/* Copyright 2012, 2014, Free Software Foundation, Inc. This file is part of the GNU MP Library test suite. The GNU MP Library test suite is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. The GNU MP Library test suite 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 General Public License for more details. You should have received a copy of the GNU General Public License along with the GNU MP Library test suite. If not, see https://www.gnu.org/licenses/. */ #include #include #include #include "testutils.h" #define MAXBITS 400 #define COUNT 9000 /* Called when s is supposed to be floor(sqrt(u)), and r = u - s^2 */ static int sqrtrem_valid_p (const mpz_t u, const mpz_t s, const mpz_t r) { mpz_t t; mpz_init (t); mpz_mul (t, s, s); mpz_sub (t, u, t); if (mpz_sgn (t) < 0 || mpz_cmp (t, r) != 0) { mpz_clear (t); return 0; } mpz_add_ui (t, s, 1); mpz_mul (t, t, t); if (mpz_cmp (t, u) <= 0) { mpz_clear (t); return 0; } mpz_clear (t); return 1; } void mpz_mpn_sqrtrem (mpz_t s, mpz_t r, const mpz_t u) { mp_limb_t *sp, *rp; mp_size_t un, sn, ret; un = mpz_size (u); mpz_xor (s, s, u); sn = (un + 1) / 2; sp = mpz_limbs_write (s, sn + 1); sp [sn] = 11; if (un & 1) rp = NULL; /* Exploits the fact that r already is correct. */ else { mpz_add (r, u, s); rp = mpz_limbs_write (r, un + 1); rp [un] = 19; } ret = mpn_sqrtrem (sp, rp, mpz_limbs_read (u), un); if (sp [sn] != 11) { fprintf (stderr, "mpn_sqrtrem buffer overrun on sp.\n"); abort (); } if (un & 1) { if ((ret != 0) != (mpz_size (r) != 0)) { fprintf (stderr, "mpn_sqrtrem wrong return value with NULL.\n"); abort (); } } else { mpz_limbs_finish (r, ret); if ((size_t) ret != mpz_size (r)) { fprintf (stderr, "mpn_sqrtrem wrong return value.\n"); abort (); } if (rp [un] != 19) { fprintf (stderr, "mpn_sqrtrem buffer overrun on rp.\n"); abort (); } } mpz_limbs_finish (s, (un + 1) / 2); } void testmain (int argc, char **argv) { unsigned i; mpz_t u, s, r; mpz_init (s); mpz_init (r); mpz_init_set_si (u, -1); if (mpz_perfect_square_p (u)) { fprintf (stderr, "mpz_perfect_square_p failed on -1.\n"); abort (); } if (!mpz_perfect_square_p (s)) { fprintf (stderr, "mpz_perfect_square_p failed on 0.\n"); abort (); } for (i = 0; i < COUNT; i++) { mini_rrandomb (u, MAXBITS - (i & 0xFF)); mpz_sqrtrem (s, r, u); if (!sqrtrem_valid_p (u, s, r)) { fprintf (stderr, "mpz_sqrtrem failed:\n"); dump ("u", u); dump ("sqrt", s); dump ("rem", r); abort (); } mpz_mpn_sqrtrem (s, r, u); if (!sqrtrem_valid_p (u, s, r)) { fprintf (stderr, "mpn_sqrtrem failed:\n"); dump ("u", u); dump ("sqrt", s); dump ("rem", r); abort (); } if (mpz_sgn (r) == 0) { mpz_neg (u, u); mpz_sub_ui (u, u, 1); } if ((mpz_sgn (u) <= 0 || (i & 1)) ? mpz_perfect_square_p (u) : mpn_perfect_square_p (mpz_limbs_read (u), mpz_size (u))) { fprintf (stderr, "mp%s_perfect_square_p failed on non square:\n", (mpz_sgn (u) <= 0 || (i & 1)) ? "z" : "n"); dump ("u", u); abort (); } mpz_mul (u, s, s); if (!((mpz_sgn (u) <= 0 || (i & 1)) ? mpz_perfect_square_p (u) : mpn_perfect_square_p (mpz_limbs_read (u), mpz_size (u)))) { fprintf (stderr, "mp%s_perfect_square_p failed on square:\n", (mpz_sgn (u) <= 0 || (i & 1)) ? "z" : "n"); dump ("u", u); abort (); } } mpz_clear (u); mpz_clear (s); mpz_clear (r); }