xref: /dragonfly/contrib/gmp/mpq/mul.c (revision 86d7f5d3) 
1*86d7f5d3SJohn Marino /* mpq_mul -- multiply two rational numbers.
2*86d7f5d3SJohn Marino 
3*86d7f5d3SJohn Marino Copyright 1991, 1994, 1995, 1996, 2000, 2001, 2002 Free Software Foundation,
4*86d7f5d3SJohn Marino Inc.
5*86d7f5d3SJohn Marino 
6*86d7f5d3SJohn Marino This file is part of the GNU MP Library.
7*86d7f5d3SJohn Marino 
8*86d7f5d3SJohn Marino The GNU MP Library is free software; you can redistribute it and/or modify
9*86d7f5d3SJohn Marino it under the terms of the GNU Lesser General Public License as published by
10*86d7f5d3SJohn Marino the Free Software Foundation; either version 3 of the License, or (at your
11*86d7f5d3SJohn Marino option) any later version.
12*86d7f5d3SJohn Marino 
13*86d7f5d3SJohn Marino The GNU MP Library is distributed in the hope that it will be useful, but
14*86d7f5d3SJohn Marino WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
15*86d7f5d3SJohn Marino or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public
16*86d7f5d3SJohn Marino License for more details.
17*86d7f5d3SJohn Marino 
18*86d7f5d3SJohn Marino You should have received a copy of the GNU Lesser General Public License
19*86d7f5d3SJohn Marino along with the GNU MP Library.  If not, see http://www.gnu.org/licenses/.  */
20*86d7f5d3SJohn Marino 
21*86d7f5d3SJohn Marino #include "gmp.h"
22*86d7f5d3SJohn Marino #include "gmp-impl.h"
23*86d7f5d3SJohn Marino 
24*86d7f5d3SJohn Marino 
25*86d7f5d3SJohn Marino void
mpq_mul(mpq_ptr prod,mpq_srcptr op1,mpq_srcptr op2)26*86d7f5d3SJohn Marino mpq_mul (mpq_ptr prod, mpq_srcptr op1, mpq_srcptr op2)
27*86d7f5d3SJohn Marino {
28*86d7f5d3SJohn Marino   mpz_t gcd1, gcd2;
29*86d7f5d3SJohn Marino   mpz_t tmp1, tmp2;
30*86d7f5d3SJohn Marino   mp_size_t op1_num_size;
31*86d7f5d3SJohn Marino   mp_size_t op1_den_size;
32*86d7f5d3SJohn Marino   mp_size_t op2_num_size;
33*86d7f5d3SJohn Marino   mp_size_t op2_den_size;
34*86d7f5d3SJohn Marino   mp_size_t alloc;
35*86d7f5d3SJohn Marino   TMP_DECL;
36*86d7f5d3SJohn Marino 
37*86d7f5d3SJohn Marino   if (op1 == op2)
38*86d7f5d3SJohn Marino     {
39*86d7f5d3SJohn Marino       /* No need for any GCDs when squaring. */
40*86d7f5d3SJohn Marino       mpz_mul (mpq_numref (prod), mpq_numref (op1), mpq_numref (op1));
41*86d7f5d3SJohn Marino       mpz_mul (mpq_denref (prod), mpq_denref (op1), mpq_denref (op1));
42*86d7f5d3SJohn Marino       return;
43*86d7f5d3SJohn Marino     }
44*86d7f5d3SJohn Marino 
45*86d7f5d3SJohn Marino   op1_num_size = ABS (op1->_mp_num._mp_size);
46*86d7f5d3SJohn Marino   op1_den_size =      op1->_mp_den._mp_size;
47*86d7f5d3SJohn Marino   op2_num_size = ABS (op2->_mp_num._mp_size);
48*86d7f5d3SJohn Marino   op2_den_size =      op2->_mp_den._mp_size;
49*86d7f5d3SJohn Marino 
50*86d7f5d3SJohn Marino   if (op1_num_size == 0 || op2_num_size == 0)
51*86d7f5d3SJohn Marino     {
52*86d7f5d3SJohn Marino       /* We special case this to simplify allocation logic; gcd(0,x) = x
53*86d7f5d3SJohn Marino 	 is a singular case for the allocations.  */
54*86d7f5d3SJohn Marino       prod->_mp_num._mp_size = 0;
55*86d7f5d3SJohn Marino       prod->_mp_den._mp_d[0] = 1;
56*86d7f5d3SJohn Marino       prod->_mp_den._mp_size = 1;
57*86d7f5d3SJohn Marino       return;
58*86d7f5d3SJohn Marino     }
59*86d7f5d3SJohn Marino 
60*86d7f5d3SJohn Marino   TMP_MARK;
61*86d7f5d3SJohn Marino 
62*86d7f5d3SJohn Marino   alloc = MIN (op1_num_size, op2_den_size);
63*86d7f5d3SJohn Marino   MPZ_TMP_INIT (gcd1, alloc);
64*86d7f5d3SJohn Marino 
65*86d7f5d3SJohn Marino   alloc = MIN (op2_num_size, op1_den_size);
66*86d7f5d3SJohn Marino   MPZ_TMP_INIT (gcd2, alloc);
67*86d7f5d3SJohn Marino 
68*86d7f5d3SJohn Marino   alloc = MAX (op1_num_size, op2_den_size);
69*86d7f5d3SJohn Marino   MPZ_TMP_INIT (tmp1, alloc);
70*86d7f5d3SJohn Marino 
71*86d7f5d3SJohn Marino   alloc = MAX (op2_num_size, op1_den_size);
72*86d7f5d3SJohn Marino   MPZ_TMP_INIT (tmp2, alloc);
73*86d7f5d3SJohn Marino 
74*86d7f5d3SJohn Marino   /* PROD might be identical to either operand, so don't store the result there
75*86d7f5d3SJohn Marino      until we are finished with the input operands.  We can overwrite the
76*86d7f5d3SJohn Marino      numerator of PROD when we are finished with the numerators of OP1 and
77*86d7f5d3SJohn Marino      OP2.  */
78*86d7f5d3SJohn Marino 
79*86d7f5d3SJohn Marino   mpz_gcd (gcd1, &(op1->_mp_num), &(op2->_mp_den));
80*86d7f5d3SJohn Marino   mpz_gcd (gcd2, &(op2->_mp_num), &(op1->_mp_den));
81*86d7f5d3SJohn Marino 
82*86d7f5d3SJohn Marino   mpz_divexact_gcd (tmp1, &(op1->_mp_num), gcd1);
83*86d7f5d3SJohn Marino   mpz_divexact_gcd (tmp2, &(op2->_mp_num), gcd2);
84*86d7f5d3SJohn Marino 
85*86d7f5d3SJohn Marino   mpz_mul (&(prod->_mp_num), tmp1, tmp2);
86*86d7f5d3SJohn Marino 
87*86d7f5d3SJohn Marino   mpz_divexact_gcd (tmp1, &(op2->_mp_den), gcd1);
88*86d7f5d3SJohn Marino   mpz_divexact_gcd (tmp2, &(op1->_mp_den), gcd2);
89*86d7f5d3SJohn Marino 
90*86d7f5d3SJohn Marino   mpz_mul (&(prod->_mp_den), tmp1, tmp2);
91*86d7f5d3SJohn Marino 
92*86d7f5d3SJohn Marino   TMP_FREE;
93*86d7f5d3SJohn Marino }
94