fabs
fabsl, fabs, fabsf, x)
} else if (x >= DBL_EPSILON * fabs(y - 1)) {
} else if (x >= DBL_EPSILON * fabs(y - 1)) {
ax = fabs(x);
ay = fabs(y);
#define isinf(x) (fabs(x) == INFINITY)
ax = fabs(x);
ay = fabs(y);
rx = fabs(cimag(w));
return (CMPLX(fabs(ry), rx));
return (CMPLX(fabs(ry), copysign(rx, cimag(z))));
ax = fabs(x);
ay = fabs(y);
ax = fabs(x);
ay = fabs(y);
w = one-fabs(x);
else z=atan(fabs(y/x)); /* safe to do y/x */
t = expm1(fabs(x));
t = exp(fabs(x));
if (ix < 0x40862E42) return half*exp(fabs(x));
return __ldexp_exp(fabs(x), -1);
a = fabs(a);
b = fabs(b);
w = fabsl(x+0.0L)-fabs(y+0);
x = fabs(x);
y = fabs(x);
tmp = tmp*log(fabs(v*tmp));
if (fabs(z) >= fabs(w))
x = fabs(x);
return -log(fabs(x));
nadj = log(pi/fabs(t*x));
ax = fabs(x);
x = fabs(x);
p = fabs(p);
t = expm1(fabs(x));
if (ix < 0x40862E42) return h*exp(fabs(x));
return h*2.0*__ldexp_exp(fabs(x), -1);
double fabs(double) __pure2;
w = log(fabs(x))+ln2;
t = fabs(x);
w =log1p(fabs(x)+t/(one+sqrt(one+t)));
x = fabs(x);
h = exp(fabs(x)) / 2;
z = __ldexp_cexp(CMPLX(fabs(x), y), -1);
ax = fabs(x);
ay = fabs(y);
h = exp(fabs(x)) / 2;
z = __ldexp_cexp(CMPLX(fabs(x), y), -1);
rx = scale * fabs(b) / (2 * t);
return (CMPLX(fabs(b - b), copysign(a, b)));
if (fabs(a) >= THRESH || fabs(b) >= THRESH) {
if (fabs(a) >= 0x1p-1020)
if (fabs(b) >= 0x1p-1020)
if (fabs(a) < 0x1p-1022 && fabs(b) < 0x1p-1022) {
double exp_mx = exp(-fabs(x));
s = fabs(x)-one;
x = fabs(x);
s = fabs(x)-one;
x = fabs(x);
if((ix|lx)==0) return -1.0/fabs(x);
y = fabs(y);
t = expm1(two*fabs(x));
t = expm1(-two*fabs(x));
ATF_CHECK(fabs(sinf(f_pi_odd[i])) < FLT_EPSILON);
ATF_CHECK(fabs(tan(f_pi_odd[i])) < FLT_EPSILON);
ATF_CHECK(fabs(sinf(-f_pi_odd[i])) < FLT_EPSILON);
ATF_CHECK(fabs(tanf(-f_pi_odd[i])) < FLT_EPSILON);
ATF_CHECK(fabs(sinf(f_pi_odd[i] * 2)) < FLT_EPSILON);
ATF_CHECK(fabs(tanf(f_pi_odd[i] * 2)) < FLT_EPSILON);
ATF_CHECK(fabs(sinf(-f_pi_odd[i] * 2)) < FLT_EPSILON);
ATF_CHECK(fabs(tanf(-f_pi_odd[i] * 2)) < FLT_EPSILON);
ATF_CHECK(fabs(sin(d_pi_odd[i])) < 2 * DBL_EPSILON);
ATF_CHECK(fabs(tan(d_pi_odd[i])) < 2 * DBL_EPSILON);
ATF_CHECK(fabs(sin(-d_pi_odd[i])) < 2 * DBL_EPSILON);
ATF_CHECK(fabs(tan(-d_pi_odd[i])) < 2 * DBL_EPSILON);
ATF_CHECK(fabs(sin(d_pi_odd[i] * 2)) < 2 * DBL_EPSILON);
ATF_CHECK(fabs(tan(d_pi_odd[i] * 2)) < 2 * DBL_EPSILON);
ATF_CHECK(fabs(sin(-d_pi_odd[i] * 2)) < 2 * DBL_EPSILON);
ATF_CHECK(fabs(tan(-d_pi_odd[i] * 2)) < 2 * DBL_EPSILON);
opts->maxidle = (u_int)fabs(maxidle);
opts->offtime = (u_int)fabs(offtime);
FPU_EMU_EVCNT_DECL(fabs);
FPU_EMU_EVCNT_INCR(fabs);
eps = fabs(expected - v.f) / expected;
ATF_CHECK(fabs(v.f - 0.0) < FLT_EPSILON);
maxe_dbl = fabs(((1.0 / Q_NFBITS(a_s64q)) * (double)b_int) +
delta_dbl = fabs(r_dbl - Q_Q2D(r_s64q));
maxe_dbl = fabs(1.0 / (1ULL << Q_NFBITS(a_s64q)));
delta_dbl = fabs(r_dbl - Q_Q2D(r_s64q));
delta_dbl = fabs(r_dbl - Q_Q2D(r_s64q));
delta_dbl = fabs(r_dbl - Q_Q2D(r_s64q));
maxe_dbl = fabs(1.0 / Q_NFBITS(a_s64q));
delta_dbl = fabs(r_dbl - Q_Q2D(r_s64q));
maxe_dbl = fabs((1.0 / Q_NFBITS(a_s64q)) * (double)b_int);
delta_dbl = fabs(r_dbl - Q_Q2D(r_s64q));
delta_dbl = fabs(r_dbl - Q_Q2D(r_s64q));
delta_dbl = fabs(r_dbl - Q_Q2D(r_s64q));
PASS_REAL_ARG_REAL_RET(fabs) &&
PASS_COMPLEX_ARG_REAL_RET(fabs));
TGMACRO_REAL(fabs)
if (fabs(d) > e) {
sum += fabs(eq->fftw_time[i]);