(FPCore (t l k) :precision binary64 (/ 2.0 (* (* (* (/ (pow t 3.0) (* l l)) (sin k)) (tan k)) (- (+ 1.0 (pow (/ k t) 2.0)) 1.0))))
(FPCore (t l k) :precision binary64 (/ 2.0 (/ (* (/ k l) (tan k)) (/ (/ (/ l k) (sin k)) t))))
double code(double t, double l, double k) {
return 2.0 / ((((pow(t, 3.0) / (l * l)) * sin(k)) * tan(k)) * ((1.0 + pow((k / t), 2.0)) - 1.0));
}
double code(double t, double l, double k) {
return 2.0 / (((k / l) * tan(k)) / (((l / k) / sin(k)) / t));
}
real(8) function code(t, l, k)
real(8), intent (in) :: t
real(8), intent (in) :: l
real(8), intent (in) :: k
code = 2.0d0 / (((((t ** 3.0d0) / (l * l)) * sin(k)) * tan(k)) * ((1.0d0 + ((k / t) ** 2.0d0)) - 1.0d0))
end function
real(8) function code(t, l, k)
real(8), intent (in) :: t
real(8), intent (in) :: l
real(8), intent (in) :: k
code = 2.0d0 / (((k / l) * tan(k)) / (((l / k) / sin(k)) / t))
end function
public static double code(double t, double l, double k) {
return 2.0 / ((((Math.pow(t, 3.0) / (l * l)) * Math.sin(k)) * Math.tan(k)) * ((1.0 + Math.pow((k / t), 2.0)) - 1.0));
}
public static double code(double t, double l, double k) {
return 2.0 / (((k / l) * Math.tan(k)) / (((l / k) / Math.sin(k)) / t));
}
def code(t, l, k): return 2.0 / ((((math.pow(t, 3.0) / (l * l)) * math.sin(k)) * math.tan(k)) * ((1.0 + math.pow((k / t), 2.0)) - 1.0))
def code(t, l, k): return 2.0 / (((k / l) * math.tan(k)) / (((l / k) / math.sin(k)) / t))
function code(t, l, k) return Float64(2.0 / Float64(Float64(Float64(Float64((t ^ 3.0) / Float64(l * l)) * sin(k)) * tan(k)) * Float64(Float64(1.0 + (Float64(k / t) ^ 2.0)) - 1.0))) end
function code(t, l, k) return Float64(2.0 / Float64(Float64(Float64(k / l) * tan(k)) / Float64(Float64(Float64(l / k) / sin(k)) / t))) end
function tmp = code(t, l, k) tmp = 2.0 / (((((t ^ 3.0) / (l * l)) * sin(k)) * tan(k)) * ((1.0 + ((k / t) ^ 2.0)) - 1.0)); end
function tmp = code(t, l, k) tmp = 2.0 / (((k / l) * tan(k)) / (((l / k) / sin(k)) / t)); end
code[t_, l_, k_] := N[(2.0 / N[(N[(N[(N[(N[Power[t, 3.0], $MachinePrecision] / N[(l * l), $MachinePrecision]), $MachinePrecision] * N[Sin[k], $MachinePrecision]), $MachinePrecision] * N[Tan[k], $MachinePrecision]), $MachinePrecision] * N[(N[(1.0 + N[Power[N[(k / t), $MachinePrecision], 2.0], $MachinePrecision]), $MachinePrecision] - 1.0), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]
code[t_, l_, k_] := N[(2.0 / N[(N[(N[(k / l), $MachinePrecision] * N[Tan[k], $MachinePrecision]), $MachinePrecision] / N[(N[(N[(l / k), $MachinePrecision] / N[Sin[k], $MachinePrecision]), $MachinePrecision] / t), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]
\frac{2}{\left(\left(\frac{{t}^{3}}{\ell \cdot \ell} \cdot \sin k\right) \cdot \tan k\right) \cdot \left(\left(1 + {\left(\frac{k}{t}\right)}^{2}\right) - 1\right)}
\frac{2}{\frac{\frac{k}{\ell} \cdot \tan k}{\frac{\frac{\frac{\ell}{k}}{\sin k}}{t}}}
Results
Initial program 25.1%
Simplified37.9%
[Start]25.1 | \[ \frac{2}{\left(\left(\frac{{t}^{3}}{\ell \cdot \ell} \cdot \sin k\right) \cdot \tan k\right) \cdot \left(\left(1 + {\left(\frac{k}{t}\right)}^{2}\right) - 1\right)}
\] |
|---|---|
*-commutative [=>]25.1 | \[ \frac{2}{\color{blue}{\left(\tan k \cdot \left(\frac{{t}^{3}}{\ell \cdot \ell} \cdot \sin k\right)\right)} \cdot \left(\left(1 + {\left(\frac{k}{t}\right)}^{2}\right) - 1\right)}
\] |
associate-*l* [=>]25.2 | \[ \frac{2}{\color{blue}{\tan k \cdot \left(\left(\frac{{t}^{3}}{\ell \cdot \ell} \cdot \sin k\right) \cdot \left(\left(1 + {\left(\frac{k}{t}\right)}^{2}\right) - 1\right)\right)}}
\] |
+-commutative [=>]25.2 | \[ \frac{2}{\tan k \cdot \left(\left(\frac{{t}^{3}}{\ell \cdot \ell} \cdot \sin k\right) \cdot \left(\color{blue}{\left({\left(\frac{k}{t}\right)}^{2} + 1\right)} - 1\right)\right)}
\] |
associate--l+ [=>]37.9 | \[ \frac{2}{\tan k \cdot \left(\left(\frac{{t}^{3}}{\ell \cdot \ell} \cdot \sin k\right) \cdot \color{blue}{\left({\left(\frac{k}{t}\right)}^{2} + \left(1 - 1\right)\right)}\right)}
\] |
metadata-eval [=>]37.9 | \[ \frac{2}{\tan k \cdot \left(\left(\frac{{t}^{3}}{\ell \cdot \ell} \cdot \sin k\right) \cdot \left({\left(\frac{k}{t}\right)}^{2} + \color{blue}{0}\right)\right)}
\] |
Taylor expanded in t around 0 65.7%
Simplified75.9%
[Start]65.7 | \[ \frac{2}{\tan k \cdot \frac{{k}^{2} \cdot \left(\sin k \cdot t\right)}{{\ell}^{2}}}
\] |
|---|---|
associate-*r* [=>]64.4 | \[ \frac{2}{\tan k \cdot \frac{\color{blue}{\left({k}^{2} \cdot \sin k\right) \cdot t}}{{\ell}^{2}}}
\] |
unpow2 [=>]64.4 | \[ \frac{2}{\tan k \cdot \frac{\left({k}^{2} \cdot \sin k\right) \cdot t}{\color{blue}{\ell \cdot \ell}}}
\] |
times-frac [=>]75.9 | \[ \frac{2}{\tan k \cdot \color{blue}{\left(\frac{{k}^{2} \cdot \sin k}{\ell} \cdot \frac{t}{\ell}\right)}}
\] |
unpow2 [=>]75.9 | \[ \frac{2}{\tan k \cdot \left(\frac{\color{blue}{\left(k \cdot k\right)} \cdot \sin k}{\ell} \cdot \frac{t}{\ell}\right)}
\] |
associate-*l* [=>]75.9 | \[ \frac{2}{\tan k \cdot \left(\frac{\color{blue}{k \cdot \left(k \cdot \sin k\right)}}{\ell} \cdot \frac{t}{\ell}\right)}
\] |
Applied egg-rr86.8%
[Start]75.9 | \[ \frac{2}{\tan k \cdot \left(\frac{k \cdot \left(k \cdot \sin k\right)}{\ell} \cdot \frac{t}{\ell}\right)}
\] |
|---|---|
associate-*r/ [=>]76.1 | \[ \frac{2}{\tan k \cdot \color{blue}{\frac{\frac{k \cdot \left(k \cdot \sin k\right)}{\ell} \cdot t}{\ell}}}
\] |
associate-/l* [=>]75.7 | \[ \frac{2}{\tan k \cdot \color{blue}{\frac{\frac{k \cdot \left(k \cdot \sin k\right)}{\ell}}{\frac{\ell}{t}}}}
\] |
associate-/l* [=>]83.4 | \[ \frac{2}{\tan k \cdot \frac{\color{blue}{\frac{k}{\frac{\ell}{k \cdot \sin k}}}}{\frac{\ell}{t}}}
\] |
frac-2neg [=>]83.4 | \[ \frac{2}{\tan k \cdot \frac{\color{blue}{\frac{-k}{-\frac{\ell}{k \cdot \sin k}}}}{\frac{\ell}{t}}}
\] |
associate-/l/ [=>]86.2 | \[ \frac{2}{\tan k \cdot \color{blue}{\frac{-k}{\frac{\ell}{t} \cdot \left(-\frac{\ell}{k \cdot \sin k}\right)}}}
\] |
associate-/r* [=>]86.8 | \[ \frac{2}{\tan k \cdot \frac{-k}{\frac{\ell}{t} \cdot \left(-\color{blue}{\frac{\frac{\ell}{k}}{\sin k}}\right)}}
\] |
Simplified95.6%
[Start]86.8 | \[ \frac{2}{\tan k \cdot \frac{-k}{\frac{\ell}{t} \cdot \left(-\frac{\frac{\ell}{k}}{\sin k}\right)}}
\] |
|---|---|
associate-/r* [=>]89.3 | \[ \frac{2}{\tan k \cdot \color{blue}{\frac{\frac{-k}{\frac{\ell}{t}}}{-\frac{\frac{\ell}{k}}{\sin k}}}}
\] |
associate-/r/ [=>]97.6 | \[ \frac{2}{\tan k \cdot \frac{\color{blue}{\frac{-k}{\ell} \cdot t}}{-\frac{\frac{\ell}{k}}{\sin k}}}
\] |
associate-/l/ [=>]95.6 | \[ \frac{2}{\tan k \cdot \frac{\frac{-k}{\ell} \cdot t}{-\color{blue}{\frac{\ell}{\sin k \cdot k}}}}
\] |
*-commutative [<=]95.6 | \[ \frac{2}{\tan k \cdot \frac{\frac{-k}{\ell} \cdot t}{-\frac{\ell}{\color{blue}{k \cdot \sin k}}}}
\] |
Applied egg-rr99.0%
[Start]95.6 | \[ \frac{2}{\tan k \cdot \frac{\frac{-k}{\ell} \cdot t}{-\frac{\ell}{k \cdot \sin k}}}
\] |
|---|---|
*-commutative [=>]95.6 | \[ \frac{2}{\color{blue}{\frac{\frac{-k}{\ell} \cdot t}{-\frac{\ell}{k \cdot \sin k}} \cdot \tan k}}
\] |
associate-/l* [=>]95.8 | \[ \frac{2}{\color{blue}{\frac{\frac{-k}{\ell}}{\frac{-\frac{\ell}{k \cdot \sin k}}{t}}} \cdot \tan k}
\] |
associate-*l/ [=>]96.6 | \[ \frac{2}{\color{blue}{\frac{\frac{-k}{\ell} \cdot \tan k}{\frac{-\frac{\ell}{k \cdot \sin k}}{t}}}}
\] |
add-sqr-sqrt [=>]46.5 | \[ \frac{2}{\frac{\frac{\color{blue}{\sqrt{-k} \cdot \sqrt{-k}}}{\ell} \cdot \tan k}{\frac{-\frac{\ell}{k \cdot \sin k}}{t}}}
\] |
sqrt-unprod [=>]63.5 | \[ \frac{2}{\frac{\frac{\color{blue}{\sqrt{\left(-k\right) \cdot \left(-k\right)}}}{\ell} \cdot \tan k}{\frac{-\frac{\ell}{k \cdot \sin k}}{t}}}
\] |
sqr-neg [=>]63.5 | \[ \frac{2}{\frac{\frac{\sqrt{\color{blue}{k \cdot k}}}{\ell} \cdot \tan k}{\frac{-\frac{\ell}{k \cdot \sin k}}{t}}}
\] |
sqrt-unprod [<=]23.8 | \[ \frac{2}{\frac{\frac{\color{blue}{\sqrt{k} \cdot \sqrt{k}}}{\ell} \cdot \tan k}{\frac{-\frac{\ell}{k \cdot \sin k}}{t}}}
\] |
add-sqr-sqrt [<=]47.3 | \[ \frac{2}{\frac{\frac{\color{blue}{k}}{\ell} \cdot \tan k}{\frac{-\frac{\ell}{k \cdot \sin k}}{t}}}
\] |
distribute-neg-frac [=>]47.3 | \[ \frac{2}{\frac{\frac{k}{\ell} \cdot \tan k}{\frac{\color{blue}{\frac{-\ell}{k \cdot \sin k}}}{t}}}
\] |
Final simplification99.0%
| Alternative 1 | |
|---|---|
| Accuracy | 93.8% |
| Cost | 14025 |
| Alternative 2 | |
|---|---|
| Accuracy | 98.1% |
| Cost | 13760 |
| Alternative 3 | |
|---|---|
| Accuracy | 61.4% |
| Cost | 1481 |
| Alternative 4 | |
|---|---|
| Accuracy | 59.4% |
| Cost | 960 |
| Alternative 5 | |
|---|---|
| Accuracy | 60.3% |
| Cost | 960 |
| Alternative 6 | |
|---|---|
| Accuracy | 64.4% |
| Cost | 960 |
herbie shell --seed 2023140
(FPCore (t l k)
:name "Toniolo and Linder, Equation (10-)"
:precision binary64
(/ 2.0 (* (* (* (/ (pow t 3.0) (* l l)) (sin k)) (tan k)) (- (+ 1.0 (pow (/ k t) 2.0)) 1.0))))