
(FPCore (x) :precision binary32 (asinh x))
float code(float x) {
return asinhf(x);
}
function code(x) return asinh(x) end
function tmp = code(x) tmp = asinh(x); end
\begin{array}{l}
\\
\sinh^{-1} x
\end{array}
Sampling outcomes in binary32 precision:
Herbie found 9 alternatives:
| Alternative | Accuracy | Speedup |
|---|
(FPCore (x) :precision binary32 (copysign (log (+ (fabs x) (sqrt (+ (* x x) 1.0)))) x))
float code(float x) {
return copysignf(logf((fabsf(x) + sqrtf(((x * x) + 1.0f)))), x);
}
function code(x) return copysign(log(Float32(abs(x) + sqrt(Float32(Float32(x * x) + Float32(1.0))))), x) end
function tmp = code(x) tmp = sign(x) * abs(log((abs(x) + sqrt(((x * x) + single(1.0)))))); end
\begin{array}{l}
\\
\mathsf{copysign}\left(\log \left(\left|x\right| + \sqrt{x \cdot x + 1}\right), x\right)
\end{array}
(FPCore (x)
:precision binary32
(let* ((t_0 (copysign (log (+ (fabs x) (sqrt (+ (* x x) 1.0)))) x)))
(if (<= t_0 -1.0)
(copysign (log (+ (fabs x) (- (/ -0.5 x) x))) x)
(if (<= t_0 1.0)
(copysign (log1p (fabs x)) x)
(copysign (log (+ (fabs x) (- x (/ -0.5 x)))) x)))))
float code(float x) {
float t_0 = copysignf(logf((fabsf(x) + sqrtf(((x * x) + 1.0f)))), x);
float tmp;
if (t_0 <= -1.0f) {
tmp = copysignf(logf((fabsf(x) + ((-0.5f / x) - x))), x);
} else if (t_0 <= 1.0f) {
tmp = copysignf(log1pf(fabsf(x)), x);
} else {
tmp = copysignf(logf((fabsf(x) + (x - (-0.5f / x)))), x);
}
return tmp;
}
function code(x) t_0 = copysign(log(Float32(abs(x) + sqrt(Float32(Float32(x * x) + Float32(1.0))))), x) tmp = Float32(0.0) if (t_0 <= Float32(-1.0)) tmp = copysign(log(Float32(abs(x) + Float32(Float32(Float32(-0.5) / x) - x))), x); elseif (t_0 <= Float32(1.0)) tmp = copysign(log1p(abs(x)), x); else tmp = copysign(log(Float32(abs(x) + Float32(x - Float32(Float32(-0.5) / x)))), x); end return tmp end
\begin{array}{l}
\\
\begin{array}{l}
t_0 := \mathsf{copysign}\left(\log \left(\left|x\right| + \sqrt{x \cdot x + 1}\right), x\right)\\
\mathbf{if}\;t\_0 \leq -1:\\
\;\;\;\;\mathsf{copysign}\left(\log \left(\left|x\right| + \left(\frac{-0.5}{x} - x\right)\right), x\right)\\
\mathbf{elif}\;t\_0 \leq 1:\\
\;\;\;\;\mathsf{copysign}\left(\mathsf{log1p}\left(\left|x\right|\right), x\right)\\
\mathbf{else}:\\
\;\;\;\;\mathsf{copysign}\left(\log \left(\left|x\right| + \left(x - \frac{-0.5}{x}\right)\right), x\right)\\
\end{array}
\end{array}
if (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < -1Initial program 59.4%
Taylor expanded in x around -inf
associate-*r*N/A
+-commutativeN/A
distribute-lft-inN/A
*-rgt-identityN/A
mul-1-negN/A
sub-negN/A
associate-*r*N/A
*-commutativeN/A
associate-*l*N/A
associate-*r*N/A
unpow2N/A
associate-/r*N/A
associate-*l/N/A
lft-mult-inverseN/A
associate-*r*N/A
neg-mul-1N/A
lower--.f32N/A
Applied rewrites98.7%
if -1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < 1Initial program 22.4%
Taylor expanded in x around 0
lower-log1p.f32N/A
lower-fabs.f3297.4
Applied rewrites97.4%
Applied rewrites97.4%
Taylor expanded in x around 0
Applied rewrites97.4%
Taylor expanded in x around 0
Applied rewrites97.4%
if 1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) Initial program 57.8%
Taylor expanded in x around inf
distribute-lft-inN/A
*-rgt-identityN/A
cancel-sign-subN/A
mul-1-negN/A
associate-*r*N/A
*-commutativeN/A
associate-*l*N/A
associate-*r*N/A
unpow2N/A
associate-/r*N/A
associate-*l/N/A
lft-mult-inverseN/A
associate-*r*N/A
neg-mul-1N/A
lower--.f32N/A
associate-*r/N/A
metadata-evalN/A
distribute-neg-fracN/A
metadata-evalN/A
lower-/.f32100.0
Applied rewrites100.0%
(FPCore (x)
:precision binary32
(let* ((t_0 (copysign (log (+ (fabs x) (sqrt (+ (* x x) 1.0)))) x)))
(if (<= t_0 -1.0)
(copysign (log (- (fabs x) x)) x)
(if (<= t_0 1.0)
(copysign (log1p (fabs x)) x)
(copysign (log (+ (fabs x) (- x (/ -0.5 x)))) x)))))
float code(float x) {
float t_0 = copysignf(logf((fabsf(x) + sqrtf(((x * x) + 1.0f)))), x);
float tmp;
if (t_0 <= -1.0f) {
tmp = copysignf(logf((fabsf(x) - x)), x);
} else if (t_0 <= 1.0f) {
tmp = copysignf(log1pf(fabsf(x)), x);
} else {
tmp = copysignf(logf((fabsf(x) + (x - (-0.5f / x)))), x);
}
return tmp;
}
function code(x) t_0 = copysign(log(Float32(abs(x) + sqrt(Float32(Float32(x * x) + Float32(1.0))))), x) tmp = Float32(0.0) if (t_0 <= Float32(-1.0)) tmp = copysign(log(Float32(abs(x) - x)), x); elseif (t_0 <= Float32(1.0)) tmp = copysign(log1p(abs(x)), x); else tmp = copysign(log(Float32(abs(x) + Float32(x - Float32(Float32(-0.5) / x)))), x); end return tmp end
\begin{array}{l}
\\
\begin{array}{l}
t_0 := \mathsf{copysign}\left(\log \left(\left|x\right| + \sqrt{x \cdot x + 1}\right), x\right)\\
\mathbf{if}\;t\_0 \leq -1:\\
\;\;\;\;\mathsf{copysign}\left(\log \left(\left|x\right| - x\right), x\right)\\
\mathbf{elif}\;t\_0 \leq 1:\\
\;\;\;\;\mathsf{copysign}\left(\mathsf{log1p}\left(\left|x\right|\right), x\right)\\
\mathbf{else}:\\
\;\;\;\;\mathsf{copysign}\left(\log \left(\left|x\right| + \left(x - \frac{-0.5}{x}\right)\right), x\right)\\
\end{array}
\end{array}
if (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < -1Initial program 59.4%
Taylor expanded in x around -inf
mul-1-negN/A
+-commutativeN/A
distribute-rgt-inN/A
*-lft-identityN/A
distribute-neg-inN/A
*-commutativeN/A
mul-1-negN/A
distribute-rgt-neg-outN/A
remove-double-negN/A
sub-negN/A
associate-*r/N/A
*-commutativeN/A
associate-/l*N/A
*-inversesN/A
*-rgt-identityN/A
lower--.f32N/A
lower-fabs.f3297.5
Applied rewrites97.5%
if -1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < 1Initial program 22.4%
Taylor expanded in x around 0
lower-log1p.f32N/A
lower-fabs.f3297.4
Applied rewrites97.4%
Applied rewrites97.4%
Taylor expanded in x around 0
Applied rewrites97.4%
Taylor expanded in x around 0
Applied rewrites97.4%
if 1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) Initial program 57.8%
Taylor expanded in x around inf
distribute-lft-inN/A
*-rgt-identityN/A
cancel-sign-subN/A
mul-1-negN/A
associate-*r*N/A
*-commutativeN/A
associate-*l*N/A
associate-*r*N/A
unpow2N/A
associate-/r*N/A
associate-*l/N/A
lft-mult-inverseN/A
associate-*r*N/A
neg-mul-1N/A
lower--.f32N/A
associate-*r/N/A
metadata-evalN/A
distribute-neg-fracN/A
metadata-evalN/A
lower-/.f32100.0
Applied rewrites100.0%
(FPCore (x)
:precision binary32
(let* ((t_0 (copysign (log (+ (fabs x) (sqrt (+ (* x x) 1.0)))) x)))
(if (or (<= t_0 -1.0) (not (<= t_0 1.0)))
(copysign (log (+ (fabs x) 1.0)) x)
(copysign (log1p (fabs x)) x))))
float code(float x) {
float t_0 = copysignf(logf((fabsf(x) + sqrtf(((x * x) + 1.0f)))), x);
float tmp;
if ((t_0 <= -1.0f) || !(t_0 <= 1.0f)) {
tmp = copysignf(logf((fabsf(x) + 1.0f)), x);
} else {
tmp = copysignf(log1pf(fabsf(x)), x);
}
return tmp;
}
function code(x) t_0 = copysign(log(Float32(abs(x) + sqrt(Float32(Float32(x * x) + Float32(1.0))))), x) tmp = Float32(0.0) if ((t_0 <= Float32(-1.0)) || !(t_0 <= Float32(1.0))) tmp = copysign(log(Float32(abs(x) + Float32(1.0))), x); else tmp = copysign(log1p(abs(x)), x); end return tmp end
\begin{array}{l}
\\
\begin{array}{l}
t_0 := \mathsf{copysign}\left(\log \left(\left|x\right| + \sqrt{x \cdot x + 1}\right), x\right)\\
\mathbf{if}\;t\_0 \leq -1 \lor \neg \left(t\_0 \leq 1\right):\\
\;\;\;\;\mathsf{copysign}\left(\log \left(\left|x\right| + 1\right), x\right)\\
\mathbf{else}:\\
\;\;\;\;\mathsf{copysign}\left(\mathsf{log1p}\left(\left|x\right|\right), x\right)\\
\end{array}
\end{array}
if (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < -1 or 1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) Initial program 58.5%
Taylor expanded in x around 0
+-commutativeN/A
lower-+.f32N/A
lower-fabs.f3244.0
Applied rewrites44.0%
if -1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < 1Initial program 22.4%
Taylor expanded in x around 0
lower-log1p.f32N/A
lower-fabs.f3297.4
Applied rewrites97.4%
Applied rewrites97.4%
Taylor expanded in x around 0
Applied rewrites97.4%
Taylor expanded in x around 0
Applied rewrites97.4%
Final simplification65.5%
(FPCore (x)
:precision binary32
(let* ((t_0 (copysign (log (+ (fabs x) (sqrt (+ (* x x) 1.0)))) x)))
(if (<= t_0 -1.0)
(copysign (log (- (fabs x) x)) x)
(if (<= t_0 1.0)
(copysign (log1p (fabs x)) x)
(copysign (log (+ (fabs x) x)) x)))))
float code(float x) {
float t_0 = copysignf(logf((fabsf(x) + sqrtf(((x * x) + 1.0f)))), x);
float tmp;
if (t_0 <= -1.0f) {
tmp = copysignf(logf((fabsf(x) - x)), x);
} else if (t_0 <= 1.0f) {
tmp = copysignf(log1pf(fabsf(x)), x);
} else {
tmp = copysignf(logf((fabsf(x) + x)), x);
}
return tmp;
}
function code(x) t_0 = copysign(log(Float32(abs(x) + sqrt(Float32(Float32(x * x) + Float32(1.0))))), x) tmp = Float32(0.0) if (t_0 <= Float32(-1.0)) tmp = copysign(log(Float32(abs(x) - x)), x); elseif (t_0 <= Float32(1.0)) tmp = copysign(log1p(abs(x)), x); else tmp = copysign(log(Float32(abs(x) + x)), x); end return tmp end
\begin{array}{l}
\\
\begin{array}{l}
t_0 := \mathsf{copysign}\left(\log \left(\left|x\right| + \sqrt{x \cdot x + 1}\right), x\right)\\
\mathbf{if}\;t\_0 \leq -1:\\
\;\;\;\;\mathsf{copysign}\left(\log \left(\left|x\right| - x\right), x\right)\\
\mathbf{elif}\;t\_0 \leq 1:\\
\;\;\;\;\mathsf{copysign}\left(\mathsf{log1p}\left(\left|x\right|\right), x\right)\\
\mathbf{else}:\\
\;\;\;\;\mathsf{copysign}\left(\log \left(\left|x\right| + x\right), x\right)\\
\end{array}
\end{array}
if (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < -1Initial program 59.4%
Taylor expanded in x around -inf
mul-1-negN/A
+-commutativeN/A
distribute-rgt-inN/A
*-lft-identityN/A
distribute-neg-inN/A
*-commutativeN/A
mul-1-negN/A
distribute-rgt-neg-outN/A
remove-double-negN/A
sub-negN/A
associate-*r/N/A
*-commutativeN/A
associate-/l*N/A
*-inversesN/A
*-rgt-identityN/A
lower--.f32N/A
lower-fabs.f3297.5
Applied rewrites97.5%
if -1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < 1Initial program 22.4%
Taylor expanded in x around 0
lower-log1p.f32N/A
lower-fabs.f3297.4
Applied rewrites97.4%
Applied rewrites97.4%
Taylor expanded in x around 0
Applied rewrites97.4%
Taylor expanded in x around 0
Applied rewrites97.4%
if 1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) Initial program 57.8%
Taylor expanded in x around inf
+-commutativeN/A
distribute-rgt-inN/A
associate-*l/N/A
associate-/l*N/A
*-inversesN/A
*-rgt-identityN/A
*-lft-identityN/A
lower-+.f32N/A
lower-fabs.f3299.1
Applied rewrites99.1%
(FPCore (x)
:precision binary32
(let* ((t_0 (copysign (log (+ (fabs x) (sqrt (+ (* x x) 1.0)))) x)))
(if (<= t_0 -1.0)
(copysign (log (+ (fabs x) 1.0)) x)
(if (<= t_0 1.0)
(copysign (log1p (fabs x)) x)
(copysign (log (+ (fabs x) x)) x)))))
float code(float x) {
float t_0 = copysignf(logf((fabsf(x) + sqrtf(((x * x) + 1.0f)))), x);
float tmp;
if (t_0 <= -1.0f) {
tmp = copysignf(logf((fabsf(x) + 1.0f)), x);
} else if (t_0 <= 1.0f) {
tmp = copysignf(log1pf(fabsf(x)), x);
} else {
tmp = copysignf(logf((fabsf(x) + x)), x);
}
return tmp;
}
function code(x) t_0 = copysign(log(Float32(abs(x) + sqrt(Float32(Float32(x * x) + Float32(1.0))))), x) tmp = Float32(0.0) if (t_0 <= Float32(-1.0)) tmp = copysign(log(Float32(abs(x) + Float32(1.0))), x); elseif (t_0 <= Float32(1.0)) tmp = copysign(log1p(abs(x)), x); else tmp = copysign(log(Float32(abs(x) + x)), x); end return tmp end
\begin{array}{l}
\\
\begin{array}{l}
t_0 := \mathsf{copysign}\left(\log \left(\left|x\right| + \sqrt{x \cdot x + 1}\right), x\right)\\
\mathbf{if}\;t\_0 \leq -1:\\
\;\;\;\;\mathsf{copysign}\left(\log \left(\left|x\right| + 1\right), x\right)\\
\mathbf{elif}\;t\_0 \leq 1:\\
\;\;\;\;\mathsf{copysign}\left(\mathsf{log1p}\left(\left|x\right|\right), x\right)\\
\mathbf{else}:\\
\;\;\;\;\mathsf{copysign}\left(\log \left(\left|x\right| + x\right), x\right)\\
\end{array}
\end{array}
if (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < -1Initial program 59.4%
Taylor expanded in x around 0
+-commutativeN/A
lower-+.f32N/A
lower-fabs.f3243.8
Applied rewrites43.8%
if -1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < 1Initial program 22.4%
Taylor expanded in x around 0
lower-log1p.f32N/A
lower-fabs.f3297.4
Applied rewrites97.4%
Applied rewrites97.4%
Taylor expanded in x around 0
Applied rewrites97.4%
Taylor expanded in x around 0
Applied rewrites97.4%
if 1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) Initial program 57.8%
Taylor expanded in x around inf
+-commutativeN/A
distribute-rgt-inN/A
associate-*l/N/A
associate-/l*N/A
*-inversesN/A
*-rgt-identityN/A
*-lft-identityN/A
lower-+.f32N/A
lower-fabs.f3299.1
Applied rewrites99.1%
(FPCore (x)
:precision binary32
(let* ((t_0 (copysign (log (+ (fabs x) (sqrt (+ (* x x) 1.0)))) x)))
(if (<= t_0 -2.0)
(copysign (log (- x)) x)
(if (<= t_0 1.0) (copysign (log1p (fabs x)) x) (copysign (log x) x)))))
float code(float x) {
float t_0 = copysignf(logf((fabsf(x) + sqrtf(((x * x) + 1.0f)))), x);
float tmp;
if (t_0 <= -2.0f) {
tmp = copysignf(logf(-x), x);
} else if (t_0 <= 1.0f) {
tmp = copysignf(log1pf(fabsf(x)), x);
} else {
tmp = copysignf(logf(x), x);
}
return tmp;
}
function code(x) t_0 = copysign(log(Float32(abs(x) + sqrt(Float32(Float32(x * x) + Float32(1.0))))), x) tmp = Float32(0.0) if (t_0 <= Float32(-2.0)) tmp = copysign(log(Float32(-x)), x); elseif (t_0 <= Float32(1.0)) tmp = copysign(log1p(abs(x)), x); else tmp = copysign(log(x), x); end return tmp end
\begin{array}{l}
\\
\begin{array}{l}
t_0 := \mathsf{copysign}\left(\log \left(\left|x\right| + \sqrt{x \cdot x + 1}\right), x\right)\\
\mathbf{if}\;t\_0 \leq -2:\\
\;\;\;\;\mathsf{copysign}\left(\log \left(-x\right), x\right)\\
\mathbf{elif}\;t\_0 \leq 1:\\
\;\;\;\;\mathsf{copysign}\left(\mathsf{log1p}\left(\left|x\right|\right), x\right)\\
\mathbf{else}:\\
\;\;\;\;\mathsf{copysign}\left(\log x, x\right)\\
\end{array}
\end{array}
if (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < -2Initial program 58.6%
Taylor expanded in x around -inf
mul-1-negN/A
lower-neg.f3243.9
Applied rewrites43.9%
if -2 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < 1Initial program 22.9%
Taylor expanded in x around 0
lower-log1p.f32N/A
lower-fabs.f3296.9
Applied rewrites96.9%
Applied rewrites96.9%
Taylor expanded in x around 0
Applied rewrites96.9%
Taylor expanded in x around 0
Applied rewrites96.9%
if 1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) Initial program 57.8%
Taylor expanded in x around inf
mul-1-negN/A
log-recN/A
remove-double-negN/A
lower-log.f3244.2
Applied rewrites44.2%
(FPCore (x) :precision binary32 (if (<= (copysign (log (+ (fabs x) (sqrt (+ (* x x) 1.0)))) x) 1.0) (copysign (log1p (fabs x)) x) (copysign (log x) x)))
float code(float x) {
float tmp;
if (copysignf(logf((fabsf(x) + sqrtf(((x * x) + 1.0f)))), x) <= 1.0f) {
tmp = copysignf(log1pf(fabsf(x)), x);
} else {
tmp = copysignf(logf(x), x);
}
return tmp;
}
function code(x) tmp = Float32(0.0) if (copysign(log(Float32(abs(x) + sqrt(Float32(Float32(x * x) + Float32(1.0))))), x) <= Float32(1.0)) tmp = copysign(log1p(abs(x)), x); else tmp = copysign(log(x), x); end return tmp end
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;\mathsf{copysign}\left(\log \left(\left|x\right| + \sqrt{x \cdot x + 1}\right), x\right) \leq 1:\\
\;\;\;\;\mathsf{copysign}\left(\mathsf{log1p}\left(\left|x\right|\right), x\right)\\
\mathbf{else}:\\
\;\;\;\;\mathsf{copysign}\left(\log x, x\right)\\
\end{array}
\end{array}
if (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < 1Initial program 32.5%
Taylor expanded in x around 0
lower-log1p.f32N/A
lower-fabs.f3274.0
Applied rewrites74.0%
Applied rewrites74.0%
Taylor expanded in x around 0
Applied rewrites74.0%
Taylor expanded in x around 0
Applied rewrites74.0%
if 1 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) Initial program 57.8%
Taylor expanded in x around inf
mul-1-negN/A
log-recN/A
remove-double-negN/A
lower-log.f3244.2
Applied rewrites44.2%
(FPCore (x)
:precision binary32
(if (<=
(copysign (log (+ (fabs x) (sqrt (+ (* x x) 1.0)))) x)
0.20000000298023224)
(copysign (/ (/ (* x x) (fabs x)) x) x)
(copysign (log x) x)))
float code(float x) {
float tmp;
if (copysignf(logf((fabsf(x) + sqrtf(((x * x) + 1.0f)))), x) <= 0.20000000298023224f) {
tmp = copysignf((((x * x) / fabsf(x)) / x), x);
} else {
tmp = copysignf(logf(x), x);
}
return tmp;
}
function code(x) tmp = Float32(0.0) if (copysign(log(Float32(abs(x) + sqrt(Float32(Float32(x * x) + Float32(1.0))))), x) <= Float32(0.20000000298023224)) tmp = copysign(Float32(Float32(Float32(x * x) / abs(x)) / x), x); else tmp = copysign(log(x), x); end return tmp end
function tmp_2 = code(x) tmp = single(0.0); if ((sign(x) * abs(log((abs(x) + sqrt(((x * x) + single(1.0))))))) <= single(0.20000000298023224)) tmp = sign(x) * abs((((x * x) / abs(x)) / x)); else tmp = sign(x) * abs(log(x)); end tmp_2 = tmp; end
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;\mathsf{copysign}\left(\log \left(\left|x\right| + \sqrt{x \cdot x + 1}\right), x\right) \leq 0.20000000298023224:\\
\;\;\;\;\mathsf{copysign}\left(\frac{\frac{x \cdot x}{\left|x\right|}}{x}, x\right)\\
\mathbf{else}:\\
\;\;\;\;\mathsf{copysign}\left(\log x, x\right)\\
\end{array}
\end{array}
if (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) < 0.200000003Initial program 31.8%
Taylor expanded in x around inf
+-commutativeN/A
lower-+.f32N/A
lower-/.f32N/A
lower-fabs.f32N/A
mul-1-negN/A
log-recN/A
remove-double-negN/A
lower-log.f324.3
Applied rewrites4.3%
Taylor expanded in x around 0
Applied rewrites13.4%
Applied rewrites14.3%
if 0.200000003 < (copysign.f32 (log.f32 (+.f32 (fabs.f32 x) (sqrt.f32 (+.f32 (*.f32 x x) #s(literal 1 binary32))))) x) Initial program 59.1%
Taylor expanded in x around inf
mul-1-negN/A
log-recN/A
remove-double-negN/A
lower-log.f3243.7
Applied rewrites43.7%
Final simplification21.6%
(FPCore (x) :precision binary32 (copysign (/ (fabs x) x) x))
float code(float x) {
return copysignf((fabsf(x) / x), x);
}
function code(x) return copysign(Float32(abs(x) / x), x) end
function tmp = code(x) tmp = sign(x) * abs((abs(x) / x)); end
\begin{array}{l}
\\
\mathsf{copysign}\left(\frac{\left|x\right|}{x}, x\right)
\end{array}
Initial program 38.6%
Taylor expanded in x around inf
+-commutativeN/A
lower-+.f32N/A
lower-/.f32N/A
lower-fabs.f32N/A
mul-1-negN/A
log-recN/A
remove-double-negN/A
lower-log.f3215.2
Applied rewrites15.2%
Taylor expanded in x around 0
Applied rewrites15.4%
(FPCore (x) :precision binary32 (let* ((t_0 (/ 1.0 (fabs x)))) (copysign (log1p (+ (fabs x) (/ (fabs x) (+ (hypot 1.0 t_0) t_0)))) x)))
float code(float x) {
float t_0 = 1.0f / fabsf(x);
return copysignf(log1pf((fabsf(x) + (fabsf(x) / (hypotf(1.0f, t_0) + t_0)))), x);
}
function code(x) t_0 = Float32(Float32(1.0) / abs(x)) return copysign(log1p(Float32(abs(x) + Float32(abs(x) / Float32(hypot(Float32(1.0), t_0) + t_0)))), x) end
\begin{array}{l}
\\
\begin{array}{l}
t_0 := \frac{1}{\left|x\right|}\\
\mathsf{copysign}\left(\mathsf{log1p}\left(\left|x\right| + \frac{\left|x\right|}{\mathsf{hypot}\left(1, t\_0\right) + t\_0}\right), x\right)
\end{array}
\end{array}
herbie shell --seed 2024321
(FPCore (x)
:name "Rust f32::asinh"
:precision binary32
:alt
(! :herbie-platform default (let* ((ax (fabs x)) (ix (/ 1 ax))) (copysign (log1p (+ ax (/ ax (+ (hypot 1 ix) ix)))) x)))
(copysign (log (+ (fabs x) (sqrt (+ (* x x) 1.0)))) x))