/* Test file for mpfr_set_ld and mpfr_get_ld. Copyright 2002-2016 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 http://www.gnu.org/licenses/ or write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #ifdef WITH_FPU_CONTROL #include #endif #include "mpfr-test.h" static void check_gcc33_bug (void) { volatile long double x; x = (long double) 9007199254740992.0 + 1.0; if (x != 0.0) return; /* OK */ printf ("Detected optimization bug of gcc 3.3 on Alpha concerning long double\n" "comparisons; set_ld tests might fail (set_ld won't work correctly).\n" "See https://gcc.gnu.org/ml/gcc-bugs/2003-10/msg00853.html for more\n" "information.\n"); } static int Isnan_ld (long double d) { /* Do not convert d to double as this can give an overflow, which may confuse compilers without IEEE 754 support (such as clang -fsanitize=undefined), or trigger a trap if enabled. The DOUBLE_ISNAN macro should work fine on long double. */ if (DOUBLE_ISNAN (d)) return 1; LONGDOUBLE_NAN_ACTION (d, goto yes); return 0; yes: return 1; } /* Return the minimal number of bits to represent d exactly (0 for zero). If flag is non-zero, also print d. */ static mpfr_prec_t print_binary (long double d, int flag) { long double e; long exp = 1; mpfr_prec_t prec = 0; if (Isnan_ld (d)) { if (flag) printf ("NaN\n"); return 0; } if (d < (long double) 0.0 #if !defined(MPFR_ERRDIVZERO) || (d == (long double) 0.0 && (1.0 / (double) d < 0.0)) #endif ) { if (flag) printf ("-"); d = -d; } /* now d >= 0 */ /* Use 2 differents tests for Inf, to avoid potential bugs in implementations. */ if (Isnan_ld (d - d) || (d > 1 && d * 0.5 == d)) { if (flag) printf ("Inf\n"); return 0; } if (d == (long double) 0.0) { if (flag) printf ("0.0\n"); return prec; } /* now d > 0 */ e = (long double) 1.0; while (e > d) { e = e * (long double) 0.5; exp --; } if (flag == 2) printf ("1: e=%.36Le\n", e); /* now d >= e */ while (d >= e + e) { e = e + e; exp ++; } if (flag == 2) printf ("2: e=%.36Le\n", e); /* now e <= d < 2e */ if (flag == 1) printf ("0."); if (flag == 2) printf ("3: d=%.36Le e=%.36Le prec=%ld\n", d, e, (long) prec); while (d > (long double) 0.0) { prec++; if (d >= e) { if (flag == 1) printf ("1"); d = (long double) ((long double) d - (long double) e); } else { if (flag == 1) printf ("0"); } e *= (long double) 0.5; if (flag == 2) printf ("4: d=%.36Le e=%.36Le prec=%ld\n", d, e, (long) prec); } if (flag == 1) printf ("e%ld\n", exp); return prec; } /* checks that a long double converted to a mpfr (with precision MPFR_LDBL_MANT_DIG), then converted back to a long double gives the initial value, or in other words mpfr_get_ld(mpfr_set_ld(d)) = d. */ static void check_set_get (long double d) { mpfr_t x; mpfr_prec_t prec; int r; long double e; int inex; prec = print_binary (d, 0); if (prec < MPFR_PREC_MIN) prec = MPFR_PREC_MIN; mpfr_init2 (x, prec); RND_LOOP(r) { inex = mpfr_set_ld (x, d, (mpfr_rnd_t) r); if (inex != 0) { mpfr_exp_t emin, emax; emin = mpfr_get_emin (); emax = mpfr_get_emax (); printf ("Error: mpfr_set_ld should be exact (rnd = %s)\n", mpfr_print_rnd_mode ((mpfr_rnd_t) r)); /* We use 36 digits here, as the maximum LDBL_MANT_DIG value seen in the current implementations is 113 (binary128), and ceil(1+113*log(2)/log(10)) = 36. But the current glibc implementation of printf with double-double arithmetic (e.g. on PowerPC) is not accurate. */ printf (" d ~= %.36Le (output may be wrong!)\n", d); printf (" inex = %d\n", inex); if (emin >= LONG_MIN) printf (" emin = %ld\n", (long) emin); if (emax <= LONG_MAX) printf (" emax = %ld\n", (long) emax); ld_trace (" d", d); printf (" d = "); print_binary (d, 1); printf (" x = "); mpfr_dump (x); printf (" MPFR_LDBL_MANT_DIG=%u\n", MPFR_LDBL_MANT_DIG); print_binary (d, 2); exit (1); } e = mpfr_get_ld (x, (mpfr_rnd_t) r); if (inex == 0 && ((Isnan_ld(d) && ! Isnan_ld(e)) || (Isnan_ld(e) && ! Isnan_ld(d)) || (e != d && !(Isnan_ld(e) && Isnan_ld(d))))) { printf ("Error: mpfr_get_ld o mpfr_set_ld <> Id\n"); printf (" rnd = %s\n", mpfr_print_rnd_mode ((mpfr_rnd_t) r)); printf (" d ~= %.36Le (output may be wrong!)\n", d); printf (" e ~= %.36Le (output may be wrong!)\n", e); ld_trace (" d", d); printf (" x = "); mpfr_out_str (NULL, 16, 0, x, MPFR_RNDN); printf ("\n"); ld_trace (" e", e); printf (" d = "); print_binary (d, 1); printf (" x = "); mpfr_dump (x); printf (" e = "); print_binary (e, 1); printf (" MPFR_LDBL_MANT_DIG=%u\n", MPFR_LDBL_MANT_DIG); #ifdef MPFR_NANISNAN if (Isnan_ld(d) || Isnan_ld(e)) printf ("The reason is that NAN == NAN. Please look at the " "configure output\nand Section \"In case of problem\" " "of the INSTALL file.\n"); #endif exit (1); } } mpfr_clear (x); } static void test_small (void) { mpfr_t x, y, z; long double d; mpfr_init2 (x, MPFR_LDBL_MANT_DIG); mpfr_init2 (y, MPFR_LDBL_MANT_DIG); mpfr_init2 (z, MPFR_LDBL_MANT_DIG); /* x = 11906603631607553907/2^(16381+64) */ mpfr_set_str (x, "0.1010010100111100110000001110101101000111010110000001111101110011E-16381", 2, MPFR_RNDN); d = mpfr_get_ld (x, MPFR_RNDN); /* infinite loop? */ mpfr_set_ld (y, d, MPFR_RNDN); mpfr_sub (z, x, y, MPFR_RNDN); mpfr_abs (z, z, MPFR_RNDN); mpfr_clear_erangeflag (); /* If long double = double, d should be equal to 0; in this case, everything is OK. */ if (d != 0 && (mpfr_cmp_str (z, "1E-16434", 2, MPFR_RNDN) > 0 || mpfr_erangeflag_p ())) { printf ("Error with x = "); mpfr_out_str (NULL, 10, 21, x, MPFR_RNDN); printf (" = "); mpfr_out_str (NULL, 16, 0, x, MPFR_RNDN); printf ("\n -> d = %.33Le", d); printf ("\n -> y = "); mpfr_out_str (NULL, 10, 21, y, MPFR_RNDN); printf (" = "); mpfr_out_str (NULL, 16, 0, y, MPFR_RNDN); printf ("\n -> |x-y| = "); mpfr_out_str (NULL, 16, 0, z, MPFR_RNDN); printf ("\n"); exit (1); } mpfr_clear (x); mpfr_clear (y); mpfr_clear (z); } static void test_fixed_bugs (void) { mpfr_t x; long double l, m; /* bug found by Steve Kargl (2009-03-14) */ mpfr_init2 (x, MPFR_LDBL_MANT_DIG); mpfr_set_ui_2exp (x, 1, -16447, MPFR_RNDN); mpfr_get_ld (x, MPFR_RNDN); /* an assertion failed in init2.c:50 */ /* bug reported by Jakub Jelinek (2010-10-17) https://gforge.inria.fr/tracker/?func=detail&aid=11300 */ mpfr_set_prec (x, MPFR_LDBL_MANT_DIG); /* l = 0x1.23456789abcdef0123456789abcdp-914L; */ l = 8.215640181713713164092636634579e-276; mpfr_set_ld (x, l, MPFR_RNDN); m = mpfr_get_ld (x, MPFR_RNDN); if (m != l) { printf ("Error in get_ld o set_ld for l=%Le\n", l); printf ("Got m=%Le instead of l\n", m); exit (1); } /* another similar test which failed with extended double precision and the generic code for mpfr_set_ld */ /* l = 0x1.23456789abcdef0123456789abcdp-968L; */ l = 4.560596445887084662336528403703e-292; mpfr_set_ld (x, l, MPFR_RNDN); m = mpfr_get_ld (x, MPFR_RNDN); if (m != l) { printf ("Error in get_ld o set_ld for l=%Le\n", l); printf ("Got m=%Le instead of l\n", m); exit (1); } mpfr_clear (x); } static void check_subnormal (void) { long double d, e; mpfr_t x; d = 17.0; mpfr_init2 (x, MPFR_LDBL_MANT_DIG); while (d != 0.0) { mpfr_set_ld (x, d, MPFR_RNDN); e = mpfr_get_ld (x, MPFR_RNDN); if (e != d) { printf ("Error for mpfr_get_ld o mpfr_set_ld\n"); printf ("d=%Le\n", d); printf ("x="); mpfr_dump (x); printf ("e=%Le\n", e); } d *= 0.5; } mpfr_clear (x); } /* issue reported by Sisyphus on powerpc */ static void test_20140212 (void) { mpfr_t fr1, fr2; long double ld, h, l, ld2; int i, c1, c2; mpfr_init2 (fr1, 106); mpfr_init2 (fr2, 2098); for (h = 1.0L, i = 0; i < 1023; i++) h *= 2.0L; for (l = 1.0L, i = 0; i < 1074; i++) l *= 0.5L; ld = h + l; /* rounding of 2^1023 + 2^(-1074) */ mpfr_set_ld (fr1, ld, MPFR_RNDN); mpfr_set_ld (fr2, ld, MPFR_RNDN); c1 = mpfr_cmp_ld (fr1, ld); c2 = mpfr_cmp_ld (fr2, ld); /* If long double is binary64, then ld = fr1 = fr2 = 2^1023. If long double is double-double, then ld = 2^1023 + 2^(-1074), fr1 = 2^1023 and fr2 = 2^1023 + 2^(-1074) */ MPFR_ASSERTN(ld == h ? (c1 == 0) : (c1 < 0)); MPFR_ASSERTN(c2 == 0); ld2 = mpfr_get_ld (fr2, MPFR_RNDN); MPFR_ASSERTN(ld2 == ld); mpfr_clear (fr1); mpfr_clear (fr2); } int main (int argc, char *argv[]) { volatile long double d, e; mpfr_t x; int i; mpfr_exp_t emax; #ifdef WITH_FPU_CONTROL fpu_control_t cw; if (argc > 1) { cw = strtol(argv[1], NULL, 0); printf ("FPU control word: 0x%x\n", (unsigned int) cw); _FPU_SETCW (cw); } #endif tests_start_mpfr (); check_gcc33_bug (); test_fixed_bugs (); mpfr_test_init (); mpfr_init2 (x, MPFR_LDBL_MANT_DIG + 64); #if !defined(MPFR_ERRDIVZERO) /* check NaN */ mpfr_set_nan (x); d = mpfr_get_ld (x, MPFR_RNDN); check_set_get (d); #endif /* check +0.0 and -0.0 */ d = 0.0; check_set_get (d); d = DBL_NEG_ZERO; check_set_get (d); /* check that the sign of -0.0 is set */ mpfr_set_ld (x, DBL_NEG_ZERO, MPFR_RNDN); if (MPFR_IS_POS (x)) { #if _GMP_IEEE_FLOATS printf ("Error: sign of -0.0 is not set correctly\n"); exit (1); #else /* Non IEEE doesn't support negative zero yet */ printf ("Warning: sign of -0.0 is not set correctly\n"); #endif } #if !defined(MPFR_ERRDIVZERO) /* check +Inf */ mpfr_set_inf (x, 1); d = mpfr_get_ld (x, MPFR_RNDN); check_set_get (d); /* check -Inf */ mpfr_set_inf (x, -1); d = mpfr_get_ld (x, MPFR_RNDN); check_set_get (d); #endif /* check the largest power of two */ d = 1.0; while (d < LDBL_MAX / 2.0) d += d; check_set_get (d); check_set_get (-d); /* check LDBL_MAX; according to the C standard, LDBL_MAX must be exactly (1-b^(-LDBL_MANT_DIG)).b^LDBL_MAX_EXP, where b is the radix (in practice, b = 2), even though there can be larger long double values, not regarded as being in the subset of the floating-point values of the system. As a consequence (assuming b = 2), LDBL_MAX must be exactly representable on LDBL_MANT_DIG bits. GCC is currently buggy[*], but LDBL_MAX is still representable on LDBL_MANT_DIG bits. [*] https://gcc.gnu.org/bugzilla/show_bug.cgi?id=61399 */ d = LDBL_MAX; check_set_get (d); check_set_get (-d); /* check the smallest power of two */ d = 1.0; while ((e = d / 2.0) != (long double) 0.0 && e != d) d = e; check_set_get (d); check_set_get (-d); /* check that 2^i, 2^i+1 and 2^i-1 are correctly converted */ d = 1.0; for (i = 1; i < MPFR_LDBL_MANT_DIG + 8; i++) { d = 2.0 * d; /* d = 2^i */ check_set_get (d); check_set_get (d + 1.0); check_set_get (d - 1.0); } for (i = 0; i < 10000; i++) { mpfr_urandomb (x, RANDS); d = mpfr_get_ld (x, MPFR_RNDN); check_set_get (d); } /* check with reduced emax to exercise overflow */ emax = mpfr_get_emax (); mpfr_set_prec (x, 2); set_emax (1); mpfr_set_ld (x, (long double) 2.0, MPFR_RNDN); MPFR_ASSERTN(mpfr_inf_p (x) && mpfr_sgn (x) > 0); for (d = (long double) 2.0, i = 0; i < 13; i++, d *= d); /* now d = 2^8192, or an infinity (e.g. with double or double-double) */ mpfr_set_ld (x, d, MPFR_RNDN); MPFR_ASSERTN(mpfr_inf_p (x) && mpfr_sgn (x) > 0); set_emax (emax); mpfr_clear (x); test_small (); check_subnormal (); test_20140212 (); tests_end_mpfr (); return 0; }