/* Generic test file for functions with one or two arguments (the second being either mpfr_t or double or unsigned long). Copyright 2001-2021 Free Software Foundation, Inc. Contributed by the AriC and Caramba projects, INRIA. This file is part of the GNU MPFR Library. The GNU MPFR 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 3 of the License, or (at your option) any later version. The GNU MPFR 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 MPFR Library; see the file COPYING.LESSER. If not, see https://www.gnu.org/licenses/ or write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. */ /* Define TWO_ARGS for two-argument functions like mpfr_pow. Define DOUBLE_ARG1 or DOUBLE_ARG2 for function with a double operand in first or second place like sub_d or d_sub. Define ULONG_ARG1 or ULONG_ARG2 for function with an unsigned long operand in first or second place like sub_ui or ui_sub. */ /* TODO: Add support for type long and extreme integer values, as done in tgeneric_ui.c; then tgeneric_ui.c could probably disappear. */ #ifndef ONE_ARG #if defined(TWO_ARGS) || defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) || \ defined(ULONG_ARG1) || defined(ULONG_ARG2) #define TWO_ARGS_ALL #endif #endif #if defined(TWO_ARGS_ALL) || defined(ULONG_ARG1) || defined(ULONG_ARG2) #define NEED_U #endif #ifndef TEST_RANDOM_POS /* For the random function: one number on two is negative. */ #define TEST_RANDOM_POS 256 #endif #ifndef TEST_RANDOM_POS2 /* For the random function: one number on two is negative. */ #define TEST_RANDOM_POS2 256 #endif #ifndef TEST_RANDOM_EMIN #define TEST_RANDOM_EMIN -256 #endif #ifndef TEST_RANDOM_EMAX #define TEST_RANDOM_EMAX 255 #endif #ifndef TEST_RANDOM_ALWAYS_SCALE #define TEST_RANDOM_ALWAYS_SCALE 0 #endif /* If the MPFR_SUSPICIOUS_OVERFLOW test fails but this is not a bug, then define TGENERIC_SO_TEST with an adequate test (possibly 0) to omit this particular case. */ #ifndef TGENERIC_SO_TEST #define TGENERIC_SO_TEST 1 #endif /* The (void *) below is needed to avoid a warning with gcc 4.2+ and functions * with 2 arguments. See . */ #define TGENERIC_FAIL(S, X, U) \ do \ { \ printf ("tgeneric: %s\nx = ", (S)); \ mpfr_dump (X);; \ if ((void *) (U) != 0) \ { \ printf ("u = "); \ mpfr_dump (U); \ } \ printf ("yprec = %u, rnd_mode = %s, inexact = %d\nflags =", \ (unsigned int) yprec, mpfr_print_rnd_mode (rnd), \ compare); \ flags_out (flags); \ exit (1); \ } \ while (0) #define TGENERIC_CHECK_AUX(S, EXPR, U) \ do \ if (!(EXPR)) \ TGENERIC_FAIL (S " for " MAKE_STR(TEST_FUNCTION), x, U); \ while (0) #undef TGENERIC_CHECK #if defined(TWO_ARGS_ALL) #define TGENERIC_CHECK(S, EXPR) TGENERIC_CHECK_AUX(S, EXPR, u) #else #define TGENERIC_CHECK(S, EXPR) TGENERIC_CHECK_AUX(S, EXPR, 0) #endif #ifdef MPFR_DEBUG_TGENERIC #define TGENERIC_IAUX(F,P,X,U) \ do \ { \ printf ("tgeneric: testing function " STR(F) \ ", %s, target prec = %lu\nx = ", \ mpfr_print_rnd_mode (rnd), (unsigned long) (P)); \ mpfr_dump (X); \ if ((void *) (U) != 0) \ { \ printf ("u = "); \ mpfr_dump (U); \ } \ } \ while (0) #undef TGENERIC_INFO #if defined(TWO_ARGS_ALL) #define TGENERIC_INFO(F,P) TGENERIC_IAUX(F,P,x,u) #else #define TGENERIC_INFO(F,P) TGENERIC_IAUX(F,P,x,0) #endif #endif /* MPFR_DEBUG_TGENERIC */ /* For some functions (for example cos), the argument reduction is too expensive when using mpfr_get_emax(). Then simply define REDUCE_EMAX to some reasonable value before including tgeneric.c. */ #ifndef REDUCE_EMAX #define REDUCE_EMAX mpfr_get_emax () #endif /* same for mpfr_get_emin() */ #ifndef REDUCE_EMIN #define REDUCE_EMIN mpfr_get_emin () #endif static void test_generic (mpfr_prec_t p0, mpfr_prec_t p1, unsigned int nmax) { mpfr_prec_t prec, xprec, yprec; mpfr_t x, y, z, t, w, yd, yu; #ifdef NEED_U mpfr_t u; #endif #if defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) double d; #endif #if defined(ULONG_ARG1) || defined(ULONG_ARG2) unsigned long i; #endif mpfr_rnd_t rnd; int inexact, compare, compare2; unsigned int n; unsigned long ctrt = 0, ctrn = 0; mpfr_exp_t old_emin, old_emax; old_emin = mpfr_get_emin (); old_emax = mpfr_get_emax (); mpfr_inits2 (MPFR_PREC_MIN, x, y, yd, yu, z, t, w, (mpfr_ptr) 0); #ifdef NEED_U mpfr_init2 (u, MPFR_PREC_MIN); #endif /* generic test */ for (prec = p0; prec <= p1; prec++) { /* Number of overflow/underflow tests for each precision. Since MPFR uses several algorithms and there may also be early overflow/underflow detection, several tests may be needed to detect a bug. */ int test_of = 3, test_uf = 3; mpfr_set_prec (z, prec); mpfr_set_prec (t, prec); yprec = prec + 10; mpfr_set_prec (y, yprec); mpfr_set_prec (yd, yprec); mpfr_set_prec (yu, yprec); mpfr_set_prec (w, yprec); #if defined(TWO_ARGS) || defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) #define NSPEC 9 #else #define NSPEC 5 #endif /* Note: in precision p1, we test NSPEC special cases. */ for (n = 0; n < (prec == p1 ? nmax + NSPEC : nmax); n++) { int infinite_input = 0; mpfr_flags_t flags; mpfr_exp_t oemin, oemax; xprec = prec; if (randlimb () & 1) { /* In half cases, modify the precision of the inputs: If the base precision (for the result) is small, take a larger input precision in general, else take a smaller precision. */ xprec *= (prec < 16 ? 256.0 : 1.0) * (double) randlimb () / (double) MPFR_LIMB_MAX; if (xprec < MPFR_PREC_MIN) xprec = MPFR_PREC_MIN; } mpfr_set_prec (x, xprec); #if defined(TWO_ARGS) mpfr_set_prec (u, xprec); #elif defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) mpfr_set_prec (u, IEEE_DBL_MANT_DIG); #elif defined(ULONG_ARG1) || defined(ULONG_ARG2) mpfr_set_prec (u, sizeof (unsigned long) * CHAR_BIT); #endif if (n >= NSPEC || prec < p1) { #if defined(RAND_FUNCTION) RAND_FUNCTION (x); #if defined(TWO_ARGS) || defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) RAND_FUNCTION (u); #endif #else /* ! defined(RAND_FUNCTION) */ tests_default_random (x, TEST_RANDOM_POS, TEST_RANDOM_EMIN, TEST_RANDOM_EMAX, TEST_RANDOM_ALWAYS_SCALE); #if defined(TWO_ARGS) || defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) tests_default_random (u, TEST_RANDOM_POS2, TEST_RANDOM_EMIN, TEST_RANDOM_EMAX, TEST_RANDOM_ALWAYS_SCALE); #endif #endif /* ! defined(RAND_FUNCTION) */ } else { /* Special cases tested in precision p1 if n < NSPEC. They are useful really in the extended exponent range. */ #if (defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2)) && defined(MPFR_ERRDIVZERO) goto next_n; #endif set_emin (MPFR_EMIN_MIN); set_emax (MPFR_EMAX_MAX); if (n == 0) { mpfr_set_nan (x); #if defined(TWO_ARGS) || defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) #if defined(RAND_FUNCTION) RAND_FUNCTION (u); #else tests_default_random (u, TEST_RANDOM_POS2, TEST_RANDOM_EMIN, TEST_RANDOM_EMAX, TEST_RANDOM_ALWAYS_SCALE); #endif #endif } else if (n <= 2) { MPFR_ASSERTN (n == 1 || n == 2); mpfr_set_si (x, n == 1 ? 1 : -1, MPFR_RNDN); mpfr_set_exp (x, REDUCE_EMIN); #if defined(TWO_ARGS) || defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) mpfr_set_si (u, randlimb () % 2 == 0 ? 1 : -1, MPFR_RNDN); mpfr_set_exp (u, REDUCE_EMIN); #endif } else if (n <= 4) { MPFR_ASSERTN (n == 3 || n == 4); mpfr_set_si (x, n == 3 ? 1 : -1, MPFR_RNDN); mpfr_setmax (x, REDUCE_EMAX); #if defined(TWO_ARGS) || defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) mpfr_set_si (u, randlimb () % 2 == 0 ? 1 : -1, MPFR_RNDN); mpfr_setmax (u, REDUCE_EMAX); #endif } #if defined(TWO_ARGS) || defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) else if (n <= 6) { MPFR_ASSERTN (n == 5 || n == 6); mpfr_set_si (x, n == 5 ? 1 : -1, MPFR_RNDN); mpfr_set_exp (x, REDUCE_EMIN); #if defined(TWO_ARGS) || defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) mpfr_set_si (u, randlimb () % 2 == 0 ? 1 : -1, MPFR_RNDN); mpfr_setmax (u, REDUCE_EMAX); #endif } else { MPFR_ASSERTN (n == 7 || n == 8); mpfr_set_si (x, n == 7 ? 1 : -1, MPFR_RNDN); mpfr_setmax (x, REDUCE_EMAX); #if defined(TWO_ARGS) || defined(DOUBLE_ARG1) || defined(DOUBLE_ARG2) mpfr_set_si (u, randlimb () % 2 == 0 ? 1 : -1, MPFR_RNDN); mpfr_set_exp (u, REDUCE_EMIN); #endif } #endif /* two arguments */ } #if defined(ULONG_ARG1) || defined(ULONG_ARG2) i = randlimb (); inexact = mpfr_set_ui (u, i, MPFR_RNDN); MPFR_ASSERTN (inexact == 0); #endif /* Exponent range for the test. */ oemin = mpfr_get_emin (); oemax = mpfr_get_emax (); rnd = RND_RAND (); mpfr_clear_flags (); #ifdef MPFR_DEBUG_TGENERIC TGENERIC_INFO (TEST_FUNCTION, MPFR_PREC (y)); #endif #if defined(TWO_ARGS) compare = TEST_FUNCTION (y, x, u, rnd); #elif defined(DOUBLE_ARG1) d = mpfr_get_d (u, rnd); compare = TEST_FUNCTION (y, d, x, rnd); /* d can be infinite due to overflow in mpfr_get_d */ infinite_input |= DOUBLE_ISINF (d); #elif defined(DOUBLE_ARG2) d = mpfr_get_d (u, rnd); compare = TEST_FUNCTION (y, x, d, rnd); /* d can be infinite due to overflow in mpfr_get_d */ infinite_input |= DOUBLE_ISINF (d); #elif defined(ULONG_ARG1) && defined(ONE_ARG) compare = TEST_FUNCTION (y, i, rnd); #elif defined(ULONG_ARG1) compare = TEST_FUNCTION (y, i, x, rnd); #elif defined(ULONG_ARG2) compare = TEST_FUNCTION (y, x, i, rnd); #else compare = TEST_FUNCTION (y, x, rnd); #endif flags = __gmpfr_flags; if (mpfr_get_emin () != oemin || mpfr_get_emax () != oemax) { printf ("tgeneric: the exponent range has been modified" " by the tested function!\n"); exit (1); } if (rnd != MPFR_RNDF) TGENERIC_CHECK ("bad inexact flag", (compare != 0) ^ (mpfr_inexflag_p () == 0)); ctrt++; /* If rnd = RNDF, check that we obtain the same result as RNDD or RNDU. */ if (rnd == MPFR_RNDF) { #if defined(TWO_ARGS) TEST_FUNCTION (yd, x, u, MPFR_RNDD); TEST_FUNCTION (yu, x, u, MPFR_RNDU); #elif defined(DOUBLE_ARG1) d = mpfr_get_d (u, MPFR_RNDD); TEST_FUNCTION (yd, d, x, MPFR_RNDD); d = mpfr_get_d (u, MPFR_RNDU); TEST_FUNCTION (yu, d, x, MPFR_RNDU); #elif defined(DOUBLE_ARG2) d = mpfr_get_d (u, MPFR_RNDD); TEST_FUNCTION (yd, x, d, MPFR_RNDD); d = mpfr_get_d (u, MPFR_RNDU); TEST_FUNCTION (yu, x, d, MPFR_RNDU); #elif defined(ULONG_ARG1) && defined(ONE_ARG) TEST_FUNCTION (yd, i, MPFR_RNDD); TEST_FUNCTION (yu, i, MPFR_RNDU); #elif defined(ULONG_ARG1) TEST_FUNCTION (yd, i, x, MPFR_RNDD); TEST_FUNCTION (yu, i, x, MPFR_RNDU); #elif defined(ULONG_ARG2) TEST_FUNCTION (yd, x, i, MPFR_RNDD); TEST_FUNCTION (yu, x, i, MPFR_RNDU); #else TEST_FUNCTION (yd, x, MPFR_RNDD); TEST_FUNCTION (yu, x, MPFR_RNDU); #endif if (! (SAME_VAL (y, yd) || SAME_VAL (y, yu))) { printf ("For RNDF, result does not match RNDD nor RNDU\n"); printf ("x = "); mpfr_dump (x); #ifdef NEED_U printf ("u = "); mpfr_dump (u); #endif #if defined(ULONG_ARG1) || defined(ULONG_ARG2) printf ("i = %lu\n", i); #endif printf ("yd (RNDD) = "); mpfr_dump (yd); printf ("yu (RNDU) = "); mpfr_dump (yu); printf ("y (RNDF) = "); mpfr_dump (y); exit (1); } } /* Tests in a reduced exponent range. */ { mpfr_flags_t oldflags = flags; mpfr_exp_t e, emin, emax; /* Determine the smallest exponent range containing the exponents of the mpfr_t inputs (x, and u if TWO_ARGS) and output (y). */ emin = MPFR_EMAX_MAX; emax = MPFR_EMIN_MIN; if (MPFR_IS_PURE_FP (x)) { e = MPFR_GET_EXP (x); if (e < emin) emin = e; if (e > emax) emax = e; } #if defined(TWO_ARGS) if (MPFR_IS_PURE_FP (u)) { e = MPFR_GET_EXP (u); if (e < emin) emin = e; if (e > emax) emax = e; } #endif if (MPFR_IS_PURE_FP (y)) { e = MPFR_GET_EXP (y); /* exponent of the result */ if (test_of > 0 && e - 1 >= emax) /* overflow test */ { mpfr_flags_t ex_flags; /* Exponent e of the result > exponents of the inputs; let's set emax to e - 1, so that one should get an overflow. */ mpfr_set_emax (e - 1); #ifdef MPFR_DEBUG_TGENERIC printf ("tgeneric: overflow test (emax = %" MPFR_EXP_FSPEC "d)\n", (mpfr_eexp_t) __gmpfr_emax); #endif mpfr_clear_flags (); #if defined(TWO_ARGS) inexact = TEST_FUNCTION (w, x, u, rnd); #elif defined(DOUBLE_ARG1) inexact = TEST_FUNCTION (w, d, x, rnd); #elif defined(DOUBLE_ARG2) inexact = TEST_FUNCTION (w, x, d, rnd); #elif defined(ULONG_ARG1) && defined(ONE_ARG) inexact = TEST_FUNCTION (w, i, rnd); #elif defined(ULONG_ARG1) inexact = TEST_FUNCTION (w, i, x, rnd); #elif defined(ULONG_ARG2) inexact = TEST_FUNCTION (w, x, i, rnd); #else inexact = TEST_FUNCTION (w, x, rnd); #endif flags = __gmpfr_flags; mpfr_set_emax (oemax); ex_flags = MPFR_FLAGS_OVERFLOW | MPFR_FLAGS_INEXACT; /* For RNDF, this test makes no sense, since RNDF might return either the maximal floating-point value or infinity, and the flags might differ in those two cases. */ if (flags != ex_flags && rnd != MPFR_RNDF) { printf ("tgeneric: error for " MAKE_STR(TEST_FUNCTION) ", reduced exponent range [%" MPFR_EXP_FSPEC "d,%" MPFR_EXP_FSPEC "d] (overflow test) on:\n", (mpfr_eexp_t) oemin, (mpfr_eexp_t) e - 1); printf ("x = "); mpfr_dump (x); #ifdef NEED_U printf ("u = "); mpfr_dump (u); #endif printf ("yprec = %u, rnd_mode = %s\n", (unsigned int) yprec, mpfr_print_rnd_mode (rnd)); printf ("Expected flags ="); flags_out (ex_flags); printf (" got flags ="); flags_out (flags); printf ("inex = %d, w = ", inexact); mpfr_dump (w); exit (1); } test_of--; } if (test_uf > 0 && e + 1 <= emin) /* underflow test */ { mpfr_flags_t ex_flags; /* Exponent e of the result < exponents of the inputs; let's set emin to e + 1, so that one should get an underflow. */ mpfr_set_emin (e + 1); #ifdef MPFR_DEBUG_TGENERIC printf ("tgeneric: underflow test (emin = %" MPFR_EXP_FSPEC "d)\n", (mpfr_eexp_t) __gmpfr_emin); #endif mpfr_clear_flags (); #if defined(TWO_ARGS) inexact = TEST_FUNCTION (w, x, u, rnd); #elif defined(DOUBLE_ARG1) inexact = TEST_FUNCTION (w, d, x, rnd); #elif defined(DOUBLE_ARG2) inexact = TEST_FUNCTION (w, x, d, rnd); #elif defined(ULONG_ARG1) && defined(ONE_ARG) inexact = TEST_FUNCTION (w, i, rnd); #elif defined(ULONG_ARG1) inexact = TEST_FUNCTION (w, i, x, rnd); #elif defined(ULONG_ARG2) inexact = TEST_FUNCTION (w, x, i, rnd); #else inexact = TEST_FUNCTION (w, x, rnd); #endif flags = __gmpfr_flags; mpfr_set_emin (oemin); ex_flags = MPFR_FLAGS_UNDERFLOW | MPFR_FLAGS_INEXACT; /* For RNDF, this test makes no sense, since RNDF might return either the maximal floating-point value or infinity, and the flags might differ in those two cases. */ if (flags != ex_flags && rnd != MPFR_RNDF) { printf ("tgeneric: error for " MAKE_STR(TEST_FUNCTION) ", reduced exponent range [%" MPFR_EXP_FSPEC "d,%" MPFR_EXP_FSPEC "d] (underflow test) on:\n", (mpfr_eexp_t) e + 1, (mpfr_eexp_t) oemax); printf ("x = "); mpfr_dump (x); #ifdef NEED_U printf ("u = "); mpfr_dump (u); #endif printf ("yprec = %u, rnd_mode = %s\n", (unsigned int) yprec, mpfr_print_rnd_mode (rnd)); printf ("Expected flags ="); flags_out (ex_flags); printf (" got flags ="); flags_out (flags); printf ("inex = %d, w = ", inexact); mpfr_dump (w); exit (1); } test_uf--; } if (e < emin) emin = e; if (e > emax) emax = e; } /* MPFR_IS_PURE_FP (y) */ if (emin > emax) emin = emax; /* case where all values are singular */ /* Consistency test in a reduced exponent range. Doing it for the first 10 samples and for prec == p1 (which has some special cases) should be sufficient. */ if (ctrt <= 10 || prec == p1) { mpfr_set_emin (emin); mpfr_set_emax (emax); #ifdef MPFR_DEBUG_TGENERIC /* Useful information in case of assertion failure. */ printf ("tgeneric: reduced exponent range [%" MPFR_EXP_FSPEC "d,%" MPFR_EXP_FSPEC "d]\n", (mpfr_eexp_t) emin, (mpfr_eexp_t) emax); #endif mpfr_clear_flags (); #if defined(TWO_ARGS) inexact = TEST_FUNCTION (w, x, u, rnd); #elif defined(DOUBLE_ARG1) inexact = TEST_FUNCTION (w, d, x, rnd); #elif defined(DOUBLE_ARG2) inexact = TEST_FUNCTION (w, x, d, rnd); #elif defined(ULONG_ARG1) && defined(ONE_ARG) inexact = TEST_FUNCTION (w, i, rnd); #elif defined(ULONG_ARG1) inexact = TEST_FUNCTION (w, i, x, rnd); #elif defined(ULONG_ARG2) inexact = TEST_FUNCTION (w, x, i, rnd); #else inexact = TEST_FUNCTION (w, x, rnd); #endif flags = __gmpfr_flags; mpfr_set_emin (oemin); mpfr_set_emax (oemax); /* That test makes no sense for RNDF. */ if (rnd != MPFR_RNDF && ! (SAME_VAL (w, y) && SAME_SIGN (inexact, compare) && flags == oldflags)) { printf ("tgeneric: error for " MAKE_STR(TEST_FUNCTION) ", reduced exponent range [%" MPFR_EXP_FSPEC "d,%" MPFR_EXP_FSPEC "d] on:\n", (mpfr_eexp_t) emin, (mpfr_eexp_t) emax); printf ("x = "); mpfr_dump (x); #ifdef NEED_U printf ("u = "); mpfr_dump (u); #endif printf ("yprec = %u, rnd_mode = %s\n", (unsigned int) yprec, mpfr_print_rnd_mode (rnd)); printf ("Expected:\n y = "); mpfr_dump (y); printf (" inex = %d, flags =", compare); flags_out (oldflags); printf ("Got:\n w = "); mpfr_dump (w); printf (" inex = %d, flags =", inexact); flags_out (flags); exit (1); } } __gmpfr_flags = oldflags; /* restore the flags */ } /* tests in a reduced exponent range */ if (MPFR_IS_SINGULAR (y)) { if (MPFR_IS_NAN (y) || mpfr_nanflag_p ()) TGENERIC_CHECK ("bad NaN flag", MPFR_IS_NAN (y) && mpfr_nanflag_p ()); else if (MPFR_IS_INF (y)) { TGENERIC_CHECK ("bad overflow flag", (compare != 0) ^ (mpfr_overflow_p () == 0)); TGENERIC_CHECK ("bad divide-by-zero flag", (compare == 0 && !infinite_input) ^ (mpfr_divby0_p () == 0)); } else if (MPFR_IS_ZERO (y)) TGENERIC_CHECK ("bad underflow flag", (compare != 0) ^ (mpfr_underflow_p () == 0)); } else if (mpfr_divby0_p ()) { TGENERIC_CHECK ("both overflow and divide-by-zero", ! mpfr_overflow_p ()); TGENERIC_CHECK ("both underflow and divide-by-zero", ! mpfr_underflow_p ()); TGENERIC_CHECK ("bad compare value (divide-by-zero)", compare == 0); } else if (mpfr_overflow_p ()) { TGENERIC_CHECK ("both underflow and overflow", ! mpfr_underflow_p ()); TGENERIC_CHECK ("bad compare value (overflow)", compare != 0); mpfr_nexttoinf (y); TGENERIC_CHECK ("should have been max MPFR number (overflow)", MPFR_IS_INF (y)); } else if (mpfr_underflow_p ()) { TGENERIC_CHECK ("bad compare value (underflow)", compare != 0); mpfr_nexttozero (y); TGENERIC_CHECK ("should have been min MPFR number (underflow)", MPFR_IS_ZERO (y)); } else if (compare == 0 || rnd == MPFR_RNDF || mpfr_can_round (y, yprec, rnd, rnd, prec)) { ctrn++; mpfr_set (t, y, rnd); /* Risk of failures are known when some flags are already set before the function call. Do not set the erange flag, as it will remain set after the function call and no checks are performed in such a case (see the mpfr_erangeflag_p test below). */ if (randlimb () & 1) __gmpfr_flags = MPFR_FLAGS_ALL ^ MPFR_FLAGS_ERANGE; #ifdef MPFR_DEBUG_TGENERIC TGENERIC_INFO (TEST_FUNCTION, MPFR_PREC (z)); #endif /* Let's increase the precision of the inputs in a random way. In most cases, this doesn't make any difference, but for the mpfr_fmod bug fixed in r6230, this triggers the bug. */ mpfr_prec_round (x, mpfr_get_prec (x) + (randlimb () & 15), MPFR_RNDN); #if defined(TWO_ARGS) mpfr_prec_round (u, mpfr_get_prec (u) + (randlimb () & 15), MPFR_RNDN); inexact = TEST_FUNCTION (z, x, u, rnd); #elif defined(DOUBLE_ARG1) inexact = TEST_FUNCTION (z, d, x, rnd); #elif defined(DOUBLE_ARG2) inexact = TEST_FUNCTION (z, x, d, rnd); #elif defined(ULONG_ARG1) && defined(ONE_ARG) inexact = TEST_FUNCTION (z, i, rnd); #elif defined(ULONG_ARG1) inexact = TEST_FUNCTION (z, i, x, rnd); #elif defined(ULONG_ARG2) inexact = TEST_FUNCTION (z, x, i, rnd); #else inexact = TEST_FUNCTION (z, x, rnd); #endif if (mpfr_erangeflag_p ()) goto next_n; if (! mpfr_equal_p (t, z) && rnd != MPFR_RNDF) { printf ("tgeneric: results differ for " MAKE_STR(TEST_FUNCTION) " on\n x = "); mpfr_dump (x); #ifdef NEED_U printf (" u = "); mpfr_dump (u); #endif printf (" prec = %u, rnd_mode = %s\n", (unsigned int) prec, mpfr_print_rnd_mode (rnd)); printf ("Got "); mpfr_dump (z); printf ("Expected "); mpfr_dump (t); printf ("Approx "); mpfr_dump (y); exit (1); } compare2 = mpfr_cmp (t, y); /* if rounding to nearest, cannot know the sign of t - f(x) because of composed rounding: y = o(f(x)) and t = o(y) */ if (compare * compare2 >= 0) compare = compare + compare2; else compare = inexact; /* cannot determine sign(t-f(x)) */ if (! SAME_SIGN (inexact, compare) && rnd != MPFR_RNDF) { printf ("Wrong inexact flag for rnd=%s: expected %d, got %d" "\n", mpfr_print_rnd_mode (rnd), compare, inexact); printf ("x = "); mpfr_dump (x); #ifdef NEED_U printf ("u = "); mpfr_dump (u); #endif printf ("y = "); mpfr_dump (y); printf ("t = "); mpfr_dump (t); exit (1); } } else if (getenv ("MPFR_SUSPICIOUS_OVERFLOW") != NULL) { /* For developers only! */ MPFR_ASSERTN (MPFR_IS_PURE_FP (y)); mpfr_nexttoinf (y); if (MPFR_IS_INF (y) && MPFR_IS_LIKE_RNDZ (rnd, MPFR_IS_NEG (y)) && !mpfr_overflow_p () && TGENERIC_SO_TEST) { printf ("Possible bug! |y| is the maximum finite number " "(with yprec = %u) and has\nbeen obtained when " "rounding toward zero (%s). Thus there is a very\n" "probable overflow, but the overflow flag is not " "set!\n", (unsigned int) yprec, mpfr_print_rnd_mode (rnd)); printf ("x = "); mpfr_dump (x); #ifdef NEED_U printf ("u = "); mpfr_dump (u); #endif exit (1); } } next_n: /* In case the exponent range has been changed by tests_default_random() or for special values... */ mpfr_set_emin (old_emin); mpfr_set_emax (old_emax); } } if (getenv ("MPFR_TGENERIC_STAT") != NULL) printf ("tgeneric: normal cases / total = %lu / %lu\n", ctrn, ctrt); #ifndef TGENERIC_NOWARNING if (3 * ctrn < 2 * ctrt) printf ("Warning! Too few normal cases in generic tests (%lu / %lu)\n", ctrn, ctrt); #endif mpfr_clears (x, y, yd, yu, z, t, w, (mpfr_ptr) 0); #ifdef NEED_U mpfr_clear (u); #endif } #undef TEST_RANDOM_POS #undef TEST_RANDOM_POS2 #undef TEST_RANDOM_EMIN #undef TEST_RANDOM_EMAX #undef TEST_RANDOM_ALWAYS_SCALE #undef RAND_FUNCTION #undef TWO_ARGS #undef TWO_ARGS_ALL #undef NEED_U #undef DOUBLE_ARG1 #undef DOUBLE_ARG2 #undef ULONG_ARG1 #undef ULONG_ARG2 #undef TEST_FUNCTION #undef test_generic #undef NSPEC