(FPCore (a b_2 c) :precision binary64 (/ (+ (- b_2) (sqrt (- (* b_2 b_2) (* a c)))) a))
(FPCore (a b_2 c)
:precision binary64
(if (<= b_2 -3.8e+123)
(+ (* -2.0 (/ b_2 a)) (* 0.5 (/ c b_2)))
(if (<= b_2 2.75e-37)
(/ (- (sqrt (- (* b_2 b_2) (* a c))) b_2) a)
(/ (* c -0.5) b_2))))double code(double a, double b_2, double c) {
return (-b_2 + sqrt(((b_2 * b_2) - (a * c)))) / a;
}
double code(double a, double b_2, double c) {
double tmp;
if (b_2 <= -3.8e+123) {
tmp = (-2.0 * (b_2 / a)) + (0.5 * (c / b_2));
} else if (b_2 <= 2.75e-37) {
tmp = (sqrt(((b_2 * b_2) - (a * c))) - b_2) / a;
} else {
tmp = (c * -0.5) / b_2;
}
return tmp;
}
real(8) function code(a, b_2, c)
real(8), intent (in) :: a
real(8), intent (in) :: b_2
real(8), intent (in) :: c
code = (-b_2 + sqrt(((b_2 * b_2) - (a * c)))) / a
end function
real(8) function code(a, b_2, c)
real(8), intent (in) :: a
real(8), intent (in) :: b_2
real(8), intent (in) :: c
real(8) :: tmp
if (b_2 <= (-3.8d+123)) then
tmp = ((-2.0d0) * (b_2 / a)) + (0.5d0 * (c / b_2))
else if (b_2 <= 2.75d-37) then
tmp = (sqrt(((b_2 * b_2) - (a * c))) - b_2) / a
else
tmp = (c * (-0.5d0)) / b_2
end if
code = tmp
end function
public static double code(double a, double b_2, double c) {
return (-b_2 + Math.sqrt(((b_2 * b_2) - (a * c)))) / a;
}
public static double code(double a, double b_2, double c) {
double tmp;
if (b_2 <= -3.8e+123) {
tmp = (-2.0 * (b_2 / a)) + (0.5 * (c / b_2));
} else if (b_2 <= 2.75e-37) {
tmp = (Math.sqrt(((b_2 * b_2) - (a * c))) - b_2) / a;
} else {
tmp = (c * -0.5) / b_2;
}
return tmp;
}
def code(a, b_2, c): return (-b_2 + math.sqrt(((b_2 * b_2) - (a * c)))) / a
def code(a, b_2, c): tmp = 0 if b_2 <= -3.8e+123: tmp = (-2.0 * (b_2 / a)) + (0.5 * (c / b_2)) elif b_2 <= 2.75e-37: tmp = (math.sqrt(((b_2 * b_2) - (a * c))) - b_2) / a else: tmp = (c * -0.5) / b_2 return tmp
function code(a, b_2, c) return Float64(Float64(Float64(-b_2) + sqrt(Float64(Float64(b_2 * b_2) - Float64(a * c)))) / a) end
function code(a, b_2, c) tmp = 0.0 if (b_2 <= -3.8e+123) tmp = Float64(Float64(-2.0 * Float64(b_2 / a)) + Float64(0.5 * Float64(c / b_2))); elseif (b_2 <= 2.75e-37) tmp = Float64(Float64(sqrt(Float64(Float64(b_2 * b_2) - Float64(a * c))) - b_2) / a); else tmp = Float64(Float64(c * -0.5) / b_2); end return tmp end
function tmp = code(a, b_2, c) tmp = (-b_2 + sqrt(((b_2 * b_2) - (a * c)))) / a; end
function tmp_2 = code(a, b_2, c) tmp = 0.0; if (b_2 <= -3.8e+123) tmp = (-2.0 * (b_2 / a)) + (0.5 * (c / b_2)); elseif (b_2 <= 2.75e-37) tmp = (sqrt(((b_2 * b_2) - (a * c))) - b_2) / a; else tmp = (c * -0.5) / b_2; end tmp_2 = tmp; end
code[a_, b$95$2_, c_] := N[(N[((-b$95$2) + N[Sqrt[N[(N[(b$95$2 * b$95$2), $MachinePrecision] - N[(a * c), $MachinePrecision]), $MachinePrecision]], $MachinePrecision]), $MachinePrecision] / a), $MachinePrecision]
code[a_, b$95$2_, c_] := If[LessEqual[b$95$2, -3.8e+123], N[(N[(-2.0 * N[(b$95$2 / a), $MachinePrecision]), $MachinePrecision] + N[(0.5 * N[(c / b$95$2), $MachinePrecision]), $MachinePrecision]), $MachinePrecision], If[LessEqual[b$95$2, 2.75e-37], N[(N[(N[Sqrt[N[(N[(b$95$2 * b$95$2), $MachinePrecision] - N[(a * c), $MachinePrecision]), $MachinePrecision]], $MachinePrecision] - b$95$2), $MachinePrecision] / a), $MachinePrecision], N[(N[(c * -0.5), $MachinePrecision] / b$95$2), $MachinePrecision]]]
\frac{\left(-b_2\right) + \sqrt{b_2 \cdot b_2 - a \cdot c}}{a}
\begin{array}{l}
\mathbf{if}\;b_2 \leq -3.8 \cdot 10^{+123}:\\
\;\;\;\;-2 \cdot \frac{b_2}{a} + 0.5 \cdot \frac{c}{b_2}\\
\mathbf{elif}\;b_2 \leq 2.75 \cdot 10^{-37}:\\
\;\;\;\;\frac{\sqrt{b_2 \cdot b_2 - a \cdot c} - b_2}{a}\\
\mathbf{else}:\\
\;\;\;\;\frac{c \cdot -0.5}{b_2}\\
\end{array}
Results
if b_2 < -3.79999999999999994e123Initial program 45.7%
Simplified45.7%
[Start]45.7 | \[ \frac{\left(-b_2\right) + \sqrt{b_2 \cdot b_2 - a \cdot c}}{a}
\] |
|---|---|
+-commutative [=>]45.7 | \[ \frac{\color{blue}{\sqrt{b_2 \cdot b_2 - a \cdot c} + \left(-b_2\right)}}{a}
\] |
unsub-neg [=>]45.7 | \[ \frac{\color{blue}{\sqrt{b_2 \cdot b_2 - a \cdot c} - b_2}}{a}
\] |
Taylor expanded in b_2 around -inf 96.3%
if -3.79999999999999994e123 < b_2 < 2.7499999999999999e-37Initial program 82.2%
Simplified82.2%
[Start]82.2 | \[ \frac{\left(-b_2\right) + \sqrt{b_2 \cdot b_2 - a \cdot c}}{a}
\] |
|---|---|
+-commutative [=>]82.2 | \[ \frac{\color{blue}{\sqrt{b_2 \cdot b_2 - a \cdot c} + \left(-b_2\right)}}{a}
\] |
unsub-neg [=>]82.2 | \[ \frac{\color{blue}{\sqrt{b_2 \cdot b_2 - a \cdot c} - b_2}}{a}
\] |
if 2.7499999999999999e-37 < b_2 Initial program 13.6%
Simplified13.6%
[Start]13.6 | \[ \frac{\left(-b_2\right) + \sqrt{b_2 \cdot b_2 - a \cdot c}}{a}
\] |
|---|---|
+-commutative [=>]13.6 | \[ \frac{\color{blue}{\sqrt{b_2 \cdot b_2 - a \cdot c} + \left(-b_2\right)}}{a}
\] |
unsub-neg [=>]13.6 | \[ \frac{\color{blue}{\sqrt{b_2 \cdot b_2 - a \cdot c} - b_2}}{a}
\] |
Applied egg-rr24.0%
[Start]13.6 | \[ \frac{\sqrt{b_2 \cdot b_2 - a \cdot c} - b_2}{a}
\] |
|---|---|
clear-num [=>]13.6 | \[ \color{blue}{\frac{1}{\frac{a}{\sqrt{b_2 \cdot b_2 - a \cdot c} - b_2}}}
\] |
inv-pow [=>]13.6 | \[ \color{blue}{{\left(\frac{a}{\sqrt{b_2 \cdot b_2 - a \cdot c} - b_2}\right)}^{-1}}
\] |
sub-neg [=>]13.6 | \[ {\left(\frac{a}{\sqrt{\color{blue}{b_2 \cdot b_2 + \left(-a \cdot c\right)}} - b_2}\right)}^{-1}
\] |
add-sqr-sqrt [=>]12.0 | \[ {\left(\frac{a}{\sqrt{b_2 \cdot b_2 + \color{blue}{\sqrt{-a \cdot c} \cdot \sqrt{-a \cdot c}}} - b_2}\right)}^{-1}
\] |
hypot-def [=>]24.0 | \[ {\left(\frac{a}{\color{blue}{\mathsf{hypot}\left(b_2, \sqrt{-a \cdot c}\right)} - b_2}\right)}^{-1}
\] |
*-commutative [=>]24.0 | \[ {\left(\frac{a}{\mathsf{hypot}\left(b_2, \sqrt{-\color{blue}{c \cdot a}}\right) - b_2}\right)}^{-1}
\] |
distribute-rgt-neg-in [=>]24.0 | \[ {\left(\frac{a}{\mathsf{hypot}\left(b_2, \sqrt{\color{blue}{c \cdot \left(-a\right)}}\right) - b_2}\right)}^{-1}
\] |
Taylor expanded in b_2 around inf 0.0%
Simplified88.4%
[Start]0.0 | \[ 0.5 \cdot \frac{c \cdot {\left(\sqrt{-1}\right)}^{2}}{b_2}
\] |
|---|---|
associate-*r/ [=>]0.0 | \[ \color{blue}{\frac{0.5 \cdot \left(c \cdot {\left(\sqrt{-1}\right)}^{2}\right)}{b_2}}
\] |
*-commutative [=>]0.0 | \[ \frac{0.5 \cdot \color{blue}{\left({\left(\sqrt{-1}\right)}^{2} \cdot c\right)}}{b_2}
\] |
unpow2 [=>]0.0 | \[ \frac{0.5 \cdot \left(\color{blue}{\left(\sqrt{-1} \cdot \sqrt{-1}\right)} \cdot c\right)}{b_2}
\] |
rem-square-sqrt [=>]88.4 | \[ \frac{0.5 \cdot \left(\color{blue}{-1} \cdot c\right)}{b_2}
\] |
associate-*r* [=>]88.4 | \[ \frac{\color{blue}{\left(0.5 \cdot -1\right) \cdot c}}{b_2}
\] |
metadata-eval [=>]88.4 | \[ \frac{\color{blue}{-0.5} \cdot c}{b_2}
\] |
Final simplification86.8%
| Alternative 1 | |
|---|---|
| Accuracy | 80.9% |
| Cost | 7176 |
| Alternative 2 | |
|---|---|
| Accuracy | 67.7% |
| Cost | 836 |
| Alternative 3 | |
|---|---|
| Accuracy | 47.7% |
| Cost | 452 |
| Alternative 4 | |
|---|---|
| Accuracy | 67.4% |
| Cost | 452 |
| Alternative 5 | |
|---|---|
| Accuracy | 67.4% |
| Cost | 452 |
| Alternative 6 | |
|---|---|
| Accuracy | 67.4% |
| Cost | 452 |
| Alternative 7 | |
|---|---|
| Accuracy | 67.5% |
| Cost | 452 |
| Alternative 8 | |
|---|---|
| Accuracy | 14.7% |
| Cost | 256 |
herbie shell --seed 2023159
(FPCore (a b_2 c)
:name "quad2p (problem 3.2.1, positive)"
:precision binary64
(/ (+ (- b_2) (sqrt (- (* b_2 b_2) (* a c)))) a))