(FPCore (x.re x.im) :precision binary64 (- (* (- (* x.re x.re) (* x.im x.im)) x.re) (* (+ (* x.re x.im) (* x.im x.re)) x.im)))
(FPCore (x.re x.im) :precision binary64 (+ (pow x.re 3.0) (* x.im (* -3.0 (* x.re x.im)))))
double code(double x_46_re, double x_46_im) {
return (((x_46_re * x_46_re) - (x_46_im * x_46_im)) * x_46_re) - (((x_46_re * x_46_im) + (x_46_im * x_46_re)) * x_46_im);
}
double code(double x_46_re, double x_46_im) {
return pow(x_46_re, 3.0) + (x_46_im * (-3.0 * (x_46_re * x_46_im)));
}
real(8) function code(x_46re, x_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
code = (((x_46re * x_46re) - (x_46im * x_46im)) * x_46re) - (((x_46re * x_46im) + (x_46im * x_46re)) * x_46im)
end function
real(8) function code(x_46re, x_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
code = (x_46re ** 3.0d0) + (x_46im * ((-3.0d0) * (x_46re * x_46im)))
end function
public static double code(double x_46_re, double x_46_im) {
return (((x_46_re * x_46_re) - (x_46_im * x_46_im)) * x_46_re) - (((x_46_re * x_46_im) + (x_46_im * x_46_re)) * x_46_im);
}
public static double code(double x_46_re, double x_46_im) {
return Math.pow(x_46_re, 3.0) + (x_46_im * (-3.0 * (x_46_re * x_46_im)));
}
def code(x_46_re, x_46_im): return (((x_46_re * x_46_re) - (x_46_im * x_46_im)) * x_46_re) - (((x_46_re * x_46_im) + (x_46_im * x_46_re)) * x_46_im)
def code(x_46_re, x_46_im): return math.pow(x_46_re, 3.0) + (x_46_im * (-3.0 * (x_46_re * x_46_im)))
function code(x_46_re, x_46_im) return Float64(Float64(Float64(Float64(x_46_re * x_46_re) - Float64(x_46_im * x_46_im)) * x_46_re) - Float64(Float64(Float64(x_46_re * x_46_im) + Float64(x_46_im * x_46_re)) * x_46_im)) end
function code(x_46_re, x_46_im) return Float64((x_46_re ^ 3.0) + Float64(x_46_im * Float64(-3.0 * Float64(x_46_re * x_46_im)))) end
function tmp = code(x_46_re, x_46_im) tmp = (((x_46_re * x_46_re) - (x_46_im * x_46_im)) * x_46_re) - (((x_46_re * x_46_im) + (x_46_im * x_46_re)) * x_46_im); end
function tmp = code(x_46_re, x_46_im) tmp = (x_46_re ^ 3.0) + (x_46_im * (-3.0 * (x_46_re * x_46_im))); end
code[x$46$re_, x$46$im_] := N[(N[(N[(N[(x$46$re * x$46$re), $MachinePrecision] - N[(x$46$im * x$46$im), $MachinePrecision]), $MachinePrecision] * x$46$re), $MachinePrecision] - N[(N[(N[(x$46$re * x$46$im), $MachinePrecision] + N[(x$46$im * x$46$re), $MachinePrecision]), $MachinePrecision] * x$46$im), $MachinePrecision]), $MachinePrecision]
code[x$46$re_, x$46$im_] := N[(N[Power[x$46$re, 3.0], $MachinePrecision] + N[(x$46$im * N[(-3.0 * N[(x$46$re * x$46$im), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]
\left(x.re \cdot x.re - x.im \cdot x.im\right) \cdot x.re - \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.im
{x.re}^{3} + x.im \cdot \left(-3 \cdot \left(x.re \cdot x.im\right)\right)
Results
| Original | 88.5% |
|---|---|
| Target | 99.6% |
| Herbie | 99.7% |
Initial program 88.5
Simplified88.6
[Start]88.5 | \[ \left(x.re \cdot x.re - x.im \cdot x.im\right) \cdot x.re - \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.im
\] |
|---|---|
*-commutative [=>]88.5 | \[ \color{blue}{x.re \cdot \left(x.re \cdot x.re - x.im \cdot x.im\right)} - \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.im
\] |
sub-neg [=>]88.5 | \[ x.re \cdot \color{blue}{\left(x.re \cdot x.re + \left(-x.im \cdot x.im\right)\right)} - \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.im
\] |
distribute-rgt-in [=>]88.5 | \[ \color{blue}{\left(\left(x.re \cdot x.re\right) \cdot x.re + \left(-x.im \cdot x.im\right) \cdot x.re\right)} - \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.im
\] |
associate--l+ [=>]88.5 | \[ \color{blue}{\left(x.re \cdot x.re\right) \cdot x.re + \left(\left(-x.im \cdot x.im\right) \cdot x.re - \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.im\right)}
\] |
*-commutative [=>]88.5 | \[ \color{blue}{x.re \cdot \left(x.re \cdot x.re\right)} + \left(\left(-x.im \cdot x.im\right) \cdot x.re - \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.im\right)
\] |
cube-unmult [=>]88.7 | \[ \color{blue}{{x.re}^{3}} + \left(\left(-x.im \cdot x.im\right) \cdot x.re - \left(x.re \cdot x.im + x.im \cdot x.re\right) \cdot x.im\right)
\] |
*-commutative [=>]88.7 | \[ {x.re}^{3} + \left(\left(-x.im \cdot x.im\right) \cdot x.re - \left(\color{blue}{x.im \cdot x.re} + x.im \cdot x.re\right) \cdot x.im\right)
\] |
distribute-rgt-out [=>]88.7 | \[ {x.re}^{3} + \left(\left(-x.im \cdot x.im\right) \cdot x.re - \color{blue}{\left(x.re \cdot \left(x.im + x.im\right)\right)} \cdot x.im\right)
\] |
associate-*l* [=>]88.6 | \[ {x.re}^{3} + \left(\left(-x.im \cdot x.im\right) \cdot x.re - \color{blue}{x.re \cdot \left(\left(x.im + x.im\right) \cdot x.im\right)}\right)
\] |
*-commutative [=>]88.6 | \[ {x.re}^{3} + \left(\left(-x.im \cdot x.im\right) \cdot x.re - \color{blue}{\left(\left(x.im + x.im\right) \cdot x.im\right) \cdot x.re}\right)
\] |
distribute-rgt-out-- [=>]88.6 | \[ {x.re}^{3} + \color{blue}{x.re \cdot \left(\left(-x.im \cdot x.im\right) - \left(x.im + x.im\right) \cdot x.im\right)}
\] |
neg-mul-1 [=>]88.6 | \[ {x.re}^{3} + x.re \cdot \left(\color{blue}{-1 \cdot \left(x.im \cdot x.im\right)} - \left(x.im + x.im\right) \cdot x.im\right)
\] |
count-2 [=>]88.6 | \[ {x.re}^{3} + x.re \cdot \left(-1 \cdot \left(x.im \cdot x.im\right) - \color{blue}{\left(2 \cdot x.im\right)} \cdot x.im\right)
\] |
associate-*l* [=>]88.6 | \[ {x.re}^{3} + x.re \cdot \left(-1 \cdot \left(x.im \cdot x.im\right) - \color{blue}{2 \cdot \left(x.im \cdot x.im\right)}\right)
\] |
distribute-rgt-out-- [=>]88.6 | \[ {x.re}^{3} + x.re \cdot \color{blue}{\left(\left(x.im \cdot x.im\right) \cdot \left(-1 - 2\right)\right)}
\] |
associate-*l* [<=]88.6 | \[ {x.re}^{3} + \color{blue}{\left(x.re \cdot \left(x.im \cdot x.im\right)\right) \cdot \left(-1 - 2\right)}
\] |
metadata-eval [=>]88.6 | \[ {x.re}^{3} + \left(x.re \cdot \left(x.im \cdot x.im\right)\right) \cdot \color{blue}{-3}
\] |
Taylor expanded in x.re around 0 88.6
Simplified99.7
[Start]88.6 | \[ {x.re}^{3} + -3 \cdot \left(x.re \cdot {x.im}^{2}\right)
\] |
|---|---|
*-commutative [=>]88.6 | \[ {x.re}^{3} + \color{blue}{\left(x.re \cdot {x.im}^{2}\right) \cdot -3}
\] |
unpow2 [=>]88.6 | \[ {x.re}^{3} + \left(x.re \cdot \color{blue}{\left(x.im \cdot x.im\right)}\right) \cdot -3
\] |
associate-*r* [<=]88.6 | \[ {x.re}^{3} + \color{blue}{x.re \cdot \left(\left(x.im \cdot x.im\right) \cdot -3\right)}
\] |
associate-*r* [<=]88.6 | \[ {x.re}^{3} + x.re \cdot \color{blue}{\left(x.im \cdot \left(x.im \cdot -3\right)\right)}
\] |
*-commutative [=>]88.6 | \[ {x.re}^{3} + \color{blue}{\left(x.im \cdot \left(x.im \cdot -3\right)\right) \cdot x.re}
\] |
associate-*l* [=>]99.7 | \[ {x.re}^{3} + \color{blue}{x.im \cdot \left(\left(x.im \cdot -3\right) \cdot x.re\right)}
\] |
Taylor expanded in x.im around 0 99.7
Final simplification99.7
| Alternative 1 | |
|---|---|
| Error | 99.6% |
| Cost | 1352.00 |
| Alternative 2 | |
|---|---|
| Error | 99.6% |
| Cost | 1216.00 |
| Alternative 3 | |
|---|---|
| Error | 99.6% |
| Cost | 1216.00 |
| Alternative 4 | |
|---|---|
| Error | 99.5% |
| Cost | 968.00 |
| Alternative 5 | |
|---|---|
| Error | 69.5% |
| Cost | 448.00 |
herbie shell --seed 2023093
(FPCore (x.re x.im)
:name "math.cube on complex, real part"
:precision binary64
:herbie-target
(+ (* (* x.re x.re) (- x.re x.im)) (* (* x.re x.im) (- x.re (* 3.0 x.im))))
(- (* (- (* x.re x.re) (* x.im x.im)) x.re) (* (+ (* x.re x.im) (* x.im x.re)) x.im)))