mpir/tests/cxx/t-ternary.cc

/* Test mp*_class ternary expressions.

Copyright 2001, 2002, 2003 Free Software Foundation, Inc.

This file is part of the GNU MP Library.

The GNU MP Library is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or (at your
option) any later version.

The GNU MP Library is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public
License for more details.

You should have received a copy of the GNU Lesser General Public License
along with the GNU MP Library; see the file COPYING.LIB.  If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
MA 02110-1301, USA. */

#include "config.h"

#include <iostream>

#include "gmp.h"
#include "gmpxx.h"
#include "gmp-impl.h"
#include "tests.h"

using namespace std;


/* The various test cases are broken up into separate functions to keep down
   compiler memory use.  They're static so that any mistakenly omitted from
   main() will provoke warnings (under gcc -Wall at least).  */

static void
check_mpz_1 (void)
{
  // template<class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<mpz_class, __gmp_expr
  // <mpz_t, __gmp_binary_expr<mpz_class, mpz_class, Op1> >, Op2> >
  {
    mpz_class a(1), b(2), c(3);
    mpz_class d;
    d = a + b * c; ASSERT_ALWAYS(d == 7);
  }
  {
    mpz_class a(1), b(2), c(3);
    mpz_class d;
    d = a - b * c; ASSERT_ALWAYS(d == -5);
  }
}

static void
check_mpz_2 (void)
{
  // template <class T, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<mpz_class, __gmp_expr
  // <mpz_t, __gmp_binary_expr<mpz_class, T, Op1> >, Op2> >
  {
    mpz_class a(1), b(2);
    signed int c = 3;
    mpz_class d;
    d = a + b * c; ASSERT_ALWAYS(d == 7);
  }
  {
    mpz_class a(1), b(2);
    signed int c = 3;
    mpz_class d;
    d = a - b * c; ASSERT_ALWAYS(d == -5);
  }
}

static void
check_mpz_3 (void)
{
  // template <class T, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<mpz_class, __gmp_expr
  // <mpz_t, __gmp_binary_expr<T, mpz_class, Op1> >, Op2> >
  {
    mpz_class a(1), b(2);
    unsigned int c = 3;
    mpz_class d;
    d = a + c * b; ASSERT_ALWAYS(d == 7);
  }
  {
    mpz_class a(1), b(2);
    unsigned int c = 3;
    mpz_class d;
    d = a - c * b; ASSERT_ALWAYS(d == -5);
  }
}

static void
check_mpz_4 (void)
{
  // template <class T, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<mpz_class, __gmp_expr
  // <mpz_t, __gmp_binary_expr<mpz_class, __gmp_expr<mpz_t, T>, Op1> >, Op2> >
  {
    mpz_class a(1), b(2), c(3);
    double d = 4.0;
    mpz_class e;
    e = a + b * (c + d); ASSERT_ALWAYS(e == 15);
  }
  {
    mpz_class a(1), b(2), c(3);
    double d = 4.0;
    mpz_class e;
    e = a - b * (c + d); ASSERT_ALWAYS(e == -13);
  }
}

static void
check_mpz_5 (void)
{
  // template <class T, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<mpz_class, __gmp_expr
  // <mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>, mpz_class, Op1> >, Op2> >
  {
    mpz_class a(1), b(2), c(3);
    signed int d = 4;
    mpz_class e;
    e = a + (b - d) * c; ASSERT_ALWAYS(e == -5);
  }
  {
    mpz_class a(1), b(2), c(3);
    signed int d = 4;
    mpz_class e;
    e = a - (b - d) * c; ASSERT_ALWAYS(e == 7);
  }
}

static void
check_mpz_6 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<mpz_class, __gmp_expr
  // <mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>, U, Op1> >, Op2> >
  {
    mpz_class a(1), b(2);
    unsigned int c = 3, d = 4;
    mpz_class e;
    e = a + (b + c) * d; ASSERT_ALWAYS(e == 21);
  }
  {
    mpz_class a(1), b(2);
    unsigned int c = 3, d = 4;
    mpz_class e;
    e = a - (b + c) * d; ASSERT_ALWAYS(e == -19);
  }
}

static void
check_mpz_7 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<mpz_class, __gmp_expr
  // <mpz_t, __gmp_binary_expr<T, __gmp_expr<mpz_t, U>, Op1> >, Op2> >
  {
    mpz_class a(1), b(2);
    double c = 3.0, d = 4.0;
    mpz_class e;
    e = a + c * (b + d); ASSERT_ALWAYS(e == 19);
  }
  {
    mpz_class a(1), b(2);
    double c = 3.0, d = 4.0;
    mpz_class e;
    e = a - c * (b + d); ASSERT_ALWAYS(e == -17);
  }
}

static void
check_mpz_8 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<mpz_class, __gmp_expr
  // <mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>, __gmp_expr<mpz_t, U>,
  // Op1> >, Op2> >
  {
    mpz_class a(1), b(2), c(3);
    signed int d = 4, e = 5;
    mpz_class f;
    f = a + (b - d) * (c + e); ASSERT_ALWAYS(f == -15);
  }
  {
    mpz_class a(1), b(2), c(3);
    signed int d = 4, e = 5;
    mpz_class f;
    f = a - (b - d) * (c + e); ASSERT_ALWAYS(f == 17);
  }
}

static void
check_mpz_9 (void)
{
  // template <class T, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>,
  // __gmp_expr<mpz_t, __gmp_binary_expr<mpz_class, mpz_class, Op1> >, Op2> >
  {
    mpz_class a(1), b(2), c(3);
    unsigned int d = 4;
    mpz_class e;
    e = (a + d) + b * c; ASSERT_ALWAYS(e == 11);
  }
  {
    mpz_class a(1), b(2), c(3);
    unsigned int d = 4;
    mpz_class e;
    e = (a + d) - b * c; ASSERT_ALWAYS(e == -1);
  }
}

static void
check_mpz_10 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>,
  // __gmp_expr<mpz_t, __gmp_binary_expr<mpz_class, U, Op1> >, Op2> >
  {
    mpz_class a(1), b(2);
    double c = 3.0, d = 4.0;
    mpz_class e;
    e = (a - c) + b * d; ASSERT_ALWAYS(e == 6);
  }
  {
    mpz_class a(1), b(2);
    double c = 3.0, d = 4.0;
    mpz_class e;
    e = (a - c) - b * d; ASSERT_ALWAYS(e == -10);
  }
}

static void
check_mpz_11 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>,
  // __gmp_expr<mpz_t, __gmp_binary_expr<U, mpz_class, Op1> >, Op2> >
  {
    mpz_class a(1), b(2);
    signed int c = 3, d = 4;
    mpz_class e;
    e = (a - c) + d * b; ASSERT_ALWAYS(e == 6);
  }
  {
    mpz_class a(1), b(2);
    signed int c = 3, d = 4;
    mpz_class e;
    e = (a - c) - d * b; ASSERT_ALWAYS(e == -10);
  }
}

static void
check_mpz_12 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>, __gmp_expr
  // <mpz_t, __gmp_binary_expr<mpz_class, __gmp_expr<mpz_t, U>, Op1> >, Op2> >
  {
    mpz_class a(1), b(2), c(3);
    unsigned int d = 4, e = 5;
    mpz_class f;
    f = (a + d) + b * (c - e); ASSERT_ALWAYS(f == 1);
  }
  {
    mpz_class a(1), b(2), c(3);
    unsigned int d = 4, e = 5;
    mpz_class f;
    f = (a + d) - b * (c - e); ASSERT_ALWAYS(f == 9);
  }
}

static void
check_mpz_13 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>, __gmp_expr
  // <mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, U>, mpz_class, Op1> >, Op2> >
  {
    mpz_class a(1), b(2), c(3);
    double d = 4.0, e = 5.0;
    mpz_class f;
    f = (a - d) + (b + e) * c; ASSERT_ALWAYS(f == 18);
  }
  {
    mpz_class a(1), b(2), c(3);
    double d = 4.0, e = 5.0;
    mpz_class f;
    f = (a - d) - (b + e) * c; ASSERT_ALWAYS(f == -24);
  }

}

static void
check_mpz_14 (void)
{
  // template <class T, class U, class V, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>, __gmp_expr
  // <mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, U>, V, Op1> >, Op2> >
  {
    mpz_class a(1), b(2);
    signed int c = 3, d = 4, e = 5;
    mpz_class f;
    f = (a + c) + (b + d) * e; ASSERT_ALWAYS(f == 34);
  }
  {
    mpz_class a(1), b(2);
    signed int c = 3, d = 4, e = 5;
    mpz_class f;
    f = (a + c) - (b + d) * e; ASSERT_ALWAYS(f == -26);
  }
}

static void
check_mpz_15 (void)
{
  // template <class T, class U, class V, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>, __gmp_expr
  // <mpz_t, __gmp_binary_expr<U, __gmp_expr<mpz_t, V>, Op1> >, Op2> >
  {
    mpz_class a(1), b(2);
    unsigned int c = 3, d = 4, e = 5;
    mpz_class f;
    f = (a - c) + d * (b - e); ASSERT_ALWAYS(f == -14);
  }
  {
    mpz_class a(1), b(2);
    unsigned int c = 3, d = 4, e = 5;
    mpz_class f;
    f = (a - c) - d * (b - e); ASSERT_ALWAYS(f == 10);
  }

}

static void
check_mpz_16 (void)
{
  // template <class T, class U, class V, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, T>, __gmp_expr
  // <mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, U>, __gmp_expr<mpz_t, V>,
  // Op1> >, Op2> >
  {
    mpz_class a(1), b(2), c(3);
    double d = 4.0, e = 5.0, f = 6.0;
    mpz_class g;
    g = (a + d) + (b - e) * (c + f); ASSERT_ALWAYS(g == -22);
  }
  {
    mpz_class a(1), b(2), c(3);
    double d = 4.0, e = 5.0, f = 6.0;
    mpz_class g;
    g = (a + d) - (b - e) * (c + f); ASSERT_ALWAYS(g == 32);
  }
}

static void
check_mpz_17 (void)
{
  // template <class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr
  // <mpz_t, __gmp_binary_expr<mpz_class, mpz_class, Op1> >, mpz_class, Op2> >
  {
    mpz_class a(2), b(3), c(4);
    mpz_class d;
    d = a * b + c; ASSERT_ALWAYS(d == 10);
  }
  {
    mpz_class a(2), b(3), c(4);
    mpz_class d;
    d = a * b - c; ASSERT_ALWAYS(d == 2);
  }
}

static void
check_mpz_18 (void)
{
  // template <class T, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr
  // <mpz_t, __gmp_binary_expr<mpz_class, T, Op1> >, mpz_class, Op2> >
  {
    mpz_class a(2), b(3);
    signed int c = 4;
    mpz_class d;
    d = a * c + b; ASSERT_ALWAYS(d == 11);
  }
  {
    mpz_class a(2), b(3);
    signed int c = 4;
    mpz_class d;
    d = a * c - b; ASSERT_ALWAYS(d == 5);
  }

}

static void
check_mpz_19 (void)
{
  // template <class T, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr
  // <mpz_t, __gmp_binary_expr<T, mpz_class, Op1> >, mpz_class, Op2> >
  {
    mpz_class a(2), b(3);
    unsigned int c = 4;
    mpz_class d;
    d = c * a + b; ASSERT_ALWAYS(d == 11);
  }
  {
    mpz_class a(2), b(3);
    unsigned int c = 4;
    mpz_class d;
    d = c * a - b; ASSERT_ALWAYS(d == 5);
  }
}

static void
check_mpz_20 (void)
{
  // template <class T, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <mpz_class, __gmp_expr<mpz_t, T>, Op1> >, mpz_class, Op2> >
  {
    mpz_class a(2), b(3), c(4);
    double d = 5.0;
    mpz_class e;
    e = a * (b + d) + c; ASSERT_ALWAYS(e == 20);
  }
  {
    mpz_class a(2), b(3), c(4);
    double d = 5.0;
    mpz_class e;
    e = a * (b + d) - c; ASSERT_ALWAYS(e == 12);
  }
}

static void
check_mpz_21 (void)
{
  // template <class T, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <__gmp_expr<mpz_t, T>, mpz_class, Op1> >, mpz_class, Op2> >
  {
    mpz_class a(2), b(3), c(4);
    signed int d = 5;
    mpz_class e;
    e = (a - d) * b + c; ASSERT_ALWAYS(e == -5);
  }
  {
    mpz_class a(2), b(3), c(4);
    signed int d = 5;
    mpz_class e;
    e = (a - d) * b - c; ASSERT_ALWAYS(e == -13);
  }
}

static void
check_mpz_22 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <__gmp_expr<mpz_t, T>, U, Op1> >, mpz_class, Op2> >
  {
    mpz_class a(2), b(3);
    unsigned int c = 4, d = 5;
    mpz_class e;
    e = (a + c) * d + b; ASSERT_ALWAYS(e == 33);
  }
  {
    mpz_class a(2), b(3);
    unsigned int c = 4, d = 5;
    mpz_class e;
    e = (a + c) * d - b; ASSERT_ALWAYS(e == 27);
  }
}

static void
check_mpz_23 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <T, __gmp_expr<mpz_t, U>, Op1> >, mpz_class, Op2> >
  {
    mpz_class a(2), b(3);
    double c = 4.0, d = 5.0;
    mpz_class e;
    e = c * (a + d) + b; ASSERT_ALWAYS(e == 31);
  }
  {
    mpz_class a(2), b(3);
    double c = 4.0, d = 5.0;
    mpz_class e;
    e = c * (a + d) - b; ASSERT_ALWAYS(e == 25);
  }

}

static void
check_mpz_24 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <__gmp_expr<mpz_t, T>, __gmp_expr<mpz_t, U>, Op1> >, mpz_class, Op2> >
  {
    mpz_class a(2), b(3), c(4);
    signed int d = 5, e = 6;
    mpz_class f;
    f = (a - d) * (b + e) + c; ASSERT_ALWAYS(f == -23);
  }
  {
    mpz_class a(2), b(3), c(4);
    signed int d = 5, e = 6;
    mpz_class f;
    f = (a - d) * (b + e) - c; ASSERT_ALWAYS(f == -31);
  }
}

static void
check_mpz_25 (void)
{
  // template <class T, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <mpz_class, mpz_class, Op1> >, __gmp_expr<mpz_t, T>, Op2> >
  {
    mpz_class a(2), b(3), c(4);
    unsigned int d = 5;
    mpz_class e;
    e = a * b + (c - d); ASSERT_ALWAYS(e == 5);
  }
  {
    mpz_class a(2), b(3), c(4);
    unsigned int d = 5;
    mpz_class e;
    e = a * b - (c - d); ASSERT_ALWAYS(e == 7);
  }
}

static void
check_mpz_26 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <mpz_class, T, Op1> >, __gmp_expr<mpz_t, U>, Op2> >
  {
    mpz_class a(2), b(3);
    double c = 4.0, d = 5.0;
    mpz_class e;
    e = a * c + (b + d); ASSERT_ALWAYS(e == 16);
  }
  {
    mpz_class a(2), b(3);
    double c = 4.0, d = 5.0;
    mpz_class e;
    e = a * c - (b + d); ASSERT_ALWAYS(e == 0);
  }
}

static void
check_mpz_27 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <T, mpz_class, Op1> >, __gmp_expr<mpz_t, U>, Op2> >
  {
    mpz_class a(2), b(3);
    signed int c = 4, d = 5;
    mpz_class e;
    e = c * a + (b - d); ASSERT_ALWAYS(e == 6);
  }
  {
    mpz_class a(2), b(3);
    signed int c = 4, d = 5;
    mpz_class e;
    e = c * a - (b - d); ASSERT_ALWAYS(e == 10);
  }
}

static void
check_mpz_28 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <mpz_class, __gmp_expr<mpz_t, T>, Op1> >, __gmp_expr<mpz_t, U>, Op2> >
  {
    mpz_class a(2), b(3), c(4);
    unsigned int d = 5, e = 6;
    mpz_class f;
    f = a * (b - d) + (c + e); ASSERT_ALWAYS(f == 6);
  }
  {
    mpz_class a(2), b(3), c(4);
    unsigned int d = 5, e = 6;
    mpz_class f;
    f = a * (b - d) - (c + e); ASSERT_ALWAYS(f == -14);
  }
}

static void
check_mpz_29 (void)
{
  // template <class T, class U, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <__gmp_expr<mpz_t, T>, mpz_class, Op1> >, __gmp_expr<mpz_t, U>, Op2> >
  {
    mpz_class a(2), b(3), c(4);
    double d = 5.0, e = 6.0;
    mpz_class f;
    f = (a + d) * b + (c - e); ASSERT_ALWAYS(f == 19);
  }
  {
    mpz_class a(2), b(3), c(4);
    double d = 5.0, e = 6.0;
    mpz_class f;
    f = (a + d) * b - (c - e); ASSERT_ALWAYS(f == 23);
  }
}

static void
check_mpz_30 (void)
{
  // template <class T, class U, class V, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <__gmp_expr<mpz_t, T>, U, Op1> >, __gmp_expr<mpz_t, V>, Op2> >
  {
    mpz_class a(2), b(3);
    signed int c = 4, d = 5, e = 6;
    mpz_class f;
    f = (a + c) * d + (b + e); ASSERT_ALWAYS(f == 39);
  }
  {
    mpz_class a(2), b(3);
    signed int c = 4, d = 5, e = 6;
    mpz_class f;
    f = (a + c) * d - (b + e); ASSERT_ALWAYS(f == 21);
  }
}

static void
check_mpz_31 (void)
{
  // template <class T, class U, class V, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <T, __gmp_expr<mpz_t, U>, Op1> >, __gmp_expr<mpz_t, V>, Op2> >
  {
    mpz_class a(2), b(3);
    unsigned int c = 4, d = 5, e = 6;
    mpz_class f;
    f = c * (a + d) + (b - e); ASSERT_ALWAYS(f == 25);
  }
  {
    mpz_class a(2), b(3);
    unsigned int c = 4, d = 5, e = 6;
    mpz_class f;
    f = c * (a + d) - (b - e); ASSERT_ALWAYS(f == 31);
  }
}

static void
check_mpz_32 (void)
{
  // template <class T, class U, class V, class Op1, class Op2>
  // __gmp_expr<mpz_t, __gmp_binary_expr<__gmp_expr<mpz_t, __gmp_binary_expr
  // <__gmp_expr<mpz_t, T>, __gmp_expr<mpz_t, U>, Op1> >,
  // __gmp_expr<mpz_t, V>, Op2> >
  {
    mpz_class a(2), b(3), c(4);
    double d = 5.0, e = 6.0, f = 7.0;
    mpz_class g;
    g = (a + d) * (b - e) + (c + f); ASSERT_ALWAYS(g == -10);
  }
  {
    mpz_class a(2), b(3), c(4);
    double d = 5.0, e = 6.0, f = 7.0;
    mpz_class g;
    g = (a + d) * (b - e) - (c + f); ASSERT_ALWAYS(g == -32);
  }
}

void
check_mpq (void)
{
  // currently there's no ternary mpq operation
}

void
check_mpf (void)
{
  // currently there's no ternary mpf operation
}


int
main (void)
{
  tests_start();

  check_mpz_1 ();
  check_mpz_2 ();
  check_mpz_3 ();
  check_mpz_4 ();
  check_mpz_5 ();
  check_mpz_6 ();
  check_mpz_7 ();
  check_mpz_8 ();
  check_mpz_9 ();
  check_mpz_10 ();
  check_mpz_11 ();
  check_mpz_12 ();
  check_mpz_13 ();
  check_mpz_14 ();
  check_mpz_15 ();
  check_mpz_16 ();
  check_mpz_17 ();
  check_mpz_18 ();
  check_mpz_19 ();
  check_mpz_20 ();
  check_mpz_21 ();
  check_mpz_22 ();
  check_mpz_23 ();
  check_mpz_24 ();
  check_mpz_25 ();
  check_mpz_26 ();
  check_mpz_27 ();
  check_mpz_28 ();
  check_mpz_29 ();
  check_mpz_30 ();
  check_mpz_31 ();
  check_mpz_32 ();

  check_mpq();
  check_mpf();

  tests_end();
  return 0;
}