endif
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size = ABS (usize);
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prec = r->_mp_prec;
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up = u->_mp_d;
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vl = v;
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excess = size - prec;
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cin = 0;
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if (excess > 0)
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{
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/* up is bigger than desired rp, shorten it to prec limbs and
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determine a carry-in */
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mp_limb_t vl_shifted = vl << GMP_NAIL_BITS;
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mp_limb_t hi, lo, next_lo, sum;
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mp_size_t i;
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/* high limb of top product */
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i = excess - 1;
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umul_ppmm (cin, lo, up[i], vl_shifted);
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/* and carry bit out of products below that, if any */
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for (;;)
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{
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i--;
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if (i < 0)
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break;
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umul_ppmm (hi, next_lo, up[i], vl_shifted);
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lo >>= GMP_NAIL_BITS;
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ADDC_LIMB (cbit, sum, hi, lo);
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cin += cbit;
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lo = next_lo;
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/* Continue only if the sum is GMP_NUMB_MAX. GMP_NUMB_MAX is the
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only value a carry from below can propagate across. If we've
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just seen the carry out (ie. cbit!=0) then sum!=GMP_NUMB_MAX,
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so this test stops us for that case too. */
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if (LIKELY (sum != GMP_NUMB_MAX))
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break;
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}
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up += excess;
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size = prec;
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}
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rp = r->_mp_d;
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#if HAVE_NATIVE_mpn_mul_1c
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cy_limb = mpn_mul_1c (rp, up, size, vl, cin);
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#else
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cy_limb = mpn_mul_1 (rp, up, size, vl);
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__GMPN_ADD_1 (cbit, rp, rp, size, cin);
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cy_limb += cbit;
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#endif
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rp[size] = cy_limb;
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cy_limb = cy_limb != 0;
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r->_mp_exp = u->_mp_exp + cy_limb;
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size += cy_limb;
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r->_mp_size = usize >= 0 ? size : -size;
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}
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