?

\[x \cdot 0.5 + y \cdot \left(\left(1 - z\right) + \log z\right) \]

↓

\[x \cdot 0.5 + y \cdot \left(\left(1 - z\right) + \log z\right) \]

(FPCore (x y z) :precision binary64 (+ (* x 0.5) (* y (+ (- 1.0 z) (log z)))))

↓

(FPCore (x y z) :precision binary64 (+ (* x 0.5) (* y (+ (- 1.0 z) (log z)))))

double code(double x, double y, double z) {
	return (x * 0.5) + (y * ((1.0 - z) + log(z)));
}

↓

double code(double x, double y, double z) {
	return (x * 0.5) + (y * ((1.0 - z) + log(z)));
}

real(8) function code(x, y, z)
    real(8), intent (in) :: x
    real(8), intent (in) :: y
    real(8), intent (in) :: z
    code = (x * 0.5d0) + (y * ((1.0d0 - z) + log(z)))
end function

↓

real(8) function code(x, y, z)
    real(8), intent (in) :: x
    real(8), intent (in) :: y
    real(8), intent (in) :: z
    code = (x * 0.5d0) + (y * ((1.0d0 - z) + log(z)))
end function

public static double code(double x, double y, double z) {
	return (x * 0.5) + (y * ((1.0 - z) + Math.log(z)));
}

↓

public static double code(double x, double y, double z) {
	return (x * 0.5) + (y * ((1.0 - z) + Math.log(z)));
}

def code(x, y, z):
	return (x * 0.5) + (y * ((1.0 - z) + math.log(z)))

↓

def code(x, y, z):
	return (x * 0.5) + (y * ((1.0 - z) + math.log(z)))

function code(x, y, z)
	return Float64(Float64(x * 0.5) + Float64(y * Float64(Float64(1.0 - z) + log(z))))
end

↓

function code(x, y, z)
	return Float64(Float64(x * 0.5) + Float64(y * Float64(Float64(1.0 - z) + log(z))))
end

function tmp = code(x, y, z)
	tmp = (x * 0.5) + (y * ((1.0 - z) + log(z)));
end

↓

function tmp = code(x, y, z)
	tmp = (x * 0.5) + (y * ((1.0 - z) + log(z)));
end

code[x_, y_, z_] := N[(N[(x * 0.5), $MachinePrecision] + N[(y * N[(N[(1.0 - z), $MachinePrecision] + N[Log[z], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]

↓

code[x_, y_, z_] := N[(N[(x * 0.5), $MachinePrecision] + N[(y * N[(N[(1.0 - z), $MachinePrecision] + N[Log[z], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]

x \cdot 0.5 + y \cdot \left(\left(1 - z\right) + \log z\right)

↓

x \cdot 0.5 + y \cdot \left(\left(1 - z\right) + \log z\right)

Original	0.1
Target	0.1
Herbie	0.1

Alternatives

Alternative 1
Error	14.0
Cost	7248

\[\begin{array}{l} t_0 := \left(1 + \log z\right) \cdot y\\ t_1 := x \cdot 0.5 + z \cdot \left(-y\right)\\ \mathbf{if}\;y \leq -2 \cdot 10^{+144}:\\ \;\;\;\;t_0\\ \mathbf{elif}\;y \leq -9.8 \cdot 10^{+101}:\\ \;\;\;\;t_1\\ \mathbf{elif}\;y \leq -4.5 \cdot 10^{+56}:\\ \;\;\;\;t_0\\ \mathbf{elif}\;y \leq 10^{+148}:\\ \;\;\;\;t_1\\ \mathbf{else}:\\ \;\;\;\;t_0\\ \end{array} \]

Alternative 2
Error	10.4
Cost	7112

\[\begin{array}{l} t_0 := \left(\log z + \left(1 - z\right)\right) \cdot y\\ \mathbf{if}\;y \leq -6 \cdot 10^{-13}:\\ \;\;\;\;t_0\\ \mathbf{elif}\;y \leq 6.5 \cdot 10^{+48}:\\ \;\;\;\;x \cdot 0.5 + z \cdot \left(-y\right)\\ \mathbf{else}:\\ \;\;\;\;t_0\\ \end{array} \]

Alternative 3
Error	0.9
Cost	7108

\[\begin{array}{l} \mathbf{if}\;z \leq 3.8 \cdot 10^{-7}:\\ \;\;\;\;y \cdot \left(1 + \log z\right) + 0.5 \cdot x\\ \mathbf{else}:\\ \;\;\;\;x \cdot 0.5 + z \cdot \left(-y\right)\\ \end{array} \]

Alternative 4
Error	28.3
Cost	520

\[\begin{array}{l} \mathbf{if}\;x \leq -6.4 \cdot 10^{-111}:\\ \;\;\;\;0.5 \cdot x\\ \mathbf{elif}\;x \leq 4.3 \cdot 10^{-63}:\\ \;\;\;\;z \cdot \left(-y\right)\\ \mathbf{else}:\\ \;\;\;\;0.5 \cdot x\\ \end{array} \]

Alternative 5
Error	17.8
Cost	512

\[x \cdot 0.5 + z \cdot \left(-y\right) \]

Alternative 6
Error	34.2
Cost	192

\[0.5 \cdot x \]

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Error?

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Derivation?

Alternatives

Error

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