/* Test mpz_perfect_power_p. Contributed to the GNU project by Torbjorn Granlund and Martin Boij. Copyright 2008-2010 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 "gmp.h" #include "gmp-impl.h" #include "tests.h" struct { const char *num_as_str; char want; } tests[] = { { "0", 1}, { "1", 1}, {"-1", 1}, { "2", 0}, {"-2", 0}, { "3", 0}, {"-3", 0}, { "4", 1}, {"-4", 0}, { "64", 1}, {"-64", 1}, { "128", 1}, {"-128", 1}, { "256", 1}, {"-256", 0}, { "512", 1}, {"-512", 1}, { "0x4000000", 1}, {"-0x4000000", 1}, { "0x3cab640", 1}, {"-0x3cab640", 0}, { "0x3e23840", 1}, {"-0x3e23840", 0}, { "0x3d3a7ed1", 1}, {"-0x3d3a7ed1", 1}, { "0x30a7a6000", 1}, {"-0x30a7a6000", 1}, { "0xf33e5a5a59", 1}, {"-0xf33e5a5a59", 0}, { "0xed1b1182118135d", 1}, {"-0xed1b1182118135d", 1}, { "0xe71f6eb7689cc276b2f1", 1}, {"-0xe71f6eb7689cc276b2f1", 0}, { "0x12644507fe78cf563a4b342c92e7da9fe5e99cb75a01", 1}, {"-0x12644507fe78cf563a4b342c92e7da9fe5e99cb75a01", 0}, { "0x1ff2e7c581bb0951df644885bd33f50e472b0b73a204e13cbe98fdb424d66561e4000000", 1}, {"-0x1ff2e7c581bb0951df644885bd33f50e472b0b73a204e13cbe98fdb424d66561e4000000", 1}, { "0x2b9b44db2d91a6f8165c8c7339ef73633228ea29e388592e80354e4380004aad84000000", 1}, {"-0x2b9b44db2d91a6f8165c8c7339ef73633228ea29e388592e80354e4380004aad84000000", 1}, { "0x28d5a2b8f330910a9d3cda06036ae0546442e5b1a83b26a436efea5b727bf1bcbe7e12b47d81", 1}, {"-0x28d5a2b8f330910a9d3cda06036ae0546442e5b1a83b26a436efea5b727bf1bcbe7e12b47d81", 1}, {NULL, 0} }; void check_tests () { mpz_t x; int i; int got, want; mpz_init (x); for (i = 0; tests[i].num_as_str != NULL; i++) { mpz_set_str (x, tests[i].num_as_str, 0); got = mpz_perfect_power_p (x); want = tests[i].want; if (got != want) { fprintf (stderr, "mpz_perfect_power_p returns %d when %d was expected\n", got, want); fprintf (stderr, "fault operand: %s\n", tests[i].num_as_str); abort (); } } mpz_clear (x); } #define NRP 15 void check_random (int reps) { mpz_t n, np, temp, primes[NRP]; int i, j, k, unique, destroy, res; unsigned long int nrprimes, primebits; mp_limb_t g, exp[NRP], e; gmp_randstate_ptr rands; rands = RANDS; mpz_init (n); mpz_init (np); mpz_init (temp); for (i = 0; i < NRP; i++) mpz_init (primes[i]); for (i = 0; i < reps; i++) { mpz_urandomb (np, rands, 32); nrprimes = mpz_get_ui (np) % NRP + 1; /* 1-NRP unique primes */ mpz_urandomb (np, rands, 32); g = mpz_get_ui (np) % 32 + 2; /* gcd 2-33 */ for (j = 0; j < nrprimes;) { mpz_urandomb (np, rands, 32); primebits = mpz_get_ui (np) % 100 + 3; /* 3-102 bit primes */ mpz_urandomb (primes[j], rands, primebits); mpz_nextprime (primes[j], primes[j]); unique = 1; for (k = 0; k < j; k++) { if (mpz_cmp (primes[j], primes[k]) == 0) { unique = 0; break; } } if (unique) { mpz_urandomb (np, rands, 32); e = 371 / (10 * primebits) + mpz_get_ui (np) % 11 + 1; /* Magic constants */ exp[j++] = g * e; } } if (nrprimes > 1) { /* Destroy d exponents, d in [1, nrprimes - 1] */ if (nrprimes == 2) { destroy = 1; } else { mpz_urandomb (np, rands, 32); destroy = mpz_get_ui (np) % (nrprimes - 2) + 1; } g = exp[destroy]; for (k = destroy + 1; k < nrprimes; k++) g = mpn_gcd_1 (&g, 1, exp[k]); for (j = 0; j < destroy; j++) { mpz_urandomb (np, rands, 32); e = mpz_get_ui (np) % 50 + 1; while (mpn_gcd_1 (&g, 1, e) > 1) e++; exp[j] = e; } } /* Compute n */ mpz_pow_ui (n, primes[0], exp[0]); for (j = 1; j < nrprimes; j++) { mpz_pow_ui (temp, primes[j], exp[j]); mpz_mul (n, n, temp); } res = mpz_perfect_power_p (n); if (nrprimes == 1) { if (res == 0 && exp[0] > 1) { printf("n is a perfect power, perfpow_p disagrees\n"); gmp_printf("n = %Zu\nprimes[0] = %Zu\nexp[0] = %lu\n", n, primes[0], exp[0]); abort (); } else if (res == 1 && exp[0] == 1) { gmp_printf("n = %Zu\n", n); printf("n is now a prime number, but perfpow_p still believes n is a perfect power\n"); abort (); } } else { if (res == 1) { gmp_printf("n = %Zu\nn was destroyed, but perfpow_p still believes n is a perfect power\n", n); abort (); } } } mpz_clear (n); mpz_clear (np); mpz_clear (temp); for (i = 0; i < NRP; i++) mpz_clear (primes[i]); } int main (int argc, char **argv) { int n_tests; tests_start (); mp_trace_base = -16; check_tests (); n_tests = 500; if (argc == 2) n_tests = atoi (argv[1]); check_random (n_tests); tests_end (); exit (0); }