logl
long double logl(long double);
rscheck(rwset, p1, p2, e, flags, logl, host, logid, addr)
int logl;
if (LogLevel > logl)
tls_rand_init(randfile, logl)
int logl;
if (LogLevel > logl)
if (LogLevel > logl)
if (LogLevel > logl)
if (LogLevel > logl)
if (LogLevel > logl)
if (LogLevel > logl)
if (LogLevel > logl)
if (LogLevel > logl)
extern long double logl(long double);
return (primary(x-y)+logl((x-c1)*(x-c2)));
return (primary(x-y)+logl((x-c1)*(x-c2)*(x-c3)));
return (primary(x-y)+logl((x-c1)*(x-c2)*(x-c3)*(x-c4)));
return (primary(x-y)+logl((x-c1)*(x-c2)*(x-c3)*(x-c4)*(x-c5)));
logl((x-c1)*(x-c2)*(x-c3)*(x-c4)*(x-c5)*(x-c6));
t = logl(x);
return (x*(logl(x)-c1));
p = -logl(z);
p = logl(pi/(fabsl(t)*z)) - __k_lgammal(z, signgamlp);
return (-logl(x));
return (primary(x)-log1pl(x))-logl(x);
return (primary(x-y)-logl(x));
return (primary(x-y)+logl(x-c1));
return (logl(x) + ln2);
return (copysignl(logl(w) + ln2, x));
return (u0[0] + tpi*logl(x));
return (u/v + tpi*(j0l(x)*logl(x)));
return (x*(u/v) + tpi*(j1l(x)*logl(x)-one/x));
tmp = tmp*logl(fabsl(v*tmp));
return (logl(x));
x = logl(x);
x *= logl(y) / (y - 1.L);
extern long double logl(long double);
return primary(x-y)+logl((x-c1)*(x-c2)*(x-c3)*(x-c4));
return primary(x-y)+logl((x-c1)*(x-c2)*(x-c3)*(x-c4)*(x-c5));
logl((x-c1)*(x-c2)*(x-c3)*(x-c4)*(x-c5)*(x-c6));
t = logl(x);
return x*(logl(x)-c1);
p = -logl(z);
p = logl(pi/(fabsl(t)*z))-__k_lgammal(z,signgamlp);
if (x<1.0e-40L) return -logl(x); else
return (primary(x)-log1pl(x))-logl(x);
return primary(x-y)-logl(x);
return primary(x-y)+logl(x-c1);
return primary(x-y)+logl((x-c1)*(x-c2));
return primary(x-y)+logl((x-c1)*(x-c2)*(x-c3));
return (logl(x) + ln2);
return (copysignl(logl(w) + ln2, x));
return (u0[0] + tpi*logl(x));
return(u/v + tpi*(j0l(x)*logl(x)));
return(x*(u/v) + tpi*(j1l(x)*logl(x)-one/x));
tmp = tmp*logl(fabsl(v*tmp));
z = y * log10_2lo + ivln10 * logl(x);
return (logl(x));
return (n + invln2 * logl(x));
extern long double logl(long double);
LD_IM(ans) = ln2 + logl(x);
LD_IM(ans) = logl(x + sqrtl((x - one) * (x +
LD_IM(ans) = ln2 + logl(fabsl(x));
LD_IM(ans) = logl(x + t);
LD_IM(ans) = ln2 + logl(y);
LD_IM(ans) = ln2 + logl(y) + half * log1pl(t * t);
LD_IM(ans) = logl(y + A);
LD_IM(ans) = logl(A + sqrtl(A * A - one));
LD_IM(ans) = ln2 + logl(x);
LD_IM(ans) = logl(x + sqrtl((x - one) * (x +
LD_IM(ans) = ln2 + logl(x);
LD_IM(ans) = logl(x + sqrtl((x - one) * (x +
LD_IM(ans) = ln2 + logl(y);
LD_IM(ans) = ln2 + logl(y) + half * log1pl(t * t);
LD_IM(ans) = logl(y + A);
LD_IM(ans) = logl(A + sqrtl(A * A - one));
LD_IM(ans) = half * (ln2 - logl(ax));
LD_RE(ans) = logl(ax) + half * log1pl(t * t);
LD_RE(ans) = logl(ax);
LD_RE(ans) = logl(ax);
LD_RE(ans) = logl(ax);
LD_RE(ans) = logl(ax);
LD_RE(ans) = half * logl(ax * ax + ay * ay);
tx_rng_err_logl_t logl;
TXDMA_REG_READ64(handle, TX_RNG_ERR_LOGL_REG, channel, &logl.value);
ring_errlog_p->logl.bits.ldw.err_addr = logl.bits.ldw.err_addr;
tx_rng_err_logl_t logl;
statsp->tdc_stats[err_chan].errlog.logl.value,