xref: /dflybsd-src/contrib/gmp/mpq/mul.c (revision 86d7f5d305c6adaa56ff4582ece9859d73106103) 
186d7f5d3SJohn Marino /* mpq_mul -- multiply two rational numbers.
286d7f5d3SJohn Marino 
386d7f5d3SJohn Marino Copyright 1991, 1994, 1995, 1996, 2000, 2001, 2002 Free Software Foundation,
486d7f5d3SJohn Marino Inc.
586d7f5d3SJohn Marino 
686d7f5d3SJohn Marino This file is part of the GNU MP Library.
786d7f5d3SJohn Marino 
886d7f5d3SJohn Marino The GNU MP Library is free software; you can redistribute it and/or modify
986d7f5d3SJohn Marino it under the terms of the GNU Lesser General Public License as published by
1086d7f5d3SJohn Marino the Free Software Foundation; either version 3 of the License, or (at your
1186d7f5d3SJohn Marino option) any later version.
1286d7f5d3SJohn Marino 
1386d7f5d3SJohn Marino The GNU MP Library is distributed in the hope that it will be useful, but
1486d7f5d3SJohn Marino WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
1586d7f5d3SJohn Marino or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public
1686d7f5d3SJohn Marino License for more details.
1786d7f5d3SJohn Marino 
1886d7f5d3SJohn Marino You should have received a copy of the GNU Lesser General Public License
1986d7f5d3SJohn Marino along with the GNU MP Library.  If not, see http://www.gnu.org/licenses/.  */
2086d7f5d3SJohn Marino 
2186d7f5d3SJohn Marino #include "gmp.h"
2286d7f5d3SJohn Marino #include "gmp-impl.h"
2386d7f5d3SJohn Marino 
2486d7f5d3SJohn Marino 
2586d7f5d3SJohn Marino void
mpq_mul(mpq_ptr prod,mpq_srcptr op1,mpq_srcptr op2)2686d7f5d3SJohn Marino mpq_mul (mpq_ptr prod, mpq_srcptr op1, mpq_srcptr op2)
2786d7f5d3SJohn Marino {
2886d7f5d3SJohn Marino   mpz_t gcd1, gcd2;
2986d7f5d3SJohn Marino   mpz_t tmp1, tmp2;
3086d7f5d3SJohn Marino   mp_size_t op1_num_size;
3186d7f5d3SJohn Marino   mp_size_t op1_den_size;
3286d7f5d3SJohn Marino   mp_size_t op2_num_size;
3386d7f5d3SJohn Marino   mp_size_t op2_den_size;
3486d7f5d3SJohn Marino   mp_size_t alloc;
3586d7f5d3SJohn Marino   TMP_DECL;
3686d7f5d3SJohn Marino 
3786d7f5d3SJohn Marino   if (op1 == op2)
3886d7f5d3SJohn Marino     {
3986d7f5d3SJohn Marino       /* No need for any GCDs when squaring. */
4086d7f5d3SJohn Marino       mpz_mul (mpq_numref (prod), mpq_numref (op1), mpq_numref (op1));
4186d7f5d3SJohn Marino       mpz_mul (mpq_denref (prod), mpq_denref (op1), mpq_denref (op1));
4286d7f5d3SJohn Marino       return;
4386d7f5d3SJohn Marino     }
4486d7f5d3SJohn Marino 
4586d7f5d3SJohn Marino   op1_num_size = ABS (op1->_mp_num._mp_size);
4686d7f5d3SJohn Marino   op1_den_size =      op1->_mp_den._mp_size;
4786d7f5d3SJohn Marino   op2_num_size = ABS (op2->_mp_num._mp_size);
4886d7f5d3SJohn Marino   op2_den_size =      op2->_mp_den._mp_size;
4986d7f5d3SJohn Marino 
5086d7f5d3SJohn Marino   if (op1_num_size == 0 || op2_num_size == 0)
5186d7f5d3SJohn Marino     {
5286d7f5d3SJohn Marino       /* We special case this to simplify allocation logic; gcd(0,x) = x
5386d7f5d3SJohn Marino 	 is a singular case for the allocations.  */
5486d7f5d3SJohn Marino       prod->_mp_num._mp_size = 0;
5586d7f5d3SJohn Marino       prod->_mp_den._mp_d[0] = 1;
5686d7f5d3SJohn Marino       prod->_mp_den._mp_size = 1;
5786d7f5d3SJohn Marino       return;
5886d7f5d3SJohn Marino     }
5986d7f5d3SJohn Marino 
6086d7f5d3SJohn Marino   TMP_MARK;
6186d7f5d3SJohn Marino 
6286d7f5d3SJohn Marino   alloc = MIN (op1_num_size, op2_den_size);
6386d7f5d3SJohn Marino   MPZ_TMP_INIT (gcd1, alloc);
6486d7f5d3SJohn Marino 
6586d7f5d3SJohn Marino   alloc = MIN (op2_num_size, op1_den_size);
6686d7f5d3SJohn Marino   MPZ_TMP_INIT (gcd2, alloc);
6786d7f5d3SJohn Marino 
6886d7f5d3SJohn Marino   alloc = MAX (op1_num_size, op2_den_size);
6986d7f5d3SJohn Marino   MPZ_TMP_INIT (tmp1, alloc);
7086d7f5d3SJohn Marino 
7186d7f5d3SJohn Marino   alloc = MAX (op2_num_size, op1_den_size);
7286d7f5d3SJohn Marino   MPZ_TMP_INIT (tmp2, alloc);
7386d7f5d3SJohn Marino 
7486d7f5d3SJohn Marino   /* PROD might be identical to either operand, so don't store the result there
7586d7f5d3SJohn Marino      until we are finished with the input operands.  We can overwrite the
7686d7f5d3SJohn Marino      numerator of PROD when we are finished with the numerators of OP1 and
7786d7f5d3SJohn Marino      OP2.  */
7886d7f5d3SJohn Marino 
7986d7f5d3SJohn Marino   mpz_gcd (gcd1, &(op1->_mp_num), &(op2->_mp_den));
8086d7f5d3SJohn Marino   mpz_gcd (gcd2, &(op2->_mp_num), &(op1->_mp_den));
8186d7f5d3SJohn Marino 
8286d7f5d3SJohn Marino   mpz_divexact_gcd (tmp1, &(op1->_mp_num), gcd1);
8386d7f5d3SJohn Marino   mpz_divexact_gcd (tmp2, &(op2->_mp_num), gcd2);
8486d7f5d3SJohn Marino 
8586d7f5d3SJohn Marino   mpz_mul (&(prod->_mp_num), tmp1, tmp2);
8686d7f5d3SJohn Marino 
8786d7f5d3SJohn Marino   mpz_divexact_gcd (tmp1, &(op2->_mp_den), gcd1);
8886d7f5d3SJohn Marino   mpz_divexact_gcd (tmp2, &(op1->_mp_den), gcd2);
8986d7f5d3SJohn Marino 
9086d7f5d3SJohn Marino   mpz_mul (&(prod->_mp_den), tmp1, tmp2);
9186d7f5d3SJohn Marino 
9286d7f5d3SJohn Marino   TMP_FREE;
9386d7f5d3SJohn Marino }
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