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core: implement log10, sinh and cosh for real numbers.

legacy
Sam Hocevar sam 13 jaren geleden
bovenliggende
commit
b354e17ef3
2 gewijzigde bestanden met toevoegingen van 45 en 8 verwijderingen
  1. +40
    -6
      src/real.cpp
  2. +5
    -2
      src/real.h

+ 40
- 6
src/real.cpp Bestand weergeven

@@ -678,12 +678,18 @@ real log2(real const &x)
+ fast_log(tmp) * real::R_LOG2E;
}

static real fast_exp(real const &x)
real log10(real const &x)
{
/* This fast exp method is tuned to work on the [0..1] range and
return log(x) * real::R_LOG10E;
}

static real fast_exp_sub(real const &x, real const &y)
{
/* This fast exp method is tuned to work on the [-1..1] range and
* no effort whatsoever was made to improve convergence outside this
* domain of validity. */
real ret = real::R_1, fact = real::R_1, xn = x;
* domain of validity. The argument y is used for cases where we
* don't want the leading 1 in the Taylor series. */
real ret = real::R_1 - y, fact = real::R_1, xn = x;

for (int i = 1; ; i++)
{
@@ -721,7 +727,7 @@ real exp(real const &x)
*/
int e0 = x / real::R_LN2;
real x0 = x - (real)e0 * real::R_LN2;
real x1 = fast_exp(x0);
real x1 = fast_exp_sub(x0, real::R_0);
x1.m_signexp += e0;
return x1;
}
@@ -731,11 +737,39 @@ real exp2(real const &x)
/* Strategy for exp2(x): see strategy in exp(). */
int e0 = x;
real x0 = x - (real)e0;
real x1 = fast_exp(x0 * real::R_LN2);
real x1 = fast_exp_sub(x0 * real::R_LN2, real::R_0);
x1.m_signexp += e0;
return x1;
}

real sinh(real const &x)
{
/* We cannot always use (exp(x)-exp(-x))/2 because we'll lose
* accuracy near zero. We only use this identity for |x|>0.5. If
* |x|<=0.5, we compute exp(x)-1 and exp(-x)-1 instead. */
bool near_zero = (fabs(x) < real::R_1 >> 1);
real x1 = near_zero ? fast_exp_sub(x, real::R_1) : exp(x);
real x2 = near_zero ? fast_exp_sub(-x, real::R_1) : exp(-x);
return (x1 - x2) >> 1;
}

real tanh(real const &x)
{
/* See sinh() for the strategy here */
bool near_zero = (fabs(x) < real::R_1 >> 1);
real x1 = near_zero ? fast_exp_sub(x, real::R_1) : exp(x);
real x2 = near_zero ? fast_exp_sub(-x, real::R_1) : exp(-x);
real x3 = near_zero ? x1 + x2 + real::R_2 : x1 + x2;
return (x1 - x2) / x3;
}

real cosh(real const &x)
{
/* No need to worry about accuracy here; maybe the last bit is slightly
* off, but that's about it. */
return (exp(x) + exp(-x)) >> 1;
}

real copysign(real const &x, real const &y)
{
real ret = x;


+ 5
- 2
src/real.h Bestand weergeven

@@ -72,14 +72,17 @@ public:
/* FIXME: atan2 */

/* Hyperbolic functions */
/* FIXME: sinh cosh tanh */
friend real sinh(real const &x);
friend real cosh(real const &x);
friend real tanh(real const &x);

/* Exponential and logarithmic functions */
friend real exp(real const &x);
friend real exp2(real const &x);
friend real log(real const &x);
friend real log2(real const &x);
/* FIXME: frexp ldexp log10 modf */
friend real log10(real const &x);
/* FIXME: frexp ldexp modf */

/* Power functions */
friend real re(real const &x);


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