
(FPCore (a b) :precision binary64 (- (+ (pow (+ (* a a) (* b b)) 2.0) (* 4.0 (+ (* (* a a) (+ 1.0 a)) (* (* b b) (- 1.0 (* 3.0 a)))))) 1.0))
double code(double a, double b) {
return (pow(((a * a) + (b * b)), 2.0) + (4.0 * (((a * a) * (1.0 + a)) + ((b * b) * (1.0 - (3.0 * a)))))) - 1.0;
}
real(8) function code(a, b)
real(8), intent (in) :: a
real(8), intent (in) :: b
code = ((((a * a) + (b * b)) ** 2.0d0) + (4.0d0 * (((a * a) * (1.0d0 + a)) + ((b * b) * (1.0d0 - (3.0d0 * a)))))) - 1.0d0
end function
public static double code(double a, double b) {
return (Math.pow(((a * a) + (b * b)), 2.0) + (4.0 * (((a * a) * (1.0 + a)) + ((b * b) * (1.0 - (3.0 * a)))))) - 1.0;
}
def code(a, b): return (math.pow(((a * a) + (b * b)), 2.0) + (4.0 * (((a * a) * (1.0 + a)) + ((b * b) * (1.0 - (3.0 * a)))))) - 1.0
function code(a, b) return Float64(Float64((Float64(Float64(a * a) + Float64(b * b)) ^ 2.0) + Float64(4.0 * Float64(Float64(Float64(a * a) * Float64(1.0 + a)) + Float64(Float64(b * b) * Float64(1.0 - Float64(3.0 * a)))))) - 1.0) end
function tmp = code(a, b) tmp = ((((a * a) + (b * b)) ^ 2.0) + (4.0 * (((a * a) * (1.0 + a)) + ((b * b) * (1.0 - (3.0 * a)))))) - 1.0; end
code[a_, b_] := N[(N[(N[Power[N[(N[(a * a), $MachinePrecision] + N[(b * b), $MachinePrecision]), $MachinePrecision], 2.0], $MachinePrecision] + N[(4.0 * N[(N[(N[(a * a), $MachinePrecision] * N[(1.0 + a), $MachinePrecision]), $MachinePrecision] + N[(N[(b * b), $MachinePrecision] * N[(1.0 - N[(3.0 * a), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] - 1.0), $MachinePrecision]
\begin{array}{l}
\\
\left({\left(a \cdot a + b \cdot b\right)}^{2} + 4 \cdot \left(\left(a \cdot a\right) \cdot \left(1 + a\right) + \left(b \cdot b\right) \cdot \left(1 - 3 \cdot a\right)\right)\right) - 1
\end{array}
Sampling outcomes in binary64 precision:
Herbie found 7 alternatives:
| Alternative | Accuracy | Speedup |
|---|
(FPCore (a b) :precision binary64 (- (+ (pow (+ (* a a) (* b b)) 2.0) (* 4.0 (+ (* (* a a) (+ 1.0 a)) (* (* b b) (- 1.0 (* 3.0 a)))))) 1.0))
double code(double a, double b) {
return (pow(((a * a) + (b * b)), 2.0) + (4.0 * (((a * a) * (1.0 + a)) + ((b * b) * (1.0 - (3.0 * a)))))) - 1.0;
}
real(8) function code(a, b)
real(8), intent (in) :: a
real(8), intent (in) :: b
code = ((((a * a) + (b * b)) ** 2.0d0) + (4.0d0 * (((a * a) * (1.0d0 + a)) + ((b * b) * (1.0d0 - (3.0d0 * a)))))) - 1.0d0
end function
public static double code(double a, double b) {
return (Math.pow(((a * a) + (b * b)), 2.0) + (4.0 * (((a * a) * (1.0 + a)) + ((b * b) * (1.0 - (3.0 * a)))))) - 1.0;
}
def code(a, b): return (math.pow(((a * a) + (b * b)), 2.0) + (4.0 * (((a * a) * (1.0 + a)) + ((b * b) * (1.0 - (3.0 * a)))))) - 1.0
function code(a, b) return Float64(Float64((Float64(Float64(a * a) + Float64(b * b)) ^ 2.0) + Float64(4.0 * Float64(Float64(Float64(a * a) * Float64(1.0 + a)) + Float64(Float64(b * b) * Float64(1.0 - Float64(3.0 * a)))))) - 1.0) end
function tmp = code(a, b) tmp = ((((a * a) + (b * b)) ^ 2.0) + (4.0 * (((a * a) * (1.0 + a)) + ((b * b) * (1.0 - (3.0 * a)))))) - 1.0; end
code[a_, b_] := N[(N[(N[Power[N[(N[(a * a), $MachinePrecision] + N[(b * b), $MachinePrecision]), $MachinePrecision], 2.0], $MachinePrecision] + N[(4.0 * N[(N[(N[(a * a), $MachinePrecision] * N[(1.0 + a), $MachinePrecision]), $MachinePrecision] + N[(N[(b * b), $MachinePrecision] * N[(1.0 - N[(3.0 * a), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] - 1.0), $MachinePrecision]
\begin{array}{l}
\\
\left({\left(a \cdot a + b \cdot b\right)}^{2} + 4 \cdot \left(\left(a \cdot a\right) \cdot \left(1 + a\right) + \left(b \cdot b\right) \cdot \left(1 - 3 \cdot a\right)\right)\right) - 1
\end{array}
(FPCore (a b)
:precision binary64
(let* ((t_0
(+
(pow (+ (* a a) (* b b)) 2.0)
(* 4.0 (+ (* (* a a) (+ a 1.0)) (* (* b b) (- 1.0 (* a 3.0))))))))
(if (<= t_0 INFINITY) (+ t_0 -1.0) (+ (pow a 4.0) -1.0))))
double code(double a, double b) {
double t_0 = pow(((a * a) + (b * b)), 2.0) + (4.0 * (((a * a) * (a + 1.0)) + ((b * b) * (1.0 - (a * 3.0)))));
double tmp;
if (t_0 <= ((double) INFINITY)) {
tmp = t_0 + -1.0;
} else {
tmp = pow(a, 4.0) + -1.0;
}
return tmp;
}
public static double code(double a, double b) {
double t_0 = Math.pow(((a * a) + (b * b)), 2.0) + (4.0 * (((a * a) * (a + 1.0)) + ((b * b) * (1.0 - (a * 3.0)))));
double tmp;
if (t_0 <= Double.POSITIVE_INFINITY) {
tmp = t_0 + -1.0;
} else {
tmp = Math.pow(a, 4.0) + -1.0;
}
return tmp;
}
def code(a, b): t_0 = math.pow(((a * a) + (b * b)), 2.0) + (4.0 * (((a * a) * (a + 1.0)) + ((b * b) * (1.0 - (a * 3.0))))) tmp = 0 if t_0 <= math.inf: tmp = t_0 + -1.0 else: tmp = math.pow(a, 4.0) + -1.0 return tmp
function code(a, b) t_0 = Float64((Float64(Float64(a * a) + Float64(b * b)) ^ 2.0) + Float64(4.0 * Float64(Float64(Float64(a * a) * Float64(a + 1.0)) + Float64(Float64(b * b) * Float64(1.0 - Float64(a * 3.0)))))) tmp = 0.0 if (t_0 <= Inf) tmp = Float64(t_0 + -1.0); else tmp = Float64((a ^ 4.0) + -1.0); end return tmp end
function tmp_2 = code(a, b) t_0 = (((a * a) + (b * b)) ^ 2.0) + (4.0 * (((a * a) * (a + 1.0)) + ((b * b) * (1.0 - (a * 3.0))))); tmp = 0.0; if (t_0 <= Inf) tmp = t_0 + -1.0; else tmp = (a ^ 4.0) + -1.0; end tmp_2 = tmp; end
code[a_, b_] := Block[{t$95$0 = N[(N[Power[N[(N[(a * a), $MachinePrecision] + N[(b * b), $MachinePrecision]), $MachinePrecision], 2.0], $MachinePrecision] + N[(4.0 * N[(N[(N[(a * a), $MachinePrecision] * N[(a + 1.0), $MachinePrecision]), $MachinePrecision] + N[(N[(b * b), $MachinePrecision] * N[(1.0 - N[(a * 3.0), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]}, If[LessEqual[t$95$0, Infinity], N[(t$95$0 + -1.0), $MachinePrecision], N[(N[Power[a, 4.0], $MachinePrecision] + -1.0), $MachinePrecision]]]
\begin{array}{l}
\\
\begin{array}{l}
t_0 := {\left(a \cdot a + b \cdot b\right)}^{2} + 4 \cdot \left(\left(a \cdot a\right) \cdot \left(a + 1\right) + \left(b \cdot b\right) \cdot \left(1 - a \cdot 3\right)\right)\\
\mathbf{if}\;t\_0 \leq \infty:\\
\;\;\;\;t\_0 + -1\\
\mathbf{else}:\\
\;\;\;\;{a}^{4} + -1\\
\end{array}
\end{array}
if (+.f64 (pow.f64 (+.f64 (*.f64 a a) (*.f64 b b)) #s(literal 2 binary64)) (*.f64 #s(literal 4 binary64) (+.f64 (*.f64 (*.f64 a a) (+.f64 #s(literal 1 binary64) a)) (*.f64 (*.f64 b b) (-.f64 #s(literal 1 binary64) (*.f64 #s(literal 3 binary64) a)))))) < +inf.0Initial program 99.9%
if +inf.0 < (+.f64 (pow.f64 (+.f64 (*.f64 a a) (*.f64 b b)) #s(literal 2 binary64)) (*.f64 #s(literal 4 binary64) (+.f64 (*.f64 (*.f64 a a) (+.f64 #s(literal 1 binary64) a)) (*.f64 (*.f64 b b) (-.f64 #s(literal 1 binary64) (*.f64 #s(literal 3 binary64) a)))))) Initial program 0.0%
sub-neg0.0%
Simplified14.3%
Taylor expanded in a around inf 95.0%
Final simplification98.8%
(FPCore (a b)
:precision binary64
(if (<= b 1.4e-5)
(+ -1.0 (* (pow a 4.0) (+ 1.0 (/ 4.0 a))))
(if (<= b 1.45e+58)
(+
-1.0
(+ (* (* b b) 4.0) (+ (* a (* (* b b) (- (* a 2.0) 12.0))) (pow b 4.0))))
(pow b 4.0))))
double code(double a, double b) {
double tmp;
if (b <= 1.4e-5) {
tmp = -1.0 + (pow(a, 4.0) * (1.0 + (4.0 / a)));
} else if (b <= 1.45e+58) {
tmp = -1.0 + (((b * b) * 4.0) + ((a * ((b * b) * ((a * 2.0) - 12.0))) + pow(b, 4.0)));
} else {
tmp = pow(b, 4.0);
}
return tmp;
}
real(8) function code(a, b)
real(8), intent (in) :: a
real(8), intent (in) :: b
real(8) :: tmp
if (b <= 1.4d-5) then
tmp = (-1.0d0) + ((a ** 4.0d0) * (1.0d0 + (4.0d0 / a)))
else if (b <= 1.45d+58) then
tmp = (-1.0d0) + (((b * b) * 4.0d0) + ((a * ((b * b) * ((a * 2.0d0) - 12.0d0))) + (b ** 4.0d0)))
else
tmp = b ** 4.0d0
end if
code = tmp
end function
public static double code(double a, double b) {
double tmp;
if (b <= 1.4e-5) {
tmp = -1.0 + (Math.pow(a, 4.0) * (1.0 + (4.0 / a)));
} else if (b <= 1.45e+58) {
tmp = -1.0 + (((b * b) * 4.0) + ((a * ((b * b) * ((a * 2.0) - 12.0))) + Math.pow(b, 4.0)));
} else {
tmp = Math.pow(b, 4.0);
}
return tmp;
}
def code(a, b): tmp = 0 if b <= 1.4e-5: tmp = -1.0 + (math.pow(a, 4.0) * (1.0 + (4.0 / a))) elif b <= 1.45e+58: tmp = -1.0 + (((b * b) * 4.0) + ((a * ((b * b) * ((a * 2.0) - 12.0))) + math.pow(b, 4.0))) else: tmp = math.pow(b, 4.0) return tmp
function code(a, b) tmp = 0.0 if (b <= 1.4e-5) tmp = Float64(-1.0 + Float64((a ^ 4.0) * Float64(1.0 + Float64(4.0 / a)))); elseif (b <= 1.45e+58) tmp = Float64(-1.0 + Float64(Float64(Float64(b * b) * 4.0) + Float64(Float64(a * Float64(Float64(b * b) * Float64(Float64(a * 2.0) - 12.0))) + (b ^ 4.0)))); else tmp = b ^ 4.0; end return tmp end
function tmp_2 = code(a, b) tmp = 0.0; if (b <= 1.4e-5) tmp = -1.0 + ((a ^ 4.0) * (1.0 + (4.0 / a))); elseif (b <= 1.45e+58) tmp = -1.0 + (((b * b) * 4.0) + ((a * ((b * b) * ((a * 2.0) - 12.0))) + (b ^ 4.0))); else tmp = b ^ 4.0; end tmp_2 = tmp; end
code[a_, b_] := If[LessEqual[b, 1.4e-5], N[(-1.0 + N[(N[Power[a, 4.0], $MachinePrecision] * N[(1.0 + N[(4.0 / a), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision], If[LessEqual[b, 1.45e+58], N[(-1.0 + N[(N[(N[(b * b), $MachinePrecision] * 4.0), $MachinePrecision] + N[(N[(a * N[(N[(b * b), $MachinePrecision] * N[(N[(a * 2.0), $MachinePrecision] - 12.0), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] + N[Power[b, 4.0], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision], N[Power[b, 4.0], $MachinePrecision]]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;b \leq 1.4 \cdot 10^{-5}:\\
\;\;\;\;-1 + {a}^{4} \cdot \left(1 + \frac{4}{a}\right)\\
\mathbf{elif}\;b \leq 1.45 \cdot 10^{+58}:\\
\;\;\;\;-1 + \left(\left(b \cdot b\right) \cdot 4 + \left(a \cdot \left(\left(b \cdot b\right) \cdot \left(a \cdot 2 - 12\right)\right) + {b}^{4}\right)\right)\\
\mathbf{else}:\\
\;\;\;\;{b}^{4}\\
\end{array}
\end{array}
if b < 1.39999999999999998e-5Initial program 79.0%
sub-neg79.0%
Simplified79.5%
Taylor expanded in a around inf 80.8%
associate-*r/80.8%
metadata-eval80.8%
Simplified80.8%
if 1.39999999999999998e-5 < b < 1.45000000000000001e58Initial program 99.5%
associate--l+99.5%
+-commutative99.5%
+-commutative99.5%
sub-neg99.5%
associate-+l+99.5%
+-commutative99.5%
fma-define99.5%
Simplified99.5%
Taylor expanded in a around 0 79.8%
Taylor expanded in b around inf 79.8%
unpow279.8%
Applied egg-rr79.8%
unpow279.8%
Applied egg-rr79.8%
if 1.45000000000000001e58 < b Initial program 70.5%
sub-neg70.5%
Simplified84.2%
Taylor expanded in b around inf 100.0%
Taylor expanded in b around inf 100.0%
Final simplification84.6%
(FPCore (a b) :precision binary64 (if (<= b 400000000.0) (+ -1.0 (* (pow a 4.0) (+ 1.0 (/ 4.0 a)))) (pow b 4.0)))
double code(double a, double b) {
double tmp;
if (b <= 400000000.0) {
tmp = -1.0 + (pow(a, 4.0) * (1.0 + (4.0 / a)));
} else {
tmp = pow(b, 4.0);
}
return tmp;
}
real(8) function code(a, b)
real(8), intent (in) :: a
real(8), intent (in) :: b
real(8) :: tmp
if (b <= 400000000.0d0) then
tmp = (-1.0d0) + ((a ** 4.0d0) * (1.0d0 + (4.0d0 / a)))
else
tmp = b ** 4.0d0
end if
code = tmp
end function
public static double code(double a, double b) {
double tmp;
if (b <= 400000000.0) {
tmp = -1.0 + (Math.pow(a, 4.0) * (1.0 + (4.0 / a)));
} else {
tmp = Math.pow(b, 4.0);
}
return tmp;
}
def code(a, b): tmp = 0 if b <= 400000000.0: tmp = -1.0 + (math.pow(a, 4.0) * (1.0 + (4.0 / a))) else: tmp = math.pow(b, 4.0) return tmp
function code(a, b) tmp = 0.0 if (b <= 400000000.0) tmp = Float64(-1.0 + Float64((a ^ 4.0) * Float64(1.0 + Float64(4.0 / a)))); else tmp = b ^ 4.0; end return tmp end
function tmp_2 = code(a, b) tmp = 0.0; if (b <= 400000000.0) tmp = -1.0 + ((a ^ 4.0) * (1.0 + (4.0 / a))); else tmp = b ^ 4.0; end tmp_2 = tmp; end
code[a_, b_] := If[LessEqual[b, 400000000.0], N[(-1.0 + N[(N[Power[a, 4.0], $MachinePrecision] * N[(1.0 + N[(4.0 / a), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision], N[Power[b, 4.0], $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;b \leq 400000000:\\
\;\;\;\;-1 + {a}^{4} \cdot \left(1 + \frac{4}{a}\right)\\
\mathbf{else}:\\
\;\;\;\;{b}^{4}\\
\end{array}
\end{array}
if b < 4e8Initial program 79.0%
sub-neg79.0%
Simplified79.5%
Taylor expanded in a around inf 80.8%
associate-*r/80.8%
metadata-eval80.8%
Simplified80.8%
if 4e8 < b Initial program 74.9%
sub-neg74.9%
Simplified86.5%
Taylor expanded in b around inf 95.2%
Taylor expanded in b around inf 95.2%
Final simplification84.2%
(FPCore (a b) :precision binary64 (if (<= b 400000000.0) (+ -1.0 (* (pow a 3.0) (+ a 4.0))) (pow b 4.0)))
double code(double a, double b) {
double tmp;
if (b <= 400000000.0) {
tmp = -1.0 + (pow(a, 3.0) * (a + 4.0));
} else {
tmp = pow(b, 4.0);
}
return tmp;
}
real(8) function code(a, b)
real(8), intent (in) :: a
real(8), intent (in) :: b
real(8) :: tmp
if (b <= 400000000.0d0) then
tmp = (-1.0d0) + ((a ** 3.0d0) * (a + 4.0d0))
else
tmp = b ** 4.0d0
end if
code = tmp
end function
public static double code(double a, double b) {
double tmp;
if (b <= 400000000.0) {
tmp = -1.0 + (Math.pow(a, 3.0) * (a + 4.0));
} else {
tmp = Math.pow(b, 4.0);
}
return tmp;
}
def code(a, b): tmp = 0 if b <= 400000000.0: tmp = -1.0 + (math.pow(a, 3.0) * (a + 4.0)) else: tmp = math.pow(b, 4.0) return tmp
function code(a, b) tmp = 0.0 if (b <= 400000000.0) tmp = Float64(-1.0 + Float64((a ^ 3.0) * Float64(a + 4.0))); else tmp = b ^ 4.0; end return tmp end
function tmp_2 = code(a, b) tmp = 0.0; if (b <= 400000000.0) tmp = -1.0 + ((a ^ 3.0) * (a + 4.0)); else tmp = b ^ 4.0; end tmp_2 = tmp; end
code[a_, b_] := If[LessEqual[b, 400000000.0], N[(-1.0 + N[(N[Power[a, 3.0], $MachinePrecision] * N[(a + 4.0), $MachinePrecision]), $MachinePrecision]), $MachinePrecision], N[Power[b, 4.0], $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;b \leq 400000000:\\
\;\;\;\;-1 + {a}^{3} \cdot \left(a + 4\right)\\
\mathbf{else}:\\
\;\;\;\;{b}^{4}\\
\end{array}
\end{array}
if b < 4e8Initial program 79.0%
sub-neg79.0%
Simplified79.5%
Taylor expanded in a around inf 80.8%
associate-*r/80.8%
metadata-eval80.8%
Simplified80.8%
Taylor expanded in a around 0 80.8%
if 4e8 < b Initial program 74.9%
sub-neg74.9%
Simplified86.5%
Taylor expanded in b around inf 95.2%
Taylor expanded in b around inf 95.2%
Final simplification84.2%
(FPCore (a b) :precision binary64 (if (<= b 650000000.0) (+ (pow a 4.0) -1.0) (pow b 4.0)))
double code(double a, double b) {
double tmp;
if (b <= 650000000.0) {
tmp = pow(a, 4.0) + -1.0;
} else {
tmp = pow(b, 4.0);
}
return tmp;
}
real(8) function code(a, b)
real(8), intent (in) :: a
real(8), intent (in) :: b
real(8) :: tmp
if (b <= 650000000.0d0) then
tmp = (a ** 4.0d0) + (-1.0d0)
else
tmp = b ** 4.0d0
end if
code = tmp
end function
public static double code(double a, double b) {
double tmp;
if (b <= 650000000.0) {
tmp = Math.pow(a, 4.0) + -1.0;
} else {
tmp = Math.pow(b, 4.0);
}
return tmp;
}
def code(a, b): tmp = 0 if b <= 650000000.0: tmp = math.pow(a, 4.0) + -1.0 else: tmp = math.pow(b, 4.0) return tmp
function code(a, b) tmp = 0.0 if (b <= 650000000.0) tmp = Float64((a ^ 4.0) + -1.0); else tmp = b ^ 4.0; end return tmp end
function tmp_2 = code(a, b) tmp = 0.0; if (b <= 650000000.0) tmp = (a ^ 4.0) + -1.0; else tmp = b ^ 4.0; end tmp_2 = tmp; end
code[a_, b_] := If[LessEqual[b, 650000000.0], N[(N[Power[a, 4.0], $MachinePrecision] + -1.0), $MachinePrecision], N[Power[b, 4.0], $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;b \leq 650000000:\\
\;\;\;\;{a}^{4} + -1\\
\mathbf{else}:\\
\;\;\;\;{b}^{4}\\
\end{array}
\end{array}
if b < 6.5e8Initial program 79.0%
sub-neg79.0%
Simplified79.5%
Taylor expanded in a around inf 80.3%
if 6.5e8 < b Initial program 74.9%
sub-neg74.9%
Simplified86.5%
Taylor expanded in b around inf 95.2%
Taylor expanded in b around inf 95.2%
(FPCore (a b) :precision binary64 (if (<= b 2.5e-6) -1.0 (pow b 4.0)))
double code(double a, double b) {
double tmp;
if (b <= 2.5e-6) {
tmp = -1.0;
} else {
tmp = pow(b, 4.0);
}
return tmp;
}
real(8) function code(a, b)
real(8), intent (in) :: a
real(8), intent (in) :: b
real(8) :: tmp
if (b <= 2.5d-6) then
tmp = -1.0d0
else
tmp = b ** 4.0d0
end if
code = tmp
end function
public static double code(double a, double b) {
double tmp;
if (b <= 2.5e-6) {
tmp = -1.0;
} else {
tmp = Math.pow(b, 4.0);
}
return tmp;
}
def code(a, b): tmp = 0 if b <= 2.5e-6: tmp = -1.0 else: tmp = math.pow(b, 4.0) return tmp
function code(a, b) tmp = 0.0 if (b <= 2.5e-6) tmp = -1.0; else tmp = b ^ 4.0; end return tmp end
function tmp_2 = code(a, b) tmp = 0.0; if (b <= 2.5e-6) tmp = -1.0; else tmp = b ^ 4.0; end tmp_2 = tmp; end
code[a_, b_] := If[LessEqual[b, 2.5e-6], -1.0, N[Power[b, 4.0], $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;b \leq 2.5 \cdot 10^{-6}:\\
\;\;\;\;-1\\
\mathbf{else}:\\
\;\;\;\;{b}^{4}\\
\end{array}
\end{array}
if b < 2.5000000000000002e-6Initial program 78.9%
sub-neg78.9%
Simplified79.4%
Taylor expanded in a around inf 80.7%
associate-*r/80.7%
metadata-eval80.7%
Simplified80.7%
Taylor expanded in a around 0 36.8%
if 2.5000000000000002e-6 < b Initial program 75.3%
sub-neg75.3%
Simplified86.7%
Taylor expanded in b around inf 93.7%
Taylor expanded in b around inf 93.7%
(FPCore (a b) :precision binary64 -1.0)
double code(double a, double b) {
return -1.0;
}
real(8) function code(a, b)
real(8), intent (in) :: a
real(8), intent (in) :: b
code = -1.0d0
end function
public static double code(double a, double b) {
return -1.0;
}
def code(a, b): return -1.0
function code(a, b) return -1.0 end
function tmp = code(a, b) tmp = -1.0; end
code[a_, b_] := -1.0
\begin{array}{l}
\\
-1
\end{array}
Initial program 78.0%
sub-neg78.0%
Simplified81.2%
Taylor expanded in a around inf 69.2%
associate-*r/69.2%
metadata-eval69.2%
Simplified69.2%
Taylor expanded in a around 0 28.2%
herbie shell --seed 2024118
(FPCore (a b)
:name "Bouland and Aaronson, Equation (25)"
:precision binary64
(- (+ (pow (+ (* a a) (* b b)) 2.0) (* 4.0 (+ (* (* a a) (+ 1.0 a)) (* (* b b) (- 1.0 (* 3.0 a)))))) 1.0))