
(FPCore (cosTheta_i cosTheta_O sinTheta_i sinTheta_O v) :precision binary32 (/ (* (exp (- (/ (* sinTheta_i sinTheta_O) v))) (/ (* cosTheta_i cosTheta_O) v)) (* (* (sinh (/ 1.0 v)) 2.0) v)))
float code(float cosTheta_i, float cosTheta_O, float sinTheta_i, float sinTheta_O, float v) {
return (expf(-((sinTheta_i * sinTheta_O) / v)) * ((cosTheta_i * cosTheta_O) / v)) / ((sinhf((1.0f / v)) * 2.0f) * v);
}
real(4) function code(costheta_i, costheta_o, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_i
real(4), intent (in) :: costheta_o
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = (exp(-((sintheta_i * sintheta_o) / v)) * ((costheta_i * costheta_o) / v)) / ((sinh((1.0e0 / v)) * 2.0e0) * v)
end function
function code(cosTheta_i, cosTheta_O, sinTheta_i, sinTheta_O, v) return Float32(Float32(exp(Float32(-Float32(Float32(sinTheta_i * sinTheta_O) / v))) * Float32(Float32(cosTheta_i * cosTheta_O) / v)) / Float32(Float32(sinh(Float32(Float32(1.0) / v)) * Float32(2.0)) * v)) end
function tmp = code(cosTheta_i, cosTheta_O, sinTheta_i, sinTheta_O, v) tmp = (exp(-((sinTheta_i * sinTheta_O) / v)) * ((cosTheta_i * cosTheta_O) / v)) / ((sinh((single(1.0) / v)) * single(2.0)) * v); end
\begin{array}{l}
\\
\frac{e^{-\frac{sinTheta\_i \cdot sinTheta\_O}{v}} \cdot \frac{cosTheta\_i \cdot cosTheta\_O}{v}}{\left(\sinh \left(\frac{1}{v}\right) \cdot 2\right) \cdot v}
\end{array}
Sampling outcomes in binary32 precision:
Herbie found 12 alternatives:
| Alternative | Accuracy | Speedup |
|---|
(FPCore (cosTheta_i cosTheta_O sinTheta_i sinTheta_O v) :precision binary32 (/ (* (exp (- (/ (* sinTheta_i sinTheta_O) v))) (/ (* cosTheta_i cosTheta_O) v)) (* (* (sinh (/ 1.0 v)) 2.0) v)))
float code(float cosTheta_i, float cosTheta_O, float sinTheta_i, float sinTheta_O, float v) {
return (expf(-((sinTheta_i * sinTheta_O) / v)) * ((cosTheta_i * cosTheta_O) / v)) / ((sinhf((1.0f / v)) * 2.0f) * v);
}
real(4) function code(costheta_i, costheta_o, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_i
real(4), intent (in) :: costheta_o
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = (exp(-((sintheta_i * sintheta_o) / v)) * ((costheta_i * costheta_o) / v)) / ((sinh((1.0e0 / v)) * 2.0e0) * v)
end function
function code(cosTheta_i, cosTheta_O, sinTheta_i, sinTheta_O, v) return Float32(Float32(exp(Float32(-Float32(Float32(sinTheta_i * sinTheta_O) / v))) * Float32(Float32(cosTheta_i * cosTheta_O) / v)) / Float32(Float32(sinh(Float32(Float32(1.0) / v)) * Float32(2.0)) * v)) end
function tmp = code(cosTheta_i, cosTheta_O, sinTheta_i, sinTheta_O, v) tmp = (exp(-((sinTheta_i * sinTheta_O) / v)) * ((cosTheta_i * cosTheta_O) / v)) / ((sinh((single(1.0) / v)) * single(2.0)) * v); end
\begin{array}{l}
\\
\frac{e^{-\frac{sinTheta\_i \cdot sinTheta\_O}{v}} \cdot \frac{cosTheta\_i \cdot cosTheta\_O}{v}}{\left(\sinh \left(\frac{1}{v}\right) \cdot 2\right) \cdot v}
\end{array}
cosTheta_i\_m = (fabs.f32 cosTheta_i)
cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i)
cosTheta_O\_m = (fabs.f32 cosTheta_O)
cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
(FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v)
:precision binary32
(*
cosTheta_O_s
(*
cosTheta_i_s
(*
(*
(exp (/ (* sinTheta_i sinTheta_O) (- v)))
(* cosTheta_i_m (/ cosTheta_O_m v)))
(* 0.5 (/ (/ 1.0 v) (sinh (/ 1.0 v))))))))cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * ((expf(((sinTheta_i * sinTheta_O) / -v)) * (cosTheta_i_m * (cosTheta_O_m / v))) * (0.5f * ((1.0f / v) / sinhf((1.0f / v))))));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * ((exp(((sintheta_i * sintheta_o) / -v)) * (costheta_i_m * (costheta_o_m / v))) * (0.5e0 * ((1.0e0 / v) / sinh((1.0e0 / v))))))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(exp(Float32(Float32(sinTheta_i * sinTheta_O) / Float32(-v))) * Float32(cosTheta_i_m * Float32(cosTheta_O_m / v))) * Float32(Float32(0.5) * Float32(Float32(Float32(1.0) / v) / sinh(Float32(Float32(1.0) / v))))))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * ((exp(((sinTheta_i * sinTheta_O) / -v)) * (cosTheta_i_m * (cosTheta_O_m / v))) * (single(0.5) * ((single(1.0) / v) / sinh((single(1.0) / v))))));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \left(\left(e^{\frac{sinTheta\_i \cdot sinTheta\_O}{-v}} \cdot \left(cosTheta\_i\_m \cdot \frac{cosTheta\_O\_m}{v}\right)\right) \cdot \left(0.5 \cdot \frac{\frac{1}{v}}{\sinh \left(\frac{1}{v}\right)}\right)\right)\right)
\end{array}
Initial program 98.5%
Simplified98.6%
add-exp-log98.4%
Applied egg-rr98.4%
div-inv98.3%
associate-*r/98.3%
rem-exp-log98.5%
Applied egg-rr98.5%
*-un-lft-identity98.5%
associate-/r*98.7%
*-un-lft-identity98.7%
*-commutative98.7%
times-frac98.7%
metadata-eval98.7%
Applied egg-rr98.7%
*-lft-identity98.7%
Simplified98.7%
cosTheta_i\_m = (fabs.f32 cosTheta_i)
cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i)
cosTheta_O\_m = (fabs.f32 cosTheta_O)
cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
(FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v)
:precision binary32
(*
cosTheta_O_s
(*
cosTheta_i_s
(*
(- 1.0 (* sinTheta_i (/ sinTheta_O v)))
(/
(* cosTheta_O_m (/ (* cosTheta_i_m (/ 1.0 v)) v))
(* (sinh (/ 1.0 v)) 2.0))))))cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * ((1.0f - (sinTheta_i * (sinTheta_O / v))) * ((cosTheta_O_m * ((cosTheta_i_m * (1.0f / v)) / v)) / (sinhf((1.0f / v)) * 2.0f))));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * ((1.0e0 - (sintheta_i * (sintheta_o / v))) * ((costheta_o_m * ((costheta_i_m * (1.0e0 / v)) / v)) / (sinh((1.0e0 / v)) * 2.0e0))))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(Float32(1.0) - Float32(sinTheta_i * Float32(sinTheta_O / v))) * Float32(Float32(cosTheta_O_m * Float32(Float32(cosTheta_i_m * Float32(Float32(1.0) / v)) / v)) / Float32(sinh(Float32(Float32(1.0) / v)) * Float32(2.0)))))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * ((single(1.0) - (sinTheta_i * (sinTheta_O / v))) * ((cosTheta_O_m * ((cosTheta_i_m * (single(1.0) / v)) / v)) / (sinh((single(1.0) / v)) * single(2.0)))));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \left(\left(1 - sinTheta\_i \cdot \frac{sinTheta\_O}{v}\right) \cdot \frac{cosTheta\_O\_m \cdot \frac{cosTheta\_i\_m \cdot \frac{1}{v}}{v}}{\sinh \left(\frac{1}{v}\right) \cdot 2}\right)\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
Taylor expanded in sinTheta_i around 0 98.5%
mul-1-neg98.5%
associate-*l/98.5%
*-commutative98.5%
distribute-rgt-neg-in98.5%
distribute-neg-frac298.5%
Simplified98.5%
div-inv98.7%
Applied egg-rr98.7%
Final simplification98.7%
cosTheta_i\_m = (fabs.f32 cosTheta_i)
cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i)
cosTheta_O\_m = (fabs.f32 cosTheta_O)
cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
(FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v)
:precision binary32
(*
cosTheta_O_s
(*
cosTheta_i_s
(*
(- 1.0 (* sinTheta_i (/ sinTheta_O v)))
(/
(* cosTheta_O_m (* (/ 1.0 v) (/ cosTheta_i_m v)))
(* (sinh (/ 1.0 v)) 2.0))))))cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * ((1.0f - (sinTheta_i * (sinTheta_O / v))) * ((cosTheta_O_m * ((1.0f / v) * (cosTheta_i_m / v))) / (sinhf((1.0f / v)) * 2.0f))));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * ((1.0e0 - (sintheta_i * (sintheta_o / v))) * ((costheta_o_m * ((1.0e0 / v) * (costheta_i_m / v))) / (sinh((1.0e0 / v)) * 2.0e0))))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(Float32(1.0) - Float32(sinTheta_i * Float32(sinTheta_O / v))) * Float32(Float32(cosTheta_O_m * Float32(Float32(Float32(1.0) / v) * Float32(cosTheta_i_m / v))) / Float32(sinh(Float32(Float32(1.0) / v)) * Float32(2.0)))))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * ((single(1.0) - (sinTheta_i * (sinTheta_O / v))) * ((cosTheta_O_m * ((single(1.0) / v) * (cosTheta_i_m / v))) / (sinh((single(1.0) / v)) * single(2.0)))));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \left(\left(1 - sinTheta\_i \cdot \frac{sinTheta\_O}{v}\right) \cdot \frac{cosTheta\_O\_m \cdot \left(\frac{1}{v} \cdot \frac{cosTheta\_i\_m}{v}\right)}{\sinh \left(\frac{1}{v}\right) \cdot 2}\right)\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
Taylor expanded in sinTheta_i around 0 98.5%
mul-1-neg98.5%
associate-*l/98.5%
*-commutative98.5%
distribute-rgt-neg-in98.5%
distribute-neg-frac298.5%
Simplified98.5%
div-inv98.7%
Applied egg-rr98.7%
Final simplification98.7%
cosTheta_i\_m = (fabs.f32 cosTheta_i)
cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i)
cosTheta_O\_m = (fabs.f32 cosTheta_O)
cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
(FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v)
:precision binary32
(*
cosTheta_O_s
(*
cosTheta_i_s
(*
(- 1.0 (* sinTheta_i (/ sinTheta_O v)))
(/ (* cosTheta_O_m (/ (/ cosTheta_i_m v) v)) (* (sinh (/ 1.0 v)) 2.0))))))cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * ((1.0f - (sinTheta_i * (sinTheta_O / v))) * ((cosTheta_O_m * ((cosTheta_i_m / v) / v)) / (sinhf((1.0f / v)) * 2.0f))));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * ((1.0e0 - (sintheta_i * (sintheta_o / v))) * ((costheta_o_m * ((costheta_i_m / v) / v)) / (sinh((1.0e0 / v)) * 2.0e0))))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(Float32(1.0) - Float32(sinTheta_i * Float32(sinTheta_O / v))) * Float32(Float32(cosTheta_O_m * Float32(Float32(cosTheta_i_m / v) / v)) / Float32(sinh(Float32(Float32(1.0) / v)) * Float32(2.0)))))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * ((single(1.0) - (sinTheta_i * (sinTheta_O / v))) * ((cosTheta_O_m * ((cosTheta_i_m / v) / v)) / (sinh((single(1.0) / v)) * single(2.0)))));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \left(\left(1 - sinTheta\_i \cdot \frac{sinTheta\_O}{v}\right) \cdot \frac{cosTheta\_O\_m \cdot \frac{\frac{cosTheta\_i\_m}{v}}{v}}{\sinh \left(\frac{1}{v}\right) \cdot 2}\right)\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
Taylor expanded in sinTheta_i around 0 98.5%
mul-1-neg98.5%
associate-*l/98.5%
*-commutative98.5%
distribute-rgt-neg-in98.5%
distribute-neg-frac298.5%
Simplified98.5%
Final simplification98.5%
cosTheta_i\_m = (fabs.f32 cosTheta_i)
cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i)
cosTheta_O\_m = (fabs.f32 cosTheta_O)
cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
(FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v)
:precision binary32
(*
cosTheta_O_s
(*
cosTheta_i_s
(*
(/ (* cosTheta_O_m (/ (/ cosTheta_i_m v) v)) (* (sinh (/ 1.0 v)) 2.0))
(- 1.0 (* sinTheta_O (/ sinTheta_i v)))))))cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * (((cosTheta_O_m * ((cosTheta_i_m / v) / v)) / (sinhf((1.0f / v)) * 2.0f)) * (1.0f - (sinTheta_O * (sinTheta_i / v)))));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * (((costheta_o_m * ((costheta_i_m / v) / v)) / (sinh((1.0e0 / v)) * 2.0e0)) * (1.0e0 - (sintheta_o * (sintheta_i / v)))))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(Float32(cosTheta_O_m * Float32(Float32(cosTheta_i_m / v) / v)) / Float32(sinh(Float32(Float32(1.0) / v)) * Float32(2.0))) * Float32(Float32(1.0) - Float32(sinTheta_O * Float32(sinTheta_i / v)))))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * (((cosTheta_O_m * ((cosTheta_i_m / v) / v)) / (sinh((single(1.0) / v)) * single(2.0))) * (single(1.0) - (sinTheta_O * (sinTheta_i / v)))));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \left(\frac{cosTheta\_O\_m \cdot \frac{\frac{cosTheta\_i\_m}{v}}{v}}{\sinh \left(\frac{1}{v}\right) \cdot 2} \cdot \left(1 - sinTheta\_O \cdot \frac{sinTheta\_i}{v}\right)\right)\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
Taylor expanded in sinTheta_i around 0 98.5%
mul-1-neg98.5%
associate-*l/98.5%
*-commutative98.5%
distribute-rgt-neg-in98.5%
distribute-neg-frac298.5%
Simplified98.5%
Taylor expanded in sinTheta_i around 0 98.5%
mul-1-neg98.5%
unsub-neg98.5%
associate-/l*98.5%
Simplified98.5%
Final simplification98.5%
cosTheta_i\_m = (fabs.f32 cosTheta_i) cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i) cosTheta_O\_m = (fabs.f32 cosTheta_O) cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O) NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function. (FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v) :precision binary32 (* cosTheta_O_s (* cosTheta_i_s (/ (* cosTheta_O_m (/ (/ cosTheta_i_m v) v)) (* (sinh (/ 1.0 v)) 2.0)))))
cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * ((cosTheta_O_m * ((cosTheta_i_m / v) / v)) / (sinhf((1.0f / v)) * 2.0f)));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * ((costheta_o_m * ((costheta_i_m / v) / v)) / (sinh((1.0e0 / v)) * 2.0e0)))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(cosTheta_O_m * Float32(Float32(cosTheta_i_m / v) / v)) / Float32(sinh(Float32(Float32(1.0) / v)) * Float32(2.0))))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * ((cosTheta_O_m * ((cosTheta_i_m / v) / v)) / (sinh((single(1.0) / v)) * single(2.0))));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \frac{cosTheta\_O\_m \cdot \frac{\frac{cosTheta\_i\_m}{v}}{v}}{\sinh \left(\frac{1}{v}\right) \cdot 2}\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
Taylor expanded in sinTheta_i around 0 98.3%
Final simplification98.3%
cosTheta_i\_m = (fabs.f32 cosTheta_i) cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i) cosTheta_O\_m = (fabs.f32 cosTheta_O) cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O) NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function. (FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v) :precision binary32 (* cosTheta_O_s (* cosTheta_i_s (* 0.5 (/ 1.0 (/ v (* cosTheta_i_m cosTheta_O_m)))))))
cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * (0.5f * (1.0f / (v / (cosTheta_i_m * cosTheta_O_m)))));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * (0.5e0 * (1.0e0 / (v / (costheta_i_m * costheta_o_m)))))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(0.5) * Float32(Float32(1.0) / Float32(v / Float32(cosTheta_i_m * cosTheta_O_m)))))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * (single(0.5) * (single(1.0) / (v / (cosTheta_i_m * cosTheta_O_m)))));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \left(0.5 \cdot \frac{1}{\frac{v}{cosTheta\_i\_m \cdot cosTheta\_O\_m}}\right)\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
Taylor expanded in v around inf 56.3%
associate-*l/56.3%
*-commutative56.3%
Simplified56.3%
associate-*r/56.3%
clear-num56.7%
*-commutative56.7%
Applied egg-rr56.7%
Final simplification56.7%
cosTheta_i\_m = (fabs.f32 cosTheta_i) cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i) cosTheta_O\_m = (fabs.f32 cosTheta_O) cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O) NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function. (FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v) :precision binary32 (* cosTheta_O_s (* cosTheta_i_s (/ (* 0.5 (* cosTheta_i_m cosTheta_O_m)) v))))
cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * ((0.5f * (cosTheta_i_m * cosTheta_O_m)) / v));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * ((0.5e0 * (costheta_i_m * costheta_o_m)) / v))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(Float32(0.5) * Float32(cosTheta_i_m * cosTheta_O_m)) / v))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * ((single(0.5) * (cosTheta_i_m * cosTheta_O_m)) / v));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \frac{0.5 \cdot \left(cosTheta\_i\_m \cdot cosTheta\_O\_m\right)}{v}\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
div-inv98.7%
Applied egg-rr98.8%
Taylor expanded in v around inf 56.3%
associate-/l*56.3%
Simplified56.3%
associate-*r/56.3%
*-commutative56.3%
Applied egg-rr56.3%
associate-*r/56.4%
*-commutative56.4%
Applied egg-rr56.4%
Final simplification56.4%
cosTheta_i\_m = (fabs.f32 cosTheta_i) cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i) cosTheta_O\_m = (fabs.f32 cosTheta_O) cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O) NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function. (FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v) :precision binary32 (* cosTheta_O_s (* cosTheta_i_s (* (* cosTheta_i_m cosTheta_O_m) (/ 0.5 v)))))
cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * ((cosTheta_i_m * cosTheta_O_m) * (0.5f / v)));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * ((costheta_i_m * costheta_o_m) * (0.5e0 / v)))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(cosTheta_i_m * cosTheta_O_m) * Float32(Float32(0.5) / v)))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * ((cosTheta_i_m * cosTheta_O_m) * (single(0.5) / v)));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \left(\left(cosTheta\_i\_m \cdot cosTheta\_O\_m\right) \cdot \frac{0.5}{v}\right)\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
Taylor expanded in v around inf 56.3%
associate-*r/56.4%
*-commutative56.4%
associate-/l*56.3%
Simplified56.3%
Final simplification56.3%
cosTheta_i\_m = (fabs.f32 cosTheta_i) cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i) cosTheta_O\_m = (fabs.f32 cosTheta_O) cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O) NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function. (FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v) :precision binary32 (* cosTheta_O_s (* cosTheta_i_s (* 0.5 (/ (* cosTheta_i_m cosTheta_O_m) v)))))
cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * (0.5f * ((cosTheta_i_m * cosTheta_O_m) / v)));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * (0.5e0 * ((costheta_i_m * costheta_o_m) / v)))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(0.5) * Float32(Float32(cosTheta_i_m * cosTheta_O_m) / v)))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * (single(0.5) * ((cosTheta_i_m * cosTheta_O_m) / v)));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \left(0.5 \cdot \frac{cosTheta\_i\_m \cdot cosTheta\_O\_m}{v}\right)\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
Taylor expanded in v around inf 56.3%
Final simplification56.3%
cosTheta_i\_m = (fabs.f32 cosTheta_i) cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i) cosTheta_O\_m = (fabs.f32 cosTheta_O) cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O) NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function. (FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v) :precision binary32 (* cosTheta_O_s (* cosTheta_i_s (* (* cosTheta_i_m (/ cosTheta_O_m v)) 0.5))))
cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * ((cosTheta_i_m * (cosTheta_O_m / v)) * 0.5f));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * ((costheta_i_m * (costheta_o_m / v)) * 0.5e0))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(cosTheta_i_m * Float32(cosTheta_O_m / v)) * Float32(0.5)))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * ((cosTheta_i_m * (cosTheta_O_m / v)) * single(0.5)));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \left(\left(cosTheta\_i\_m \cdot \frac{cosTheta\_O\_m}{v}\right) \cdot 0.5\right)\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
Taylor expanded in v around inf 56.3%
associate-*l/56.3%
*-commutative56.3%
Simplified56.3%
Final simplification56.3%
cosTheta_i\_m = (fabs.f32 cosTheta_i) cosTheta_i\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_i) cosTheta_O\_m = (fabs.f32 cosTheta_O) cosTheta_O\_s = (copysign.f32 #s(literal 1 binary32) cosTheta_O) NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function. (FPCore (cosTheta_O_s cosTheta_i_s cosTheta_i_m cosTheta_O_m sinTheta_i sinTheta_O v) :precision binary32 (* cosTheta_O_s (* cosTheta_i_s (* 0.5 (* cosTheta_O_m (/ cosTheta_i_m v))))))
cosTheta_i\_m = fabs(cosTheta_i);
cosTheta_i\_s = copysign(1.0, cosTheta_i);
cosTheta_O\_m = fabs(cosTheta_O);
cosTheta_O\_s = copysign(1.0, cosTheta_O);
assert(cosTheta_i_m < cosTheta_O_m && cosTheta_O_m < sinTheta_i && sinTheta_i < sinTheta_O && sinTheta_O < v);
float code(float cosTheta_O_s, float cosTheta_i_s, float cosTheta_i_m, float cosTheta_O_m, float sinTheta_i, float sinTheta_O, float v) {
return cosTheta_O_s * (cosTheta_i_s * (0.5f * (cosTheta_O_m * (cosTheta_i_m / v))));
}
cosTheta_i\_m = abs(costheta_i)
cosTheta_i\_s = copysign(1.0d0, costheta_i)
cosTheta_O\_m = abs(costheta_o)
cosTheta_O\_s = copysign(1.0d0, costheta_o)
NOTE: cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, and v should be sorted in increasing order before calling this function.
real(4) function code(costheta_o_s, costheta_i_s, costheta_i_m, costheta_o_m, sintheta_i, sintheta_o, v)
real(4), intent (in) :: costheta_o_s
real(4), intent (in) :: costheta_i_s
real(4), intent (in) :: costheta_i_m
real(4), intent (in) :: costheta_o_m
real(4), intent (in) :: sintheta_i
real(4), intent (in) :: sintheta_o
real(4), intent (in) :: v
code = costheta_o_s * (costheta_i_s * (0.5e0 * (costheta_o_m * (costheta_i_m / v))))
end function
cosTheta_i\_m = abs(cosTheta_i) cosTheta_i\_s = copysign(1.0, cosTheta_i) cosTheta_O\_m = abs(cosTheta_O) cosTheta_O\_s = copysign(1.0, cosTheta_O) cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v]) function code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v) return Float32(cosTheta_O_s * Float32(cosTheta_i_s * Float32(Float32(0.5) * Float32(cosTheta_O_m * Float32(cosTheta_i_m / v))))) end
cosTheta_i\_m = abs(cosTheta_i);
cosTheta_i\_s = sign(cosTheta_i) * abs(1.0);
cosTheta_O\_m = abs(cosTheta_O);
cosTheta_O\_s = sign(cosTheta_O) * abs(1.0);
cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v = num2cell(sort([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])){:}
function tmp = code(cosTheta_O_s, cosTheta_i_s, cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v)
tmp = cosTheta_O_s * (cosTheta_i_s * (single(0.5) * (cosTheta_O_m * (cosTheta_i_m / v))));
end
\begin{array}{l}
cosTheta_i\_m = \left|cosTheta\_i\right|
\\
cosTheta_i\_s = \mathsf{copysign}\left(1, cosTheta\_i\right)
\\
cosTheta_O\_m = \left|cosTheta\_O\right|
\\
cosTheta_O\_s = \mathsf{copysign}\left(1, cosTheta\_O\right)
\\
[cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v] = \mathsf{sort}([cosTheta_i_m, cosTheta_O_m, sinTheta_i, sinTheta_O, v])\\
\\
cosTheta\_O\_s \cdot \left(cosTheta\_i\_s \cdot \left(0.5 \cdot \left(cosTheta\_O\_m \cdot \frac{cosTheta\_i\_m}{v}\right)\right)\right)
\end{array}
Initial program 98.5%
times-frac98.5%
associate-*l/98.4%
associate-*r/98.4%
distribute-frac-neg298.4%
associate-/l*98.4%
exp-prod98.4%
*-commutative98.4%
associate-/l*98.6%
associate-/l*98.6%
Simplified98.6%
div-inv98.7%
Applied egg-rr98.8%
Taylor expanded in v around inf 56.3%
associate-/l*56.3%
Simplified56.3%
herbie shell --seed 2024157
(FPCore (cosTheta_i cosTheta_O sinTheta_i sinTheta_O v)
:name "HairBSDF, Mp, upper"
:precision binary32
:pre (and (and (and (and (and (and (<= -1.0 cosTheta_i) (<= cosTheta_i 1.0)) (and (<= -1.0 cosTheta_O) (<= cosTheta_O 1.0))) (and (<= -1.0 sinTheta_i) (<= sinTheta_i 1.0))) (and (<= -1.0 sinTheta_O) (<= sinTheta_O 1.0))) (< 0.1 v)) (<= v 1.5707964))
(/ (* (exp (- (/ (* sinTheta_i sinTheta_O) v))) (/ (* cosTheta_i cosTheta_O) v)) (* (* (sinh (/ 1.0 v)) 2.0) v)))