Annotation of OpenXM_contrib/gmp/mpfr/mul.c, Revision 1.1.1.1
1.1 maekawa 1: /* mpfr_mul -- multiply two floating-point numbers
2:
3: Copyright (C) 1999 PolKA project, Inria Lorraine and Loria
4:
5: This file is part of the MPFR Library.
6:
7: The MPFR 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 MPFR 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 MPFR 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 <stdio.h>
23: #include "gmp.h"
24: #include "gmp-impl.h"
25: #include "mpfr.h"
26:
27: /* Remains to do:
28: - do not use all bits of b and c when PREC(b)>PREC(a) or PREC(c)>PREC(a)
29: [current complexity is O(PREC(b)*PREC(c))]
30: */
31:
32: void
33: #if __STDC__
34: mpfr_mul(mpfr_ptr a, mpfr_srcptr b, mpfr_srcptr c, unsigned char rnd_mode)
35: #else
36: mpfr_mul(a, b, c, rnd_mode)
37: mpfr_ptr a;
38: mpfr_srcptr b;
39: mpfr_srcptr c;
40: unsigned char rnd_mode;
41: #endif
42: {
43: unsigned int bn, cn, an, tn, k; int cc;
44: mp_limb_t *ap=MANT(a), *bp=MANT(b), *cp=MANT(c), *tmp, b1;
45: long int sign_product;
46: TMP_DECL(marker);
47:
48: /* deal with NaN and zero */
49: if (FLAG_NAN(b) || FLAG_NAN(c)) { SET_NAN(a); return; }
50: if (!NOTZERO(b) || !NOTZERO(c)) { SET_ZERO(a); return; }
51:
52: sign_product = SIGN(b) * SIGN(c);
53: bn = (PREC(b)-1)/mp_bits_per_limb+1; /* number of significant limbs of b */
54: cn = (PREC(c)-1)/mp_bits_per_limb+1; /* number of significant limbs of c */
55: tn = (PREC(c)+PREC(b)-1)/mp_bits_per_limb+1;
56: k = bn+cn; /* effective nb of limbs used by b*c */
57: TMP_MARK(marker);
58: tmp = (mp_limb_t*) TMP_ALLOC(k*BYTES_PER_MP_LIMB);
59:
60: /* multiplies two mantissa in temporary allocated space */
61: b1 = (bn>=cn) ? mpn_mul(tmp, bp, bn, cp, cn) : mpn_mul(tmp, cp, cn, bp, bn);
62:
63: /* now tmp[0]..tmp[k-1] contains the product of both mantissa,
64: with tmp[k-1]>=2^(mp_bits_per_limb-2) */
65: an = (PREC(a)-1)/mp_bits_per_limb+1; /* number of significant limbs of a */
66: b1 >>= mp_bits_per_limb-1; /* msb from the product */
67:
68: if (b1==0) mpn_lshift(tmp, tmp, k, 1);
69: cc = mpfr_round_raw(ap, tmp+bn+cn-tn,
70: PREC(b)+PREC(c), (sign_product<0), PREC(a), rnd_mode);
71: if (cc) { /* cc = 1 ==> result is a power of two */
72: ap[an-1] = (mp_limb_t) 1 << (BITS_PER_MP_LIMB-1);
73: }
74: EXP(a) = EXP(b) + EXP(c) + b1 - 1 + cc;
75: if (sign_product * SIGN(a)<0) CHANGE_SIGN(a);
76: TMP_FREE(marker);
77: return;
78: }
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