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ieee754.c
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ieee754.c
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/* Some IEEE-754 / ISO C99+ conformance tests.
*
* Compile this program with:
* riscv32-unknown-elf-gcc -Wall -O2 -std=c99 -march=rv32if -mabi=ilp32 -o
* ieee754 ieee754.c -lm for instance.
*
* Add -DFP_CONTRACT to allow contraction of FP expressions (e.g. with icc).
*
* Copyright 2003-2020 Vincent Lefevre <vincent@vinc17.net>.
*
* You may use this software under the terms of the MIT License:
* https://opensource.org/licenses/MIT
* More information: https://en.wikipedia.org/wiki/MIT_License
*
* Source: https://www.vinc17.net/software/tst-ieee754.c
*/
#include <float.h>
#include <limits.h>
#include <math.h>
#include <stdint.h>
#include <stdio.h>
#define STRINGIFY(S) #S
#define MAKE_STR(S) STRINGIFY(S)
#ifdef FP_CONTRACT
#undef FP_CONTRACT
#define FP_CONTRACT "ON"
#pragma STDC FP_CONTRACT ON
#else
#define FP_CONTRACT "OFF"
#pragma STDC FP_CONTRACT OFF
#endif
#ifndef NO_FENV_H
#include <fenv.h>
#pragma STDC FENV_ACCESS ON
#endif
#ifndef NAN
#define NAN (0.0 / 0.0)
#endif
#ifndef INFINITY
#define INFINITY (1.0 / 0.0)
#endif
#define DBL_NAN (NAN)
#define DBL_POS_INF (INFINITY)
#define DBL_NEG_INF (-DBL_POS_INF)
/* Note: The dynamic epsilon now gives information about
* - the possible extended precision used to evaluate expression;
* - the possible reduced precision due to the use of options like GCC's
* -mpc32 or -mpc64 to reduce the dynamic rounding precision with "387"
* arithmetic on x86 processors.
*/
#define PREC_EPSILON(T, V, F) \
do { \
volatile T eps = 1.0; \
printf(#V " = %" F "g = %" F "a\n", (T) (V), (T) (V)); \
while (eps != 0) { \
volatile T x = 1.0, e = eps / FLT_RADIX; \
x = (x + e) - 1.0; \
if (x != e) \
break; \
eps = e; \
} \
if (eps == 0) \
printf(" (cannot compute the dynamic epsilon)\n"); \
else if (eps != (V)) \
printf(" (dynamic epsilon = %" F "g = %" F "a)\n", eps, eps); \
} while (0)
#define ERRSTR(X) ((X) ? " [ERROR]" : "")
static float flt_max = FLT_MAX;
static double dbl_max = DBL_MAX;
static long double ldbl_max = LDBL_MAX;
static float flt_epsilon = FLT_EPSILON;
static double dbl_epsilon = DBL_EPSILON;
static long double ldbl_epsilon = LDBL_EPSILON;
/* <float.h> constants */
static void float_h(void)
{
printf("FLT_RADIX = %d\n", (int) FLT_RADIX);
printf("FLT_MANT_DIG = %d\n", (int) FLT_MANT_DIG);
printf("DBL_MANT_DIG = %d\n", (int) DBL_MANT_DIG);
printf("LDBL_MANT_DIG = %d\n\n", (int) LDBL_MANT_DIG);
printf("FLT_MIN_EXP = %d\n", (int) FLT_MIN_EXP);
printf("DBL_MIN_EXP = %d\n", (int) DBL_MIN_EXP);
printf("LDBL_MIN_EXP = %d\n\n", (int) LDBL_MIN_EXP);
printf("FLT_MAX_EXP = %d\n", (int) FLT_MAX_EXP);
printf("DBL_MAX_EXP = %d\n", (int) DBL_MAX_EXP);
printf("LDBL_MAX_EXP = %d\n\n", (int) LDBL_MAX_EXP);
PREC_EPSILON(float, FLT_EPSILON, "");
PREC_EPSILON(double, DBL_EPSILON, "");
PREC_EPSILON(long double, LDBL_EPSILON, "L");
putchar('\n');
printf("FLT_MIN = %g = %a\n", (double) FLT_MIN, (double) FLT_MIN);
printf("DBL_MIN = %g = %a\n", (double) DBL_MIN, (double) DBL_MIN);
printf("LDBL_MIN = %Lg = %La\n\n", (long double) LDBL_MIN,
(long double) LDBL_MIN);
printf("FLT_MAX = %g = %a\n", (double) FLT_MAX, (double) FLT_MAX);
printf("DBL_MAX = %g = %a\n", (double) DBL_MAX, (double) DBL_MAX);
printf("LDBL_MAX = %Lg = %La\n\n", (long double) LDBL_MAX,
(long double) LDBL_MAX);
}
#define TSIZEOF(T) printf("sizeof(" #T ") = %d\n", (int) sizeof(T))
static void float_sizeof(void)
{
TSIZEOF(float);
TSIZEOF(double);
TSIZEOF(long double);
putchar('\n');
}
union f {
float f;
unsigned int i;
};
char *rnds[4] = {"to nearest", "toward 0", "to +oo", "to -oo"};
/* Detection of the rounding mode like in Sun's libmcr (__libmcr_sin.c).
* GCC with optimizations will work only with rndv until rounding modes are
* supported.
*/
static void rnd_detect(void)
{
if (UINT_MAX == 0xffffffff) {
static const double rndc = -1.02735137937997933477e+00;
volatile double rndv;
float ftc, ftv;
volatile float ftm;
union f fw;
unsigned int ic, im, iv;
ftc = (float) rndc;
fw.f = ftc * ftc;
ic = fw.i & 3;
ftm = (float) rndc;
fw.f = ftm * ftm;
im = fw.i & 3;
rndv = rndc;
ftv = (float) rndv;
fw.f = ftv * ftv;
iv = fw.i & 3;
printf("-------> %s (%s / %s)\n", rnds[iv], rnds[im], rnds[ic]);
}
}
static void tstcast(void)
{
double x = (double) 0;
printf("(double) 0 = %g\n", x);
}
/* This mostly tests signed zero support. This test is written in such a way
* that "gcc -O -ffast-math" gives a wrong result.
*/
static void signed_zero_inf(void)
{
double x = 0.0, y = -0.0, px, py, nx, ny;
printf("Signed zero tests (x is 0.0 and y is -0.0):\n");
if (x == y)
printf(" Test 1.0 / x != 1.0 / y returns %d (should be 1).\n",
1.0 / x != 1.0 / y);
else
printf("x != y; this is wrong!\n");
px = +x;
if (x == px)
printf(" Test 1.0 / x == 1.0 / +x returns %d (should be 1).\n",
1.0 / x == 1.0 / px);
else
printf("x != +x; this is wrong!\n");
py = +y;
if (x == py)
printf(" Test 1.0 / x != 1.0 / +y returns %d (should be 1).\n",
1.0 / x != 1.0 / py);
else
printf("x != +y; this is wrong!\n");
nx = -x;
if (x == nx)
printf(" Test 1.0 / x != 1.0 / -x returns %d (should be 1).\n",
1.0 / x != 1.0 / nx);
else
printf("x != -x; this is wrong!\n");
ny = -y;
if (x == ny)
printf(" Test 1.0 / x == 1.0 / -y returns %d (should be 1).\n",
1.0 / x == 1.0 / ny);
else
printf("x != -y; this is wrong!\n");
}
static void tstadd(double x, double y)
{
double a = x + y;
double s = x - y;
printf("%g + %g = %g\n", x, y, a);
printf("%g - %g = %g\n", x, y, s);
}
static void tstmul(double x, double y)
{
double m = x * y;
printf("%g * %g = %g\n", x, y, m);
}
#define TSTCONST(S, OP) \
printf("Constant expression 1 " S \
" DBL_MIN = %.20g\n" \
"Variable expression 1 " S " DBL_MIN = %.20g\n", \
1.0 OP DBL_MIN, 1.0 OP x);
static void tstconst(void)
{
volatile double x = DBL_MIN;
TSTCONST("+", +);
TSTCONST("-", -);
}
#define TSTDIV(T, S) \
do { \
volatile T x = 1.0, y = 3.0; \
x /= y; \
printf("1/3 in %-12s: %" S "a\n", #T, x); \
} while (0)
static void tstpow(void)
{
double val[] = {0.0, 0.0, 0.0, +0.0, -0.0, +0.5,
-0.5, +1.0, -1.0, +2.0, -2.0};
int i, j;
/* Not used above to avoid an error with IRIX64 cc. */
val[0] = DBL_NAN;
val[1] = DBL_POS_INF;
val[2] = DBL_NEG_INF;
for (i = 0; i < sizeof(val) / sizeof(val[0]); i++)
for (j = 0; j < sizeof(val) / sizeof(val[0]); j++) {
double p;
p = pow(val[i], val[j]);
printf("pow(%g, %g) = %g\n", val[i], val[j], p);
}
}
static void tstall(void)
{
float fm = FLT_MAX, fe = FLT_EPSILON;
double dm = DBL_MAX, de = DBL_EPSILON;
long double lm = LDBL_MAX, le = LDBL_EPSILON;
rnd_detect();
tstcast();
signed_zero_inf();
tstadd(+0.0, +0.0);
tstadd(+0.0, -0.0);
tstadd(-0.0, +0.0);
tstadd(-0.0, -0.0);
tstadd(+1.0, +1.0);
tstadd(+1.0, -1.0);
tstmul(+0.0, +0.0);
tstmul(+0.0, -0.0);
tstmul(-0.0, +0.0);
tstmul(-0.0, -0.0);
tstconst();
TSTDIV(float, "");
TSTDIV(double, "");
TSTDIV(long double, "L");
printf("Dec 1.1 = %a\n", (double) 1.1);
printf("FLT_MAX = %a%s\n", (double) fm, ERRSTR(fm != flt_max));
printf("DBL_MAX = %a%s\n", dm, ERRSTR(dm != dbl_max));
#if 0 /* FIXME: make it work */
printf("LDBL_MAX = %La%s\n", lm, ERRSTR(lm != ldbl_max));
#endif
printf("FLT_EPSILON = %a%s\n", (double) fe, ERRSTR(fe != flt_epsilon));
printf("DBL_EPSILON = %a%s\n", de, ERRSTR(de != dbl_epsilon));
printf("LDBL_EPSILON = %La%s\n", le, ERRSTR(le != ldbl_epsilon));
tstpow();
}
static void tsteval_method(void)
{
volatile double x, y, z;
#if __STDC__ == 1 && __STDC_VERSION__ >= 199901 && defined(__STDC_IEC_559__)
printf(
"__STDC_IEC_559__ defined:\n"
"The implementation shall conform to the IEEE-754 standard.\n");
#ifdef FLT_EVAL_METHOD
printf("FLT_EVAL_METHOD is %d (see ISO/IEC 9899, 5.2.4.2.2#8).\n\n",
(int) FLT_EVAL_METHOD);
#else
printf("But FLT_EVAL_METHOD is not defined!\n\n");
#endif
#endif
x = 9007199254740994.0; /* 2^53 + 2 */
y = 1.0 - 1 / 65536.0;
z = x + y;
printf(
"x + y, with x = 9007199254740994.0 and y = 1.0 - 1/65536.0"
" (type double).\n"
"The IEEE-754 result is 9007199254740994 with double precision.\n"
"The IEEE-754 result is 9007199254740996 with extended precision.\n"
"The obtained result is %.17g.\n",
z);
if (z == 9007199254740996.0) { /* computations in extended precision */
volatile double a, b;
double c;
a = 9007199254740992.0; /* 2^53 */
b = a + 0.25;
c = a + 0.25;
if (b != c)
printf(
"\nBUG:\nThe implementation doesn't seem to convert values "
"to the target type after\nan assignment (see ISO/IEC 9899: "
"5.1.2.3#12, 6.3.1.5#2 and 6.3.1.8#2[52]).\n");
}
}
/* This test is useful only on implementations where the "double" type
* corresponds to the IEEE-754 double precision and the "long double"
* type corresponds to the traditional x86 extended precision, but let's
* do it in any case. It shows a bug in gcc 3.4 to 4.3.3 on x86_64 and
* ia64 platforms. See:
* https://gcc.gnu.org/bugzilla/show_bug.cgi?id=36578
*/
static void ldcast_test(void)
{
volatile double a = 4294967219.0;
volatile double b = 4294967429.0;
double c, d;
long double al, bl;
al = a;
bl = b;
c = (long double) a * (long double) b;
d = al * bl;
if (c != d)
printf(
"\nBUG: Casts to long double do not seem to be taken into "
"account when\nthe result to stored to a variable of type "
"double. If your compiler\nis gcc (version < 4.3.4), this "
"may be the following bug:\n "
"https://gcc.gnu.org/bugzilla/show_bug.cgi?id=36578\n");
}
static void tstnan(void)
{
double d;
/* Various tests to detect a NaN without using the math library (-lm).
* MIPSpro 7.3.1.3m (IRIX64) does too many optimisations, so that both
* NAN != NAN and !(NAN >= 0.0 || NAN <= 0.0) give 0 instead of 1.
* As a consequence, in MPFR, one needs to use
* #define DOUBLE_ISNAN(x) (!(((x) >= 0.0) + ((x) <= 0.0)))
* in this case.
*/
d = NAN;
printf("\n");
printf("NAN != NAN --> %d (should be 1)\n", d != d);
printf("isnan(NAN) --> %d (should be 1)\n", isnan(d));
printf("NAN >= 0.0 --> %d (should be 0)\n", d >= 0.0);
printf("NAN <= 0.0 --> %d (should be 0)\n", d <= 0.0);
printf(" #3||#4 --> %d (should be 0)\n", d >= 0.0 || d <= 0.0);
printf("!(#3||#4) --> %d (should be 1)\n", !(d >= 0.0 || d <= 0.0));
printf(" #3 + #4 --> %d (should be 0)\n", (d >= 0.0) + (d <= 0.0));
printf("!(#3 + #4) --> %d (should be 1)\n", !((d >= 0.0) + (d <= 0.0)));
}
#define TSTINVALID(F, C) \
do { \
feclearexcept(FE_INVALID); \
(void) (d C 0.0); \
if ((F) ^ !fetestexcept(FE_INVALID)) \
printf("The FE_INVALID flag is%s set for NAN " #C " 0.\n", \
(F) ? "" : " not"); \
} while (0)
static void tstinvalid(void)
{
#ifdef NO_FENV_H
printf("The FE_INVALID flag could not be tested (no <fenv.h>)\n");
#else
double d = NAN;
TSTINVALID(1, ==);
TSTINVALID(1, !=);
TSTINVALID(0, >=);
TSTINVALID(0, <=);
TSTINVALID(0, >);
TSTINVALID(0, <);
#endif
}
/* Note: we do not use the FP_CONTRACT pragma locally (in a block) as icc 10.1
* seems to disable contraction when it sees FP_CONTRACT OFF somewhere in the
* source.
*/
static void fused_madd_test(void)
{
#define TWO40 (1099511627776.0) /* 2^40 */
#define C1U40 (1.0 + 1.0 / TWO40) /* 1 + 2^(-40) */
volatile double x = C1U40, y = C1U40, z = -1.0, d;
d = x * y + z;
printf("\nx * y + z with FP_CONTRACT " FP_CONTRACT " is %sfused.\n",
d == 2.0 * (1 + 0.5 / TWO40) / TWO40 ? "" : "not ");
}
/* FE_INVALID exception with Clang:
* https://bugs.llvm.org/show_bug.cgi?id=17686 [old]
* https://github.com/llvm/llvm-project/issues/18060
*/
static void double_to_unsigned(void)
{
uint64_t i = (uint64_t) 1 << 63;
volatile double d = i;
feclearexcept(FE_INVALID);
int t1 = (uint64_t) d != i;
int t2 = fetestexcept(FE_INVALID);
if (t1 || t2)
printf("\nError in cast of double to unsigned: %s value%s\n",
t1 ? "incorrect" : "correct", t2 ? ", FE_INVALID" : "");
}
static void ibm_ldconv(void)
{
#define CAT1(X) 1##X
#define CAT2(X) CAT1(X)
#define LD0 .000000000000000000000000000000000001L
#define LD1 CAT2(LD0)
long double x = 1.0L + LD0, y = LD1;
if (x > 1.0L && y == 1.0L) {
printf("\nBad conversion of " MAKE_STR(LD1) "\n");
printf("Got 1 instead of about 1 + %La\n", x - 1.0L);
}
}
int main(void)
{
float_h();
float_sizeof();
tsteval_method();
ldcast_test();
tstnan();
tstinvalid();
fused_madd_test();
double_to_unsigned();
if (LDBL_MIN_EXP == -968 && LDBL_MAX_EXP == 1024 &&
LDBL_MANT_DIG == 106) /* IBM long double format, i.e. double-double */
ibm_ldconv();
printf("\nRounding to nearest\n");
#ifdef FE_TONEAREST
if (fesetround(FE_TONEAREST))
printf(
"Error, but let's do the test since it "
"should be the default rounding mode.\n");
#endif
tstall();
#ifdef FE_TOWARDZERO
printf("\nRounding toward 0\n");
if (fesetround(FE_TOWARDZERO))
printf("Error\n");
else
tstall();
#endif
#ifdef FE_DOWNWARD
printf("\nRounding to -oo\n");
if (fesetround(FE_DOWNWARD))
printf("Error\n");
else
tstall();
#endif
#ifdef FE_UPWARD
printf("\nRounding to +oo\n");
if (fesetround(FE_UPWARD))
printf("Error\n");
else
tstall();
#endif
return 0;
}