/* ieee-utils/test.c * * Copyright (C) 1996, 1997, 1998, 1999, 2000, 2007 Brian Gough * * This program 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. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include #include #include #if HAVE_IRIX_IEEE_INTERFACE /* don't test denormals on IRIX */ #else #if HAVE_IEEE_DENORMALS #define TEST_DENORMAL 1 #endif #endif #ifndef FLT_MIN #define FLT_MIN 1.17549435e-38f #endif #ifndef FLT_MAX #define FLT_MAX 3.40282347e+38f #endif #ifndef DBL_MIN #define DBL_MIN 2.2250738585072014e-308 #endif #ifndef DBL_MAX #define DBL_MAX 1.7976931348623157e+308 #endif int main (void) { float zerof = 0.0f, minus_onef = -1.0f ; double zero = 0.0, minus_one = -1.0 ; /* Check for +ZERO (float) */ { float f = 0.0f; const char mantissa[] = "00000000000000000000000"; gsl_ieee_float_rep r; gsl_ieee_float_to_rep (&f, &r); gsl_test_int (r.sign, 0, "float x = 0, sign is +"); gsl_test_int (r.exponent, -127, "float x = 0, exponent is -127"); gsl_test_str (r.mantissa, mantissa, "float x = 0, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_ZERO, "float x = 0, type is ZERO"); } /* Check for -ZERO (float) */ { float f = minus_onef; const char mantissa[] = "00000000000000000000000"; gsl_ieee_float_rep r; while (f < 0) { f *= 0.1f; } gsl_ieee_float_to_rep (&f, &r); gsl_test_int (r.sign, 1, "float x = -1*0, sign is -"); gsl_test_int (r.exponent, -127, "float x = -1*0, exponent is -127"); gsl_test_str (r.mantissa, mantissa, "float x = -1*0, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_ZERO, "float x = -1*0, type is ZERO"); } /* Check for a positive NORMAL number (e.g. 2.1) (float) */ { float f = 2.1f; const char mantissa[] = "00001100110011001100110"; gsl_ieee_float_rep r; gsl_ieee_float_to_rep (&f, &r); gsl_test_int (r.sign, 0, "float x = 2.1, sign is +"); gsl_test_int (r.exponent, 1, "float x = 2.1, exponent is 1"); gsl_test_str (r.mantissa, mantissa, "float x = 2.1, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "float x = 2.1, type is NORMAL"); } /* Check for a negative NORMAL number (e.g. -1.3304...) (float) */ { float f = -1.3303577090924210f ; const char mantissa[] = "01010100100100100101001"; gsl_ieee_float_rep r; gsl_ieee_float_to_rep (&f, &r); gsl_test_int (r.sign, 1, "float x = -1.3304..., sign is -"); gsl_test_int (r.exponent, 0, "float x = -1.3304..., exponent is 0"); gsl_test_str (r.mantissa, mantissa, "float x = -1.3304..., mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "float x = -1.3304..., type is NORMAL"); } /* Check for a large positive NORMAL number (e.g. 3.37e31) (float) */ { float f = 3.37e31f; const char mantissa[] = "10101001010110101001001"; gsl_ieee_float_rep r; gsl_ieee_float_to_rep (&f, &r); gsl_test_int (r.sign, 0, "float x = 3.37e31, sign is +"); gsl_test_int (r.exponent, 104, "float x = 3.37e31, exponent is 104"); gsl_test_str (r.mantissa, mantissa, "float x = 3.37e31, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "float x = 3.37e31, type is NORMAL"); } /* Check for a small positive NORMAL number (e.g. 3.37e-31) (float) */ { float f = 3.37e-31f; const char mantissa[] = "10110101011100110111011"; gsl_ieee_float_rep r; gsl_ieee_float_to_rep (&f, &r); gsl_test_int (r.sign, 0, "float x = 3.37e-31, sign is +"); gsl_test_int (r.exponent, -102, "float x = 3.37e-31, exponent is -102"); gsl_test_str (r.mantissa, mantissa, "float x = 3.37e-31, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "float x = 3.37e-31, type is NORMAL"); } /* Check for FLT_MIN (smallest possible number that is not denormal) */ { float f = FLT_MIN; const char mantissa[] = "00000000000000000000000"; gsl_ieee_float_rep r; gsl_ieee_float_to_rep (&f, &r); gsl_test_int (r.sign, 0, "float x = FLT_MIN, sign is +"); gsl_test_int (r.exponent, -126, "float x = FLT_MIN, exponent is -126"); gsl_test_str (r.mantissa, mantissa, "float x = FLT_MIN, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "float x = FLT_MIN, type is NORMAL"); } /* Check for FLT_MAX (largest possible number that is not Inf) */ { float f = FLT_MAX; const char mantissa[] = "11111111111111111111111"; gsl_ieee_float_rep r; gsl_ieee_float_to_rep (&f, &r); gsl_test_int (r.sign, 0, "float x = FLT_MAX, sign is +"); gsl_test_int (r.exponent, 127, "float x = FLT_MAX, exponent is 127"); gsl_test_str (r.mantissa, mantissa, "float x = FLT_MAX, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "float x = FLT_MAX, type is NORMAL"); } /* Check for DENORMAL numbers (e.g. FLT_MIN/2^n) */ #ifdef TEST_DENORMAL { float f = FLT_MIN; char mantissa[] = "10000000000000000000000"; int i; gsl_ieee_float_rep r; for (i = 0; i < 23; i++) { float x = f / (float)pow (2.0, 1 + (float) i); mantissa[i] = '1'; gsl_ieee_float_to_rep (&x, &r); gsl_test_int (r.sign, 0, "float x = FLT_MIN/2^%d, sign is +", i + 1); gsl_test_int (r.exponent, -127, "float x = FLT_MIN/2^%d, exponent is -127", i + 1); gsl_test_str (r.mantissa, mantissa, "float x = FLT_MIN/2^%d, mantissa", i + 1); gsl_test_int (r.type, GSL_IEEE_TYPE_DENORMAL, "float x = FLT_MIN/2^%d, type is DENORMAL", i + 1); mantissa[i] = '0'; } } #endif /* Check for positive INFINITY (e.g. 2*FLT_MAX) */ { float f = FLT_MAX; const char mantissa[] = "00000000000000000000000"; gsl_ieee_float_rep r; float x; x = 2 * f; gsl_ieee_float_to_rep (&x, &r); gsl_test_int (r.sign, 0, "float x = 2*FLT_MAX, sign is +"); gsl_test_int (r.exponent, 128, "float x = 2*FLT_MAX, exponent is 128"); gsl_test_str (r.mantissa, mantissa, "float x = 2*FLT_MAX, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_INF, "float x = -2*FLT_MAX, type is INF"); } /* Check for negative INFINITY (e.g. -2*FLT_MAX) */ { float f = FLT_MAX; const char mantissa[] = "00000000000000000000000"; gsl_ieee_float_rep r; float x; x = -2 * f; gsl_ieee_float_to_rep (&x, &r); gsl_test_int (r.sign, 1, "float x = -2*FLT_MAX, sign is -"); gsl_test_int (r.exponent, 128, "float x = -2*FLT_MAX, exponent is 128"); gsl_test_str (r.mantissa, mantissa, "float x = -2*FLT_MAX, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_INF, "float x = -2*FLT_MAX, type is INF"); } /* Check for NAN (e.g. Inf - Inf) (float) */ { gsl_ieee_float_rep r; float x = 1.0f, y = 2.0f, z = zerof; x = x / z; y = y / z; z = y - x; gsl_ieee_float_to_rep (&z, &r); /* We don't check the sign and we don't check the mantissa because they could be anything for a NaN */ gsl_test_int (r.exponent, 128, "float x = NaN, exponent is 128"); gsl_test_int (r.type, GSL_IEEE_TYPE_NAN, "float x = NaN, type is NAN"); } /* Check for +ZERO */ { double d = 0.0; const char mantissa[] = "0000000000000000000000000000000000000000000000000000"; gsl_ieee_double_rep r; gsl_ieee_double_to_rep (&d, &r); gsl_test_int (r.sign, 0, "double x = 0, sign is +"); gsl_test_int (r.exponent, -1023, "double x = 0, exponent is -1023"); gsl_test_str (r.mantissa, mantissa, "double x = 0, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_ZERO, "double x = 0, type is ZERO"); } /* Check for -ZERO */ { double d = minus_one; const char mantissa[] = "0000000000000000000000000000000000000000000000000000"; gsl_ieee_double_rep r; while (d < 0) { d *= 0.1; } gsl_ieee_double_to_rep (&d, &r); gsl_test_int (r.sign, 1, "double x = -1*0, sign is -"); gsl_test_int (r.exponent, -1023, "double x = -1*0, exponent is -1023"); gsl_test_str (r.mantissa, mantissa, "double x = -1*0, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_ZERO, "double x = -1*0, type is ZERO"); } /* Check for a positive NORMAL number (e.g. 2.1) */ { double d = 2.1; const char mantissa[] = "0000110011001100110011001100110011001100110011001101"; gsl_ieee_double_rep r; gsl_ieee_double_to_rep (&d, &r); gsl_test_int (r.sign, 0, "double x = 2.1, sign is +"); gsl_test_int (r.exponent, 1, "double x = 2.1, exponent is 1"); gsl_test_str (r.mantissa, mantissa, "double x = 2.1, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "double x = 2.1, type is NORMAL"); } /* Check for a negative NORMAL number (e.g. -1.3304...) */ { double d = -1.3303577090924210146738460025517269968986511230468750; const char mantissa[] = "0101010010010010010100101010010010001000100011101110"; gsl_ieee_double_rep r; gsl_ieee_double_to_rep (&d, &r); gsl_test_int (r.sign, 1, "double x = -1.3304..., sign is -"); gsl_test_int (r.exponent, 0, "double x = -1.3304..., exponent is 0"); gsl_test_str (r.mantissa, mantissa, "double x = -1.3304..., mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "double x = -1.3304..., type is NORMAL"); } /* Check for a large positive NORMAL number (e.g. 3.37e297) */ { double d = 3.37e297; const char mantissa[] = "0100100111001001100101111001100000100110011101000100"; gsl_ieee_double_rep r; gsl_ieee_double_to_rep (&d, &r); gsl_test_int (r.sign, 0, "double x = 3.37e297, sign is +"); gsl_test_int (r.exponent, 988, "double x = 3.37e297, exponent is 998"); gsl_test_str (r.mantissa, mantissa, "double x = 3.37e297, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "double x = 3.37e297, type is NORMAL"); } /* Check for a small positive NORMAL number (e.g. 3.37e-297) */ { double d = 3.37e-297; const char mantissa[] = "0001101000011011101011100001110010100001001100110111"; gsl_ieee_double_rep r; gsl_ieee_double_to_rep (&d, &r); gsl_test_int (r.sign, 0, "double x = 3.37e-297, sign is +"); gsl_test_int (r.exponent, -985, "double x = 3.37e-297, exponent is -985"); gsl_test_str (r.mantissa, mantissa, "double x = 3.37e-297, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "double x = 3.37e-297, type is NORMAL"); } /* Check for DBL_MIN (smallest possible number that is not denormal) */ { double d = DBL_MIN; const char mantissa[] = "0000000000000000000000000000000000000000000000000000"; gsl_ieee_double_rep r; gsl_ieee_double_to_rep (&d, &r); gsl_test_int (r.sign, 0, "double x = DBL_MIN, sign is +"); gsl_test_int (r.exponent, -1022, "double x = DBL_MIN, exponent is -1022"); gsl_test_str (r.mantissa, mantissa, "double x = DBL_MIN, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "double x = DBL_MIN, type is NORMAL"); } /* Check for DBL_MAX (largest possible number that is not Inf) */ { double d = DBL_MAX; const char mantissa[] = "1111111111111111111111111111111111111111111111111111"; gsl_ieee_double_rep r; gsl_ieee_double_to_rep (&d, &r); gsl_test_int (r.sign, 0, "double x = DBL_MAX, sign is +"); gsl_test_int (r.exponent, 1023, "double x = DBL_MAX, exponent is 1023"); gsl_test_str (r.mantissa, mantissa, "double x = DBL_MAX, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_NORMAL, "double x = DBL_MAX, type is NORMAL"); } /* Check for DENORMAL numbers (e.g. DBL_MIN/2^n) */ #ifdef TEST_DENORMAL { double d = DBL_MIN; char mantissa[] = "1000000000000000000000000000000000000000000000000000"; int i; gsl_ieee_double_rep r; for (i = 0; i < 52; i++) { double x = d / pow (2.0, 1 + (double) i); mantissa[i] = '1'; gsl_ieee_double_to_rep (&x, &r); gsl_test_int (r.sign, 0, "double x = DBL_MIN/2^%d, sign is +", i + 1); gsl_test_int (r.exponent, -1023, "double x = DBL_MIN/2^%d, exponent", i + 1); gsl_test_str (r.mantissa, mantissa, "double x = DBL_MIN/2^%d, mantissa", i + 1); gsl_test_int (r.type, GSL_IEEE_TYPE_DENORMAL, "double x = DBL_MIN/2^%d, type is DENORMAL", i + 1); mantissa[i] = '0'; } } #endif /* Check for positive INFINITY (e.g. 2*DBL_MAX) */ { double d = DBL_MAX; const char mantissa[] = "0000000000000000000000000000000000000000000000000000"; gsl_ieee_double_rep r; double x; x = 2.0 * d; gsl_ieee_double_to_rep (&x, &r); gsl_test_int (r.sign, 0, "double x = 2*DBL_MAX, sign is +"); gsl_test_int (r.exponent, 1024, "double x = 2*DBL_MAX, exponent is 1024"); gsl_test_str (r.mantissa, mantissa, "double x = 2*DBL_MAX, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_INF, "double x = 2*DBL_MAX, type is INF"); } /* Check for negative INFINITY (e.g. -2*DBL_MAX) */ { double d = DBL_MAX; const char mantissa[] = "0000000000000000000000000000000000000000000000000000"; gsl_ieee_double_rep r; double x; x = -2.0 * d; gsl_ieee_double_to_rep (&x, &r); gsl_test_int (r.sign, 1, "double x = -2*DBL_MAX, sign is -"); gsl_test_int (r.exponent, 1024, "double x = -2*DBL_MAX, exponent is 1024"); gsl_test_str (r.mantissa, mantissa, "double x = -2*DBL_MAX, mantissa"); gsl_test_int (r.type, GSL_IEEE_TYPE_INF,"double x = -2*DBL_MAX, type is INF"); } /* Check for NAN (e.g. Inf - Inf) */ { gsl_ieee_double_rep r; double x = 1.0, y = 2.0, z = zero; x = x / z; y = y / z; z = y - x; gsl_ieee_double_to_rep (&z, &r); /* We don't check the sign and we don't check the mantissa because they could be anything for a NaN */ gsl_test_int (r.exponent, 1024, "double x = NaN, exponent is 1024"); gsl_test_int (r.type, GSL_IEEE_TYPE_NAN, "double x = NaN, type is NAN"); } exit (gsl_test_summary ()); }