Annotation of OpenXM_contrib/gmp/mpn/generic/mul.c, Revision 1.1
1.1 ! maekawa 1: /* mpn_mul -- Multiply two natural numbers.
! 2:
! 3: Copyright (C) 1991, 1993, 1994, 1996 Free Software Foundation, Inc.
! 4:
! 5: This file is part of the GNU MP Library.
! 6:
! 7: The GNU MP Library is free software; you can redistribute it and/or modify
! 8: it under the terms of the GNU Library General Public License as published by
! 9: the Free Software Foundation; either version 2 of the License, or (at your
! 10: option) any later version.
! 11:
! 12: The GNU MP Library is distributed in the hope that it will be useful, but
! 13: WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
! 14: or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public
! 15: License for more details.
! 16:
! 17: You should have received a copy of the GNU Library General Public License
! 18: along with the GNU MP Library; see the file COPYING.LIB. If not, write to
! 19: the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
! 20: MA 02111-1307, USA. */
! 21:
! 22: #include "gmp.h"
! 23: #include "gmp-impl.h"
! 24:
! 25: /* Multiply the natural numbers u (pointed to by UP, with USIZE limbs)
! 26: and v (pointed to by VP, with VSIZE limbs), and store the result at
! 27: PRODP. USIZE + VSIZE limbs are always stored, but if the input
! 28: operands are normalized. Return the most significant limb of the
! 29: result.
! 30:
! 31: NOTE: The space pointed to by PRODP is overwritten before finished
! 32: with U and V, so overlap is an error.
! 33:
! 34: Argument constraints:
! 35: 1. USIZE >= VSIZE.
! 36: 2. PRODP != UP and PRODP != VP, i.e. the destination
! 37: must be distinct from the multiplier and the multiplicand. */
! 38:
! 39: /* If KARATSUBA_THRESHOLD is not already defined, define it to a
! 40: value which is good on most machines. */
! 41: #ifndef KARATSUBA_THRESHOLD
! 42: #define KARATSUBA_THRESHOLD 32
! 43: #endif
! 44:
! 45: mp_limb_t
! 46: #if __STDC__
! 47: mpn_mul (mp_ptr prodp,
! 48: mp_srcptr up, mp_size_t usize,
! 49: mp_srcptr vp, mp_size_t vsize)
! 50: #else
! 51: mpn_mul (prodp, up, usize, vp, vsize)
! 52: mp_ptr prodp;
! 53: mp_srcptr up;
! 54: mp_size_t usize;
! 55: mp_srcptr vp;
! 56: mp_size_t vsize;
! 57: #endif
! 58: {
! 59: mp_ptr prod_endp = prodp + usize + vsize - 1;
! 60: mp_limb_t cy;
! 61: mp_ptr tspace;
! 62: TMP_DECL (marker);
! 63:
! 64: if (vsize < KARATSUBA_THRESHOLD)
! 65: {
! 66: /* Handle simple cases with traditional multiplication.
! 67:
! 68: This is the most critical code of the entire function. All
! 69: multiplies rely on this, both small and huge. Small ones arrive
! 70: here immediately. Huge ones arrive here as this is the base case
! 71: for Karatsuba's recursive algorithm below. */
! 72: mp_size_t i;
! 73: mp_limb_t cy_limb;
! 74: mp_limb_t v_limb;
! 75:
! 76: if (vsize == 0)
! 77: return 0;
! 78:
! 79: /* Multiply by the first limb in V separately, as the result can be
! 80: stored (not added) to PROD. We also avoid a loop for zeroing. */
! 81: v_limb = vp[0];
! 82: if (v_limb <= 1)
! 83: {
! 84: if (v_limb == 1)
! 85: MPN_COPY (prodp, up, usize);
! 86: else
! 87: MPN_ZERO (prodp, usize);
! 88: cy_limb = 0;
! 89: }
! 90: else
! 91: cy_limb = mpn_mul_1 (prodp, up, usize, v_limb);
! 92:
! 93: prodp[usize] = cy_limb;
! 94: prodp++;
! 95:
! 96: /* For each iteration in the outer loop, multiply one limb from
! 97: U with one limb from V, and add it to PROD. */
! 98: for (i = 1; i < vsize; i++)
! 99: {
! 100: v_limb = vp[i];
! 101: if (v_limb <= 1)
! 102: {
! 103: cy_limb = 0;
! 104: if (v_limb == 1)
! 105: cy_limb = mpn_add_n (prodp, prodp, up, usize);
! 106: }
! 107: else
! 108: cy_limb = mpn_addmul_1 (prodp, up, usize, v_limb);
! 109:
! 110: prodp[usize] = cy_limb;
! 111: prodp++;
! 112: }
! 113: return cy_limb;
! 114: }
! 115:
! 116: TMP_MARK (marker);
! 117:
! 118: tspace = (mp_ptr) TMP_ALLOC (2 * vsize * BYTES_PER_MP_LIMB);
! 119: MPN_MUL_N_RECURSE (prodp, up, vp, vsize, tspace);
! 120:
! 121: prodp += vsize;
! 122: up += vsize;
! 123: usize -= vsize;
! 124: if (usize >= vsize)
! 125: {
! 126: mp_ptr tp = (mp_ptr) TMP_ALLOC (2 * vsize * BYTES_PER_MP_LIMB);
! 127: do
! 128: {
! 129: MPN_MUL_N_RECURSE (tp, up, vp, vsize, tspace);
! 130: cy = mpn_add_n (prodp, prodp, tp, vsize);
! 131: mpn_add_1 (prodp + vsize, tp + vsize, vsize, cy);
! 132: prodp += vsize;
! 133: up += vsize;
! 134: usize -= vsize;
! 135: }
! 136: while (usize >= vsize);
! 137: }
! 138:
! 139: /* True: usize < vsize. */
! 140:
! 141: /* Make life simple: Recurse. */
! 142:
! 143: if (usize != 0)
! 144: {
! 145: mpn_mul (tspace, vp, vsize, up, usize);
! 146: cy = mpn_add_n (prodp, prodp, tspace, vsize);
! 147: mpn_add_1 (prodp + vsize, tspace + vsize, usize, cy);
! 148: }
! 149:
! 150: TMP_FREE (marker);
! 151: return *prod_endp;
! 152: }
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