/* Test that routines allow reusing a source variable as destination. Test all relevant functions except: mpz_bin_ui mpz_nextprime mpz_mul_si mpz_addmul_ui (should this really allow a+=a*c?) Copyright 1996, 1999-2002, 2009, 2012, 2013 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 #include "gmp.h" #include "gmp-impl.h" #include "tests.h" #if __GMP_LIBGMP_DLL /* FIXME: When linking to a DLL libgmp, mpz_add etc can't be used as initializers for global variables because they're effectively global variables (function pointers) themselves. Perhaps calling a test function successively with mpz_add etc would be better. */ int main (void) { printf ("Test suppressed for windows DLL\n"); exit (0); } #else /* ! DLL_EXPORT */ void dump (const char *, mpz_t, mpz_t, mpz_t); typedef void (*dss_func) (mpz_ptr, mpz_srcptr, mpz_srcptr); typedef void (*dsi_func) (mpz_ptr, mpz_srcptr, unsigned long int); typedef unsigned long int (*dsi_div_func) (mpz_ptr, mpz_srcptr, unsigned long int); typedef unsigned long int (*ddsi_div_func) (mpz_ptr, mpz_ptr, mpz_srcptr, unsigned long int); typedef void (*ddss_div_func) (mpz_ptr, mpz_ptr, mpz_srcptr, mpz_srcptr); typedef void (*ds_func) (mpz_ptr, mpz_srcptr); void mpz_xinvert (mpz_ptr r, mpz_srcptr a, mpz_srcptr b) { int res; res = mpz_invert (r, a, b); if (res == 0) mpz_set_ui (r, 0); } struct { dss_func fptr; const char *fname; int isdivision; int isslow; } static dss[] = { { mpz_add, "mpz_add", 0, 0 }, { mpz_sub, "mpz_sub", 0, 0 }, { mpz_mul, "mpz_mul", 0, 0 }, { mpz_cdiv_q, "mpz_cdiv_q", 1, 0 }, { mpz_cdiv_r, "mpz_cdiv_r", 1, 0 }, { mpz_fdiv_q, "mpz_fdiv_q", 1, 0 }, { mpz_fdiv_r, "mpz_fdiv_r", 1, 0 }, { mpz_tdiv_q, "mpz_tdiv_q", 1, 0 }, { mpz_tdiv_r, "mpz_tdiv_r", 1, 0 }, { mpz_mod, "mpz_mod", 1, 0 }, { mpz_xinvert, "mpz_xinvert", 1, 1 }, { mpz_gcd, "mpz_gcd", 0, 1 }, { mpz_lcm, "mpz_lcm", 0, 1 }, { mpz_and, "mpz_and", 0, 0 }, { mpz_ior, "mpz_ior", 0, 0 }, { mpz_xor, "mpz_xor", 0, 0 } }; struct { dsi_func fptr; const char *fname; int mod; } static dsi[] = { /* Don't change order here without changing the code in main(). */ { mpz_add_ui, "mpz_add_ui", 0 }, { mpz_mul_ui, "mpz_mul_ui", 0 }, { mpz_sub_ui, "mpz_sub_ui", 0 }, { mpz_fdiv_q_2exp, "mpz_fdiv_q_2exp", 0x1000 }, { mpz_fdiv_r_2exp, "mpz_fdiv_r_2exp", 0x1000 }, { mpz_cdiv_q_2exp, "mpz_cdiv_q_2exp", 0x1000 }, { mpz_cdiv_r_2exp, "mpz_cdiv_r_2exp", 0x1000 }, { mpz_tdiv_q_2exp, "mpz_tdiv_q_2exp", 0x1000 }, { mpz_tdiv_r_2exp, "mpz_tdiv_r_2exp", 0x1000 }, { mpz_mul_2exp, "mpz_mul_2exp", 0x100 }, { mpz_pow_ui, "mpz_pow_ui", 0x10 } }; struct { dsi_div_func fptr; const char *fname; } static dsi_div[] = { { mpz_cdiv_q_ui, "mpz_cdiv_q_ui" }, { mpz_cdiv_r_ui, "mpz_cdiv_r_ui" }, { mpz_fdiv_q_ui, "mpz_fdiv_q_ui" }, { mpz_fdiv_r_ui, "mpz_fdiv_r_ui" }, { mpz_tdiv_q_ui, "mpz_tdiv_q_ui" }, { mpz_tdiv_r_ui, "mpz_tdiv_r_ui" } }; struct { ddsi_div_func fptr; const char *fname; int isslow; } static ddsi_div[] = { { mpz_cdiv_qr_ui, "mpz_cdiv_qr_ui", 0 }, { mpz_fdiv_qr_ui, "mpz_fdiv_qr_ui", 0 }, { mpz_tdiv_qr_ui, "mpz_tdiv_qr_ui", 0 }, }; struct { ddss_div_func fptr; const char *fname; int isslow; } static ddss_div[] = { { mpz_cdiv_qr, "mpz_cdiv_qr", 0 }, { mpz_fdiv_qr, "mpz_fdiv_qr", 0 }, { mpz_tdiv_qr, "mpz_tdiv_qr", 0 }, }; struct { ds_func fptr; const char *fname; int nonneg; } static ds[] = { { mpz_abs, "mpz_abs", 0 }, { mpz_com, "mpz_com", 0 }, { mpz_neg, "mpz_neg", 0 }, { mpz_sqrt, "mpz_sqrt", 1 }, }; #define FAIL(class,indx,op1,op2,op3) \ do { \ dump (class[indx].fname, op1, op2, op3); \ exit (1); \ } while (0) #define FAIL2(fname,op1,op2,op3) \ do { \ dump (#fname, op1, op2, op3); \ exit (1); \ } while (0) #define INVOKE_RRS(desc,r1,r2,i1) \ do { \ if (pass & 1) _mpz_realloc (r1, ABSIZ(r1)); \ if (pass & 2) _mpz_realloc (r2, ABSIZ(r2)); \ (desc).fptr (r1, r2, i1); \ } while (0) #define INVOKE_RS(desc,r1,i1) \ do { \ if (pass & 1) _mpz_realloc (r1, ABSIZ(r1)); \ (desc).fptr (r1, i1); \ } while (0) #define INVOKE_RRSS(desc,r1,r2,i1,i2) \ do { \ if (pass & 1) _mpz_realloc (r1, ABSIZ(r1)); \ if (pass & 2) _mpz_realloc (r2, ABSIZ(r2)); \ (desc).fptr (r1, r2, i1, i2); \ } while (0) #define INVOKE_RSS(desc,r1,i1,i2) \ do { \ if (pass & 1) _mpz_realloc (r1, ABSIZ(r1)); \ (desc).fptr (r1, i1, i2); \ } while (0) int main (int argc, char **argv) { int i; int pass, reps = 400; mpz_t in1, in2, in3; unsigned long int in2i; mp_size_t size; mpz_t res1, res2, res3; mpz_t ref1, ref2, ref3; mpz_t t; unsigned long int r1, r2; gmp_randstate_ptr rands; mpz_t bs; unsigned long bsi, size_range; tests_start (); TESTS_REPS (reps, argv, argc); rands = RANDS; mpz_init (bs); mpz_init (in1); mpz_init (in2); mpz_init (in3); mpz_init (ref1); mpz_init (ref2); mpz_init (ref3); mpz_init (res1); mpz_init (res2); mpz_init (res3); mpz_init (t); for (pass = 1; pass <= reps; pass++) { if (isatty (fileno (stdout))) { printf ("\r%d/%d passes", pass, reps); fflush (stdout); } mpz_urandomb (bs, rands, 32); size_range = mpz_get_ui (bs) % 21 + 2; if ((pass & 1) == 0) { /* Make all input operands have quite different sizes */ mpz_urandomb (bs, rands, 32); size = mpz_get_ui (bs) % size_range; mpz_rrandomb (in1, rands, size); mpz_urandomb (bs, rands, 32); size = mpz_get_ui (bs) % size_range; mpz_rrandomb (in2, rands, size); mpz_urandomb (bs, rands, 32); size = mpz_get_ui (bs) % size_range; mpz_rrandomb (in3, rands, size); } else { /* Make all input operands have about the same size */ mpz_urandomb (bs, rands, size_range); size = mpz_get_ui (bs); mpz_rrandomb (in1, rands, size); mpz_urandomb (bs, rands, size_range); size = mpz_get_ui (bs); mpz_rrandomb (in2, rands, size); mpz_urandomb (bs, rands, size_range); size = mpz_get_ui (bs); mpz_rrandomb (in3, rands, size); } mpz_urandomb (bs, rands, 3); bsi = mpz_get_ui (bs); if ((bsi & 1) != 0) mpz_neg (in1, in1); if ((bsi & 2) != 0) mpz_neg (in2, in2); if ((bsi & 4) != 0) mpz_neg (in3, in3); for (i = 0; i < numberof (dss); i++) { if (dss[i].isdivision && mpz_sgn (in2) == 0) continue; if (dss[i].isslow && size_range > 19) continue; (dss[i].fptr) (ref1, in1, in2); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, in1); INVOKE_RSS (dss[i], res1, res1, in2); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL (dss, i, in1, in2, NULL); mpz_set (res1, in2); INVOKE_RSS (dss[i], res1, in1, res1); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL (dss, i, in1, in2, NULL); } for (i = 0; i < numberof (ddss_div); i++) { if (mpz_sgn (in2) == 0) continue; (ddss_div[i].fptr) (ref1, ref2, in1, in2); MPZ_CHECK_FORMAT (ref1); MPZ_CHECK_FORMAT (ref2); mpz_set (res1, in1); INVOKE_RRSS (ddss_div[i], res1, res2, res1, in2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0) FAIL (ddss_div, i, in1, in2, NULL); mpz_set (res2, in1); INVOKE_RRSS (ddss_div[i], res1, res2, res2, in2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0) FAIL (ddss_div, i, in1, in2, NULL); mpz_set (res1, in2); INVOKE_RRSS (ddss_div[i], res1, res2, in1, res1); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0) FAIL (ddss_div, i, in1, in2, NULL); mpz_set (res2, in2); INVOKE_RRSS (ddss_div[i], res1, res2, in1, res2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0) FAIL (ddss_div, i, in1, in2, NULL); } for (i = 0; i < numberof (ds); i++) { if (ds[i].nonneg && mpz_sgn (in1) < 0) continue; (ds[i].fptr) (ref1, in1); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, in1); INVOKE_RS (ds[i], res1, res1); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL (ds, i, in1, in2, NULL); } in2i = mpz_get_ui (in2); for (i = 0; i < numberof (dsi); i++) { if (dsi[i].mod != 0) in2i = mpz_get_ui (in2) % dsi[i].mod; (dsi[i].fptr) (ref1, in1, in2i); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, in1); INVOKE_RRS (dsi[i], res1, res1, in2i); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL (dsi, i, in1, in2, NULL); } if (in2i != 0) /* Don't divide by 0. */ { for (i = 0; i < numberof (dsi_div); i++) { r1 = (dsi_div[i].fptr) (ref1, in1, in2i); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, in1); r2 = (dsi_div[i].fptr) (res1, res1, in2i); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0 || r1 != r2) FAIL (dsi_div, i, in1, in2, NULL); } for (i = 0; i < numberof (ddsi_div); i++) { r1 = (ddsi_div[i].fptr) (ref1, ref2, in1, in2i); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, in1); r2 = (ddsi_div[i].fptr) (res1, res2, res1, in2i); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || r1 != r2) FAIL (ddsi_div, i, in1, in2, NULL); mpz_set (res2, in1); (ddsi_div[i].fptr) (res1, res2, res2, in2i); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || r1 != r2) FAIL (ddsi_div, i, in1, in2, NULL); } } if (mpz_sgn (in1) >= 0) { mpz_sqrtrem (ref1, ref2, in1); MPZ_CHECK_FORMAT (ref1); MPZ_CHECK_FORMAT (ref2); mpz_set (res1, in1); mpz_sqrtrem (res1, res2, res1); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0) FAIL2 (mpz_sqrtrem, in1, NULL, NULL); mpz_set (res2, in1); mpz_sqrtrem (res1, res2, res2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0) FAIL2 (mpz_sqrtrem, in1, NULL, NULL); mpz_set (res1, in1); mpz_sqrtrem (res1, res1, res1); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref2, res1) != 0) FAIL2 (mpz_sqrtrem, in1, NULL, NULL); } if (mpz_sgn (in1) >= 0) { mpz_root (ref1, in1, in2i % 0x100 + 1); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, in1); mpz_root (res1, res1, in2i % 0x100 + 1); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_root, in1, in2, NULL); } if (mpz_sgn (in1) >= 0) { mpz_rootrem (ref1, ref2, in1, in2i % 0x100 + 1); MPZ_CHECK_FORMAT (ref1); MPZ_CHECK_FORMAT (ref2); mpz_set (res1, in1); mpz_rootrem (res1, res2, res1, in2i % 0x100 + 1); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0) FAIL2 (mpz_rootrem, in1, in2, NULL); mpz_set (res2, in1); mpz_rootrem (res1, res2, res2, in2i % 0x100 + 1); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0) FAIL2 (mpz_rootrem, in1, in2, NULL); } if (size_range < 18) /* run fewer tests since gcdext is slow */ { mpz_gcdext (ref1, ref2, ref3, in1, in2); MPZ_CHECK_FORMAT (ref1); MPZ_CHECK_FORMAT (ref2); MPZ_CHECK_FORMAT (ref3); mpz_set (res1, in1); mpz_gcdext (res1, res2, res3, res1, in2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); MPZ_CHECK_FORMAT (res3); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || mpz_cmp (ref3, res3) != 0) FAIL2 (mpz_gcdext, in1, in2, NULL); mpz_set (res2, in1); mpz_gcdext (res1, res2, res3, res2, in2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); MPZ_CHECK_FORMAT (res3); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || mpz_cmp (ref3, res3) != 0) FAIL2 (mpz_gcdext, in1, in2, NULL); mpz_set (res3, in1); mpz_gcdext (res1, res2, res3, res3, in2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); MPZ_CHECK_FORMAT (res3); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || mpz_cmp (ref3, res3) != 0) FAIL2 (mpz_gcdext, in1, in2, NULL); mpz_set (res1, in2); mpz_gcdext (res1, res2, res3, in1, res1); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); MPZ_CHECK_FORMAT (res3); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || mpz_cmp (ref3, res3) != 0) FAIL2 (mpz_gcdext, in1, in2, NULL); mpz_set (res2, in2); mpz_gcdext (res1, res2, res3, in1, res2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); MPZ_CHECK_FORMAT (res3); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || mpz_cmp (ref3, res3) != 0) FAIL2 (mpz_gcdext, in1, in2, NULL); mpz_set (res3, in2); mpz_gcdext (res1, res2, res3, in1, res3); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); MPZ_CHECK_FORMAT (res3); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || mpz_cmp (ref3, res3) != 0) FAIL2 (mpz_gcdext, in1, in2, NULL); mpz_set (res1, in1); mpz_gcdext (res1, res2, NULL, res1, in2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || mpz_cmp (ref3, res3) != 0) FAIL2 (mpz_gcdext, in1, in2, NULL); mpz_set (res2, in1); mpz_gcdext (res1, res2, NULL, res2, in2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || mpz_cmp (ref3, res3) != 0) FAIL2 (mpz_gcdext, in1, in2, NULL); mpz_set (res1, in2); mpz_gcdext (res1, res2, NULL, in1, res1); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || mpz_cmp (ref3, res3) != 0) FAIL2 (mpz_gcdext, in1, in2, NULL); mpz_set (res2, in2); mpz_gcdext (res1, res2, NULL, in1, res2); MPZ_CHECK_FORMAT (res1); MPZ_CHECK_FORMAT (res2); if (mpz_cmp (ref1, res1) != 0 || mpz_cmp (ref2, res2) != 0 || mpz_cmp (ref3, res3) != 0) FAIL2 (mpz_gcdext, in1, in2, NULL); } /* Don't run mpz_powm for huge exponents or when undefined. */ if (size_range < 17 && mpz_sizeinbase (in2, 2) < 250 && mpz_sgn (in3) != 0 && (mpz_sgn (in2) >= 0 || mpz_invert (t, in1, in3))) { mpz_powm (ref1, in1, in2, in3); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, in1); mpz_powm (res1, res1, in2, in3); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_powm, in1, in2, in3); mpz_set (res1, in2); mpz_powm (res1, in1, res1, in3); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_powm, in1, in2, in3); mpz_set (res1, in3); mpz_powm (res1, in1, in2, res1); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_powm, in1, in2, in3); } /* Don't run mpz_powm_ui when undefined. */ if (size_range < 17 && mpz_sgn (in3) != 0) { mpz_powm_ui (ref1, in1, in2i, in3); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, in1); mpz_powm_ui (res1, res1, in2i, in3); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_powm_ui, in1, in2, in3); mpz_set (res1, in3); mpz_powm_ui (res1, in1, in2i, res1); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_powm_ui, in1, in2, in3); } { r1 = mpz_gcd_ui (ref1, in1, in2i); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, in1); r2 = mpz_gcd_ui (res1, res1, in2i); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_gcd_ui, in1, in2, NULL); } if (mpz_sgn (in2) != 0) { /* Test mpz_remove */ mp_bitcnt_t refretval, retval; refretval = mpz_remove (ref1, in1, in2); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, in1); retval = mpz_remove (res1, res1, in2); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0 || refretval != retval) FAIL2 (mpz_remove, in1, in2, NULL); mpz_set (res1, in2); retval = mpz_remove (res1, in1, res1); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0 || refretval != retval) FAIL2 (mpz_remove, in1, in2, NULL); } if (mpz_sgn (in2) != 0) { /* Test mpz_divexact */ mpz_mul (t, in1, in2); mpz_divexact (ref1, t, in2); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, t); mpz_divexact (res1, res1, in2); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_divexact, t, in2, NULL); mpz_set (res1, in2); mpz_divexact (res1, t, res1); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_divexact, t, in2, NULL); } if (mpz_sgn (in2) > 0) { /* Test mpz_divexact_gcd, same as mpz_divexact */ mpz_mul (t, in1, in2); mpz_divexact_gcd (ref1, t, in2); MPZ_CHECK_FORMAT (ref1); mpz_set (res1, t); mpz_divexact_gcd (res1, res1, in2); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_divexact_gcd, t, in2, NULL); mpz_set (res1, in2); mpz_divexact_gcd (res1, t, res1); MPZ_CHECK_FORMAT (res1); if (mpz_cmp (ref1, res1) != 0) FAIL2 (mpz_divexact_gcd, t, in2, NULL); } } if (isatty (fileno (stdout))) printf ("\r%20s", ""); mpz_clear (bs); mpz_clear (in1); mpz_clear (in2); mpz_clear (in3); mpz_clear (ref1); mpz_clear (ref2); mpz_clear (ref3); mpz_clear (res1); mpz_clear (res2); mpz_clear (res3); mpz_clear (t); if (isatty (fileno (stdout))) printf ("\r"); tests_end (); exit (0); } void dump (const char *name, mpz_t in1, mpz_t in2, mpz_t in3) { printf ("failure in %s (", name); 0 && mpz_out_str (stdout, -16, in1); if (in2 != NULL) { printf (" "); 0 && mpz_out_str (stdout, -16, in2); } if (in3 != NULL) { printf (" "); 0 && mpz_out_str (stdout, -16, in3); } printf (")\n"); } #endif /* ! DLL_EXPORT */