
(FPCore (s r) :precision binary32 (+ (/ (* 0.25 (exp (/ (- r) s))) (* (* (* 2.0 PI) s) r)) (/ (* 0.75 (exp (/ (- r) (* 3.0 s)))) (* (* (* 6.0 PI) s) r))))
float code(float s, float r) {
return ((0.25f * expf((-r / s))) / (((2.0f * ((float) M_PI)) * s) * r)) + ((0.75f * expf((-r / (3.0f * s)))) / (((6.0f * ((float) M_PI)) * s) * r));
}
function code(s, r) return Float32(Float32(Float32(Float32(0.25) * exp(Float32(Float32(-r) / s))) / Float32(Float32(Float32(Float32(2.0) * Float32(pi)) * s) * r)) + Float32(Float32(Float32(0.75) * exp(Float32(Float32(-r) / Float32(Float32(3.0) * s)))) / Float32(Float32(Float32(Float32(6.0) * Float32(pi)) * s) * r))) end
function tmp = code(s, r) tmp = ((single(0.25) * exp((-r / s))) / (((single(2.0) * single(pi)) * s) * r)) + ((single(0.75) * exp((-r / (single(3.0) * s)))) / (((single(6.0) * single(pi)) * s) * r)); end
\begin{array}{l}
\\
\frac{0.25 \cdot e^{\frac{-r}{s}}}{\left(\left(2 \cdot \pi\right) \cdot s\right) \cdot r} + \frac{0.75 \cdot e^{\frac{-r}{3 \cdot s}}}{\left(\left(6 \cdot \pi\right) \cdot s\right) \cdot r}
\end{array}
Sampling outcomes in binary32 precision:
Herbie found 17 alternatives:
| Alternative | Accuracy | Speedup |
|---|
(FPCore (s r) :precision binary32 (+ (/ (* 0.25 (exp (/ (- r) s))) (* (* (* 2.0 PI) s) r)) (/ (* 0.75 (exp (/ (- r) (* 3.0 s)))) (* (* (* 6.0 PI) s) r))))
float code(float s, float r) {
return ((0.25f * expf((-r / s))) / (((2.0f * ((float) M_PI)) * s) * r)) + ((0.75f * expf((-r / (3.0f * s)))) / (((6.0f * ((float) M_PI)) * s) * r));
}
function code(s, r) return Float32(Float32(Float32(Float32(0.25) * exp(Float32(Float32(-r) / s))) / Float32(Float32(Float32(Float32(2.0) * Float32(pi)) * s) * r)) + Float32(Float32(Float32(0.75) * exp(Float32(Float32(-r) / Float32(Float32(3.0) * s)))) / Float32(Float32(Float32(Float32(6.0) * Float32(pi)) * s) * r))) end
function tmp = code(s, r) tmp = ((single(0.25) * exp((-r / s))) / (((single(2.0) * single(pi)) * s) * r)) + ((single(0.75) * exp((-r / (single(3.0) * s)))) / (((single(6.0) * single(pi)) * s) * r)); end
\begin{array}{l}
\\
\frac{0.25 \cdot e^{\frac{-r}{s}}}{\left(\left(2 \cdot \pi\right) \cdot s\right) \cdot r} + \frac{0.75 \cdot e^{\frac{-r}{3 \cdot s}}}{\left(\left(6 \cdot \pi\right) \cdot s\right) \cdot r}
\end{array}
(FPCore (s r) :precision binary32 (+ (/ (* 0.25 (exp (/ r (- s)))) (* r (* s (* 2.0 PI)))) (/ (* 0.75 (exp (/ r (* s (- 3.0))))) (* r (* s (* PI 6.0))))))
float code(float s, float r) {
return ((0.25f * expf((r / -s))) / (r * (s * (2.0f * ((float) M_PI))))) + ((0.75f * expf((r / (s * -3.0f)))) / (r * (s * (((float) M_PI) * 6.0f))));
}
function code(s, r) return Float32(Float32(Float32(Float32(0.25) * exp(Float32(r / Float32(-s)))) / Float32(r * Float32(s * Float32(Float32(2.0) * Float32(pi))))) + Float32(Float32(Float32(0.75) * exp(Float32(r / Float32(s * Float32(-Float32(3.0)))))) / Float32(r * Float32(s * Float32(Float32(pi) * Float32(6.0)))))) end
function tmp = code(s, r) tmp = ((single(0.25) * exp((r / -s))) / (r * (s * (single(2.0) * single(pi))))) + ((single(0.75) * exp((r / (s * -single(3.0))))) / (r * (s * (single(pi) * single(6.0))))); end
\begin{array}{l}
\\
\frac{0.25 \cdot e^{\frac{r}{-s}}}{r \cdot \left(s \cdot \left(2 \cdot \pi\right)\right)} + \frac{0.75 \cdot e^{\frac{r}{s \cdot \left(-3\right)}}}{r \cdot \left(s \cdot \left(\pi \cdot 6\right)\right)}
\end{array}
Initial program 99.6%
Final simplification99.6%
(FPCore (s r) :precision binary32 (+ (/ (/ 0.125 (exp (/ r s))) (* r (* s PI))) (* 0.75 (/ (pow E (* r (/ -0.3333333333333333 s))) (* r (* 6.0 (* s PI)))))))
float code(float s, float r) {
return ((0.125f / expf((r / s))) / (r * (s * ((float) M_PI)))) + (0.75f * (powf(((float) M_E), (r * (-0.3333333333333333f / s))) / (r * (6.0f * (s * ((float) M_PI))))));
}
function code(s, r) return Float32(Float32(Float32(Float32(0.125) / exp(Float32(r / s))) / Float32(r * Float32(s * Float32(pi)))) + Float32(Float32(0.75) * Float32((Float32(exp(1)) ^ Float32(r * Float32(Float32(-0.3333333333333333) / s))) / Float32(r * Float32(Float32(6.0) * Float32(s * Float32(pi))))))) end
function tmp = code(s, r) tmp = ((single(0.125) / exp((r / s))) / (r * (s * single(pi)))) + (single(0.75) * ((single(2.71828182845904523536) ^ (r * (single(-0.3333333333333333) / s))) / (r * (single(6.0) * (s * single(pi)))))); end
\begin{array}{l}
\\
\frac{\frac{0.125}{e^{\frac{r}{s}}}}{r \cdot \left(s \cdot \pi\right)} + 0.75 \cdot \frac{{e}^{\left(r \cdot \frac{-0.3333333333333333}{s}\right)}}{r \cdot \left(6 \cdot \left(s \cdot \pi\right)\right)}
\end{array}
Initial program 99.6%
times-frac99.6%
*-commutative99.6%
distribute-frac-neg99.6%
associate-/l*99.6%
*-commutative99.6%
*-commutative99.6%
associate-*l*99.6%
Simplified99.6%
Taylor expanded in s around 0 99.6%
associate-*r/99.6%
rec-exp99.6%
associate-*r/99.6%
metadata-eval99.6%
Simplified99.6%
*-un-lft-identity99.6%
exp-prod99.6%
neg-mul-199.6%
*-commutative99.6%
times-frac99.6%
metadata-eval99.6%
associate-*r/99.6%
*-commutative99.6%
associate-/l*99.6%
Applied egg-rr99.6%
exp-1-e99.6%
Simplified99.6%
Final simplification99.6%
(FPCore (s r) :precision binary32 (+ (* 0.75 (/ (pow E (* r (/ -0.3333333333333333 s))) (* r (* 6.0 (* s PI))))) (/ (/ 0.125 r) (* PI (* s (exp (/ r s)))))))
float code(float s, float r) {
return (0.75f * (powf(((float) M_E), (r * (-0.3333333333333333f / s))) / (r * (6.0f * (s * ((float) M_PI)))))) + ((0.125f / r) / (((float) M_PI) * (s * expf((r / s)))));
}
function code(s, r) return Float32(Float32(Float32(0.75) * Float32((Float32(exp(1)) ^ Float32(r * Float32(Float32(-0.3333333333333333) / s))) / Float32(r * Float32(Float32(6.0) * Float32(s * Float32(pi)))))) + Float32(Float32(Float32(0.125) / r) / Float32(Float32(pi) * Float32(s * exp(Float32(r / s)))))) end
function tmp = code(s, r) tmp = (single(0.75) * ((single(2.71828182845904523536) ^ (r * (single(-0.3333333333333333) / s))) / (r * (single(6.0) * (s * single(pi)))))) + ((single(0.125) / r) / (single(pi) * (s * exp((r / s))))); end
\begin{array}{l}
\\
0.75 \cdot \frac{{e}^{\left(r \cdot \frac{-0.3333333333333333}{s}\right)}}{r \cdot \left(6 \cdot \left(s \cdot \pi\right)\right)} + \frac{\frac{0.125}{r}}{\pi \cdot \left(s \cdot e^{\frac{r}{s}}\right)}
\end{array}
Initial program 99.6%
times-frac99.6%
*-commutative99.6%
distribute-frac-neg99.6%
associate-/l*99.6%
*-commutative99.6%
*-commutative99.6%
associate-*l*99.6%
Simplified99.6%
Taylor expanded in s around 0 99.6%
associate-*r/99.6%
rec-exp99.6%
associate-*r/99.6%
metadata-eval99.6%
Simplified99.6%
*-un-lft-identity99.6%
exp-prod99.6%
neg-mul-199.6%
*-commutative99.6%
times-frac99.6%
metadata-eval99.6%
associate-*r/99.6%
*-commutative99.6%
associate-/l*99.6%
Applied egg-rr99.6%
exp-1-e99.6%
Simplified99.6%
Taylor expanded in r around inf 99.6%
associate-/r*99.6%
associate-*r*99.6%
*-commutative99.6%
associate-*l*99.6%
Simplified99.6%
Final simplification99.6%
(FPCore (s r) :precision binary32 (+ (/ (/ 0.125 (exp (/ r s))) (* r (* s PI))) (* 0.75 (/ (exp (/ r (* s -3.0))) (* r (* 6.0 (* s PI)))))))
float code(float s, float r) {
return ((0.125f / expf((r / s))) / (r * (s * ((float) M_PI)))) + (0.75f * (expf((r / (s * -3.0f))) / (r * (6.0f * (s * ((float) M_PI))))));
}
function code(s, r) return Float32(Float32(Float32(Float32(0.125) / exp(Float32(r / s))) / Float32(r * Float32(s * Float32(pi)))) + Float32(Float32(0.75) * Float32(exp(Float32(r / Float32(s * Float32(-3.0)))) / Float32(r * Float32(Float32(6.0) * Float32(s * Float32(pi))))))) end
function tmp = code(s, r) tmp = ((single(0.125) / exp((r / s))) / (r * (s * single(pi)))) + (single(0.75) * (exp((r / (s * single(-3.0)))) / (r * (single(6.0) * (s * single(pi)))))); end
\begin{array}{l}
\\
\frac{\frac{0.125}{e^{\frac{r}{s}}}}{r \cdot \left(s \cdot \pi\right)} + 0.75 \cdot \frac{e^{\frac{r}{s \cdot -3}}}{r \cdot \left(6 \cdot \left(s \cdot \pi\right)\right)}
\end{array}
Initial program 99.6%
times-frac99.6%
*-commutative99.6%
distribute-frac-neg99.6%
associate-/l*99.6%
*-commutative99.6%
*-commutative99.6%
associate-*l*99.6%
Simplified99.6%
Taylor expanded in s around 0 99.6%
associate-*r/99.6%
rec-exp99.6%
associate-*r/99.6%
metadata-eval99.6%
Simplified99.6%
distribute-frac-neg99.6%
Applied egg-rr99.6%
distribute-neg-frac299.6%
distribute-rgt-neg-in99.6%
metadata-eval99.6%
Simplified99.6%
Final simplification99.6%
(FPCore (s r)
:precision binary32
(let* ((t_0 (* r (* s PI))))
(+
(/ (/ 0.125 (exp (/ r s))) t_0)
(*
0.75
(* 0.16666666666666666 (/ (exp (* (/ r s) -0.3333333333333333)) t_0))))))
float code(float s, float r) {
float t_0 = r * (s * ((float) M_PI));
return ((0.125f / expf((r / s))) / t_0) + (0.75f * (0.16666666666666666f * (expf(((r / s) * -0.3333333333333333f)) / t_0)));
}
function code(s, r) t_0 = Float32(r * Float32(s * Float32(pi))) return Float32(Float32(Float32(Float32(0.125) / exp(Float32(r / s))) / t_0) + Float32(Float32(0.75) * Float32(Float32(0.16666666666666666) * Float32(exp(Float32(Float32(r / s) * Float32(-0.3333333333333333))) / t_0)))) end
function tmp = code(s, r) t_0 = r * (s * single(pi)); tmp = ((single(0.125) / exp((r / s))) / t_0) + (single(0.75) * (single(0.16666666666666666) * (exp(((r / s) * single(-0.3333333333333333))) / t_0))); end
\begin{array}{l}
\\
\begin{array}{l}
t_0 := r \cdot \left(s \cdot \pi\right)\\
\frac{\frac{0.125}{e^{\frac{r}{s}}}}{t\_0} + 0.75 \cdot \left(0.16666666666666666 \cdot \frac{e^{\frac{r}{s} \cdot -0.3333333333333333}}{t\_0}\right)
\end{array}
\end{array}
Initial program 99.6%
times-frac99.6%
*-commutative99.6%
distribute-frac-neg99.6%
associate-/l*99.6%
*-commutative99.6%
*-commutative99.6%
associate-*l*99.6%
Simplified99.6%
Taylor expanded in s around 0 99.6%
associate-*r/99.6%
rec-exp99.6%
associate-*r/99.6%
metadata-eval99.6%
Simplified99.6%
Taylor expanded in r around inf 99.6%
Final simplification99.6%
(FPCore (s r) :precision binary32 (/ (+ (* 0.125 (/ (exp (/ r (- s))) (* s PI))) (* 0.125 (/ (exp (* (/ r s) -0.3333333333333333)) (* s PI)))) r))
float code(float s, float r) {
return ((0.125f * (expf((r / -s)) / (s * ((float) M_PI)))) + (0.125f * (expf(((r / s) * -0.3333333333333333f)) / (s * ((float) M_PI))))) / r;
}
function code(s, r) return Float32(Float32(Float32(Float32(0.125) * Float32(exp(Float32(r / Float32(-s))) / Float32(s * Float32(pi)))) + Float32(Float32(0.125) * Float32(exp(Float32(Float32(r / s) * Float32(-0.3333333333333333))) / Float32(s * Float32(pi))))) / r) end
function tmp = code(s, r) tmp = ((single(0.125) * (exp((r / -s)) / (s * single(pi)))) + (single(0.125) * (exp(((r / s) * single(-0.3333333333333333))) / (s * single(pi))))) / r; end
\begin{array}{l}
\\
\frac{0.125 \cdot \frac{e^{\frac{r}{-s}}}{s \cdot \pi} + 0.125 \cdot \frac{e^{\frac{r}{s} \cdot -0.3333333333333333}}{s \cdot \pi}}{r}
\end{array}
Initial program 99.6%
+-commutative99.6%
times-frac99.6%
fma-define99.6%
associate-*l*99.5%
associate-/r*99.6%
metadata-eval99.6%
*-commutative99.6%
neg-mul-199.6%
times-frac99.6%
metadata-eval99.6%
times-frac99.5%
Simplified99.5%
Taylor expanded in r around inf 99.6%
Final simplification99.6%
(FPCore (s r) :precision binary32 (* 0.125 (/ (+ (exp (/ r (- s))) (exp (* (/ r s) -0.3333333333333333))) (* r (* s PI)))))
float code(float s, float r) {
return 0.125f * ((expf((r / -s)) + expf(((r / s) * -0.3333333333333333f))) / (r * (s * ((float) M_PI))));
}
function code(s, r) return Float32(Float32(0.125) * Float32(Float32(exp(Float32(r / Float32(-s))) + exp(Float32(Float32(r / s) * Float32(-0.3333333333333333)))) / Float32(r * Float32(s * Float32(pi))))) end
function tmp = code(s, r) tmp = single(0.125) * ((exp((r / -s)) + exp(((r / s) * single(-0.3333333333333333)))) / (r * (s * single(pi)))); end
\begin{array}{l}
\\
0.125 \cdot \frac{e^{\frac{r}{-s}} + e^{\frac{r}{s} \cdot -0.3333333333333333}}{r \cdot \left(s \cdot \pi\right)}
\end{array}
Initial program 99.6%
Simplified99.3%
Taylor expanded in r around inf 99.5%
mul-1-neg99.5%
rec-exp99.5%
frac-2neg99.5%
metadata-eval99.5%
Applied egg-rr99.5%
distribute-frac-neg299.5%
distribute-neg-frac99.5%
metadata-eval99.5%
rec-exp99.5%
distribute-neg-frac299.5%
Simplified99.5%
Final simplification99.5%
(FPCore (s r) :precision binary32 (+ (* 0.75 (/ (pow E (* r (/ -0.3333333333333333 s))) (* r (* 6.0 (* s PI))))) (/ (/ 0.125 (+ (/ r s) 1.0)) (* r (* s PI)))))
float code(float s, float r) {
return (0.75f * (powf(((float) M_E), (r * (-0.3333333333333333f / s))) / (r * (6.0f * (s * ((float) M_PI)))))) + ((0.125f / ((r / s) + 1.0f)) / (r * (s * ((float) M_PI))));
}
function code(s, r) return Float32(Float32(Float32(0.75) * Float32((Float32(exp(1)) ^ Float32(r * Float32(Float32(-0.3333333333333333) / s))) / Float32(r * Float32(Float32(6.0) * Float32(s * Float32(pi)))))) + Float32(Float32(Float32(0.125) / Float32(Float32(r / s) + Float32(1.0))) / Float32(r * Float32(s * Float32(pi))))) end
function tmp = code(s, r) tmp = (single(0.75) * ((single(2.71828182845904523536) ^ (r * (single(-0.3333333333333333) / s))) / (r * (single(6.0) * (s * single(pi)))))) + ((single(0.125) / ((r / s) + single(1.0))) / (r * (s * single(pi)))); end
\begin{array}{l}
\\
0.75 \cdot \frac{{e}^{\left(r \cdot \frac{-0.3333333333333333}{s}\right)}}{r \cdot \left(6 \cdot \left(s \cdot \pi\right)\right)} + \frac{\frac{0.125}{\frac{r}{s} + 1}}{r \cdot \left(s \cdot \pi\right)}
\end{array}
Initial program 99.6%
times-frac99.6%
*-commutative99.6%
distribute-frac-neg99.6%
associate-/l*99.6%
*-commutative99.6%
*-commutative99.6%
associate-*l*99.6%
Simplified99.6%
Taylor expanded in s around 0 99.6%
associate-*r/99.6%
rec-exp99.6%
associate-*r/99.6%
metadata-eval99.6%
Simplified99.6%
*-un-lft-identity99.6%
exp-prod99.6%
neg-mul-199.6%
*-commutative99.6%
times-frac99.6%
metadata-eval99.6%
associate-*r/99.6%
*-commutative99.6%
associate-/l*99.6%
Applied egg-rr99.6%
exp-1-e99.6%
Simplified99.6%
Taylor expanded in r around 0 13.5%
Final simplification13.5%
(FPCore (s r) :precision binary32 (+ (* 0.75 (/ (pow E (* r (/ -0.3333333333333333 s))) (* r (* 6.0 (* s PI))))) (/ (/ 0.125 r) (* PI (* s (+ (/ r s) 1.0))))))
float code(float s, float r) {
return (0.75f * (powf(((float) M_E), (r * (-0.3333333333333333f / s))) / (r * (6.0f * (s * ((float) M_PI)))))) + ((0.125f / r) / (((float) M_PI) * (s * ((r / s) + 1.0f))));
}
function code(s, r) return Float32(Float32(Float32(0.75) * Float32((Float32(exp(1)) ^ Float32(r * Float32(Float32(-0.3333333333333333) / s))) / Float32(r * Float32(Float32(6.0) * Float32(s * Float32(pi)))))) + Float32(Float32(Float32(0.125) / r) / Float32(Float32(pi) * Float32(s * Float32(Float32(r / s) + Float32(1.0)))))) end
function tmp = code(s, r) tmp = (single(0.75) * ((single(2.71828182845904523536) ^ (r * (single(-0.3333333333333333) / s))) / (r * (single(6.0) * (s * single(pi)))))) + ((single(0.125) / r) / (single(pi) * (s * ((r / s) + single(1.0))))); end
\begin{array}{l}
\\
0.75 \cdot \frac{{e}^{\left(r \cdot \frac{-0.3333333333333333}{s}\right)}}{r \cdot \left(6 \cdot \left(s \cdot \pi\right)\right)} + \frac{\frac{0.125}{r}}{\pi \cdot \left(s \cdot \left(\frac{r}{s} + 1\right)\right)}
\end{array}
Initial program 99.6%
times-frac99.6%
*-commutative99.6%
distribute-frac-neg99.6%
associate-/l*99.6%
*-commutative99.6%
*-commutative99.6%
associate-*l*99.6%
Simplified99.6%
Taylor expanded in s around 0 99.6%
associate-*r/99.6%
rec-exp99.6%
associate-*r/99.6%
metadata-eval99.6%
Simplified99.6%
*-un-lft-identity99.6%
exp-prod99.6%
neg-mul-199.6%
*-commutative99.6%
times-frac99.6%
metadata-eval99.6%
associate-*r/99.6%
*-commutative99.6%
associate-/l*99.6%
Applied egg-rr99.6%
exp-1-e99.6%
Simplified99.6%
Taylor expanded in r around inf 99.6%
associate-/r*99.6%
associate-*r*99.6%
*-commutative99.6%
associate-*l*99.6%
Simplified99.6%
Taylor expanded in r around 0 13.5%
Final simplification13.5%
(FPCore (s r) :precision binary32 (* 0.125 (/ (+ (exp (* (/ r s) -0.3333333333333333)) (/ -1.0 (- -1.0 (/ r s)))) (* r (* s PI)))))
float code(float s, float r) {
return 0.125f * ((expf(((r / s) * -0.3333333333333333f)) + (-1.0f / (-1.0f - (r / s)))) / (r * (s * ((float) M_PI))));
}
function code(s, r) return Float32(Float32(0.125) * Float32(Float32(exp(Float32(Float32(r / s) * Float32(-0.3333333333333333))) + Float32(Float32(-1.0) / Float32(Float32(-1.0) - Float32(r / s)))) / Float32(r * Float32(s * Float32(pi))))) end
function tmp = code(s, r) tmp = single(0.125) * ((exp(((r / s) * single(-0.3333333333333333))) + (single(-1.0) / (single(-1.0) - (r / s)))) / (r * (s * single(pi)))); end
\begin{array}{l}
\\
0.125 \cdot \frac{e^{\frac{r}{s} \cdot -0.3333333333333333} + \frac{-1}{-1 - \frac{r}{s}}}{r \cdot \left(s \cdot \pi\right)}
\end{array}
Initial program 99.6%
Simplified99.3%
Taylor expanded in r around inf 99.5%
mul-1-neg99.5%
rec-exp99.5%
Applied egg-rr99.5%
Taylor expanded in r around 0 13.5%
Final simplification13.5%
(FPCore (s r)
:precision binary32
(/
(-
(/ 0.25 (* r PI))
(/
(+ (/ (* (/ r PI) -0.06944444444444445) s) (/ 0.16666666666666666 PI))
s))
s))
float code(float s, float r) {
return ((0.25f / (r * ((float) M_PI))) - (((((r / ((float) M_PI)) * -0.06944444444444445f) / s) + (0.16666666666666666f / ((float) M_PI))) / s)) / s;
}
function code(s, r) return Float32(Float32(Float32(Float32(0.25) / Float32(r * Float32(pi))) - Float32(Float32(Float32(Float32(Float32(r / Float32(pi)) * Float32(-0.06944444444444445)) / s) + Float32(Float32(0.16666666666666666) / Float32(pi))) / s)) / s) end
function tmp = code(s, r) tmp = ((single(0.25) / (r * single(pi))) - (((((r / single(pi)) * single(-0.06944444444444445)) / s) + (single(0.16666666666666666) / single(pi))) / s)) / s; end
\begin{array}{l}
\\
\frac{\frac{0.25}{r \cdot \pi} - \frac{\frac{\frac{r}{\pi} \cdot -0.06944444444444445}{s} + \frac{0.16666666666666666}{\pi}}{s}}{s}
\end{array}
Initial program 99.6%
+-commutative99.6%
times-frac99.6%
fma-define99.6%
associate-*l*99.5%
associate-/r*99.6%
metadata-eval99.6%
*-commutative99.6%
neg-mul-199.6%
times-frac99.6%
metadata-eval99.6%
times-frac99.5%
Simplified99.5%
Taylor expanded in s around -inf 10.3%
mul-1-neg10.3%
Simplified10.3%
Final simplification10.3%
(FPCore (s r) :precision binary32 (/ (+ (/ 0.25 (* r PI)) (/ (- (/ (* r 0.0625) (* s PI)) (/ 0.16666666666666666 PI)) s)) s))
float code(float s, float r) {
return ((0.25f / (r * ((float) M_PI))) + ((((r * 0.0625f) / (s * ((float) M_PI))) - (0.16666666666666666f / ((float) M_PI))) / s)) / s;
}
function code(s, r) return Float32(Float32(Float32(Float32(0.25) / Float32(r * Float32(pi))) + Float32(Float32(Float32(Float32(r * Float32(0.0625)) / Float32(s * Float32(pi))) - Float32(Float32(0.16666666666666666) / Float32(pi))) / s)) / s) end
function tmp = code(s, r) tmp = ((single(0.25) / (r * single(pi))) + ((((r * single(0.0625)) / (s * single(pi))) - (single(0.16666666666666666) / single(pi))) / s)) / s; end
\begin{array}{l}
\\
\frac{\frac{0.25}{r \cdot \pi} + \frac{\frac{r \cdot 0.0625}{s \cdot \pi} - \frac{0.16666666666666666}{\pi}}{s}}{s}
\end{array}
Initial program 99.6%
Simplified99.3%
Taylor expanded in r around 0 10.0%
*-commutative10.0%
associate-*l/10.0%
Simplified10.0%
Taylor expanded in r around inf 10.0%
associate-*r/10.0%
metadata-eval10.0%
Simplified10.0%
Taylor expanded in s around -inf 10.1%
mul-1-neg10.1%
mul-1-neg10.1%
associate-*r/10.1%
associate-*r/10.1%
metadata-eval10.1%
associate-*r/10.1%
metadata-eval10.1%
Simplified10.1%
Final simplification10.1%
(FPCore (s r) :precision binary32 (/ (+ (/ -0.041666666666666664 (* s PI)) (- (/ 0.25 (* r PI)) (/ 0.125 (* s PI)))) s))
float code(float s, float r) {
return ((-0.041666666666666664f / (s * ((float) M_PI))) + ((0.25f / (r * ((float) M_PI))) - (0.125f / (s * ((float) M_PI))))) / s;
}
function code(s, r) return Float32(Float32(Float32(Float32(-0.041666666666666664) / Float32(s * Float32(pi))) + Float32(Float32(Float32(0.25) / Float32(r * Float32(pi))) - Float32(Float32(0.125) / Float32(s * Float32(pi))))) / s) end
function tmp = code(s, r) tmp = ((single(-0.041666666666666664) / (s * single(pi))) + ((single(0.25) / (r * single(pi))) - (single(0.125) / (s * single(pi))))) / s; end
\begin{array}{l}
\\
\frac{\frac{-0.041666666666666664}{s \cdot \pi} + \left(\frac{0.25}{r \cdot \pi} - \frac{0.125}{s \cdot \pi}\right)}{s}
\end{array}
Initial program 99.6%
times-frac99.6%
*-commutative99.6%
distribute-frac-neg99.6%
associate-/l*99.6%
*-commutative99.6%
*-commutative99.6%
associate-*l*99.6%
Simplified99.6%
Taylor expanded in s around 0 99.6%
associate-*r/99.6%
rec-exp99.6%
associate-*r/99.6%
metadata-eval99.6%
Simplified99.6%
*-un-lft-identity99.6%
exp-prod99.6%
neg-mul-199.6%
*-commutative99.6%
times-frac99.6%
metadata-eval99.6%
associate-*r/99.6%
*-commutative99.6%
associate-/l*99.6%
Applied egg-rr99.6%
exp-1-e99.6%
Simplified99.6%
Taylor expanded in s around inf 9.5%
associate--l+9.5%
log-E9.5%
associate-*r/9.5%
metadata-eval9.5%
associate-*r/9.5%
metadata-eval9.5%
Simplified9.5%
(FPCore (s r) :precision binary32 (/ (- (/ 0.25 (* r PI)) (/ 0.16666666666666666 (* s PI))) s))
float code(float s, float r) {
return ((0.25f / (r * ((float) M_PI))) - (0.16666666666666666f / (s * ((float) M_PI)))) / s;
}
function code(s, r) return Float32(Float32(Float32(Float32(0.25) / Float32(r * Float32(pi))) - Float32(Float32(0.16666666666666666) / Float32(s * Float32(pi)))) / s) end
function tmp = code(s, r) tmp = ((single(0.25) / (r * single(pi))) - (single(0.16666666666666666) / (s * single(pi)))) / s; end
\begin{array}{l}
\\
\frac{\frac{0.25}{r \cdot \pi} - \frac{0.16666666666666666}{s \cdot \pi}}{s}
\end{array}
Initial program 99.6%
Simplified99.3%
Taylor expanded in s around inf 9.5%
associate-*r/9.5%
metadata-eval9.5%
associate-*r/9.5%
metadata-eval9.5%
Simplified9.5%
(FPCore (s r) :precision binary32 (* (/ 0.125 (* s PI)) (- (/ 2.0 r) (/ 1.3333333333333333 s))))
float code(float s, float r) {
return (0.125f / (s * ((float) M_PI))) * ((2.0f / r) - (1.3333333333333333f / s));
}
function code(s, r) return Float32(Float32(Float32(0.125) / Float32(s * Float32(pi))) * Float32(Float32(Float32(2.0) / r) - Float32(Float32(1.3333333333333333) / s))) end
function tmp = code(s, r) tmp = (single(0.125) / (s * single(pi))) * ((single(2.0) / r) - (single(1.3333333333333333) / s)); end
\begin{array}{l}
\\
\frac{0.125}{s \cdot \pi} \cdot \left(\frac{2}{r} - \frac{1.3333333333333333}{s}\right)
\end{array}
Initial program 99.6%
Simplified99.3%
Taylor expanded in r around 0 10.0%
*-commutative10.0%
associate-*l/10.0%
Simplified10.0%
Taylor expanded in r around inf 10.0%
associate-*r/10.0%
metadata-eval10.0%
Simplified10.0%
Taylor expanded in s around inf 9.5%
associate-*r/9.5%
metadata-eval9.5%
associate-*r/9.5%
metadata-eval9.5%
Simplified9.5%
(FPCore (s r) :precision binary32 (/ 1.0 (* s (/ PI (/ 0.25 r)))))
float code(float s, float r) {
return 1.0f / (s * (((float) M_PI) / (0.25f / r)));
}
function code(s, r) return Float32(Float32(1.0) / Float32(s * Float32(Float32(pi) / Float32(Float32(0.25) / r)))) end
function tmp = code(s, r) tmp = single(1.0) / (s * (single(pi) / (single(0.25) / r))); end
\begin{array}{l}
\\
\frac{1}{s \cdot \frac{\pi}{\frac{0.25}{r}}}
\end{array}
Initial program 99.6%
Simplified99.3%
Taylor expanded in s around inf 9.1%
div-inv9.1%
Applied egg-rr9.1%
associate-*r/9.1%
metadata-eval9.1%
*-commutative9.1%
associate-/l/9.1%
Simplified9.1%
clear-num9.1%
inv-pow9.1%
Applied egg-rr9.1%
unpow-19.1%
associate-/l*9.1%
Simplified9.1%
(FPCore (s r) :precision binary32 (/ 0.25 (* r (* s PI))))
float code(float s, float r) {
return 0.25f / (r * (s * ((float) M_PI)));
}
function code(s, r) return Float32(Float32(0.25) / Float32(r * Float32(s * Float32(pi)))) end
function tmp = code(s, r) tmp = single(0.25) / (r * (s * single(pi))); end
\begin{array}{l}
\\
\frac{0.25}{r \cdot \left(s \cdot \pi\right)}
\end{array}
Initial program 99.6%
Simplified99.3%
Taylor expanded in s around inf 9.1%
herbie shell --seed 2024165
(FPCore (s r)
:name "Disney BSSRDF, PDF of scattering profile"
:precision binary32
:pre (and (and (<= 0.0 s) (<= s 256.0)) (and (< 1e-6 r) (< r 1000000.0)))
(+ (/ (* 0.25 (exp (/ (- r) s))) (* (* (* 2.0 PI) s) r)) (/ (* 0.75 (exp (/ (- r) (* 3.0 s)))) (* (* (* 6.0 PI) s) r))))