\[\frac{\left(1 + \frac{1}{\varepsilon}\right) \cdot e^{-\left(1 - \varepsilon\right) \cdot x} - \left(\frac{1}{\varepsilon} - 1\right) \cdot e^{-\left(1 + \varepsilon\right) \cdot x}}{2}\]

↓

\[\begin{array}{l} \mathbf{if}\;x \le 2.19467781707589359996291022980585694313:\\ \;\;\;\;\left(0.3333333333333333703407674875052180141211 \cdot {x}^{3} + 1\right) - 0.5 \cdot {x}^{2}\\ \mathbf{else}:\\ \;\;\;\;\left(\frac{\frac{1 + \frac{1}{\varepsilon}}{e^{\left(1 - \varepsilon\right) \cdot x}}}{2} - \frac{\frac{\frac{1}{\varepsilon}}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}\right) + \frac{\frac{1}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}\\ \end{array}\]

\frac{\left(1 + \frac{1}{\varepsilon}\right) \cdot e^{-\left(1 - \varepsilon\right) \cdot x} - \left(\frac{1}{\varepsilon} - 1\right) \cdot e^{-\left(1 + \varepsilon\right) \cdot x}}{2}

↓

\begin{array}{l}
\mathbf{if}\;x \le 2.19467781707589359996291022980585694313:\\
\;\;\;\;\left(0.3333333333333333703407674875052180141211 \cdot {x}^{3} + 1\right) - 0.5 \cdot {x}^{2}\\

\mathbf{else}:\\
\;\;\;\;\left(\frac{\frac{1 + \frac{1}{\varepsilon}}{e^{\left(1 - \varepsilon\right) \cdot x}}}{2} - \frac{\frac{\frac{1}{\varepsilon}}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}\right) + \frac{\frac{1}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}\\

\end{array}

double f(double x, double eps) {
        double r43722 = 1.0;
        double r43723 = eps;
        double r43724 = r43722 / r43723;
        double r43725 = r43722 + r43724;
        double r43726 = r43722 - r43723;
        double r43727 = x;
        double r43728 = r43726 * r43727;
        double r43729 = -r43728;
        double r43730 = exp(r43729);
        double r43731 = r43725 * r43730;
        double r43732 = r43724 - r43722;
        double r43733 = r43722 + r43723;
        double r43734 = r43733 * r43727;
        double r43735 = -r43734;
        double r43736 = exp(r43735);
        double r43737 = r43732 * r43736;
        double r43738 = r43731 - r43737;
        double r43739 = 2.0;
        double r43740 = r43738 / r43739;
        return r43740;
}

↓

double f(double x, double eps) {
        double r43741 = x;
        double r43742 = 2.1946778170758936;
        bool r43743 = r43741 <= r43742;
        double r43744 = 0.33333333333333337;
        double r43745 = 3.0;
        double r43746 = pow(r43741, r43745);
        double r43747 = r43744 * r43746;
        double r43748 = 1.0;
        double r43749 = r43747 + r43748;
        double r43750 = 0.5;
        double r43751 = 2.0;
        double r43752 = pow(r43741, r43751);
        double r43753 = r43750 * r43752;
        double r43754 = r43749 - r43753;
        double r43755 = eps;
        double r43756 = r43748 / r43755;
        double r43757 = r43748 + r43756;
        double r43758 = r43748 - r43755;
        double r43759 = r43758 * r43741;
        double r43760 = exp(r43759);
        double r43761 = r43757 / r43760;
        double r43762 = 2.0;
        double r43763 = r43761 / r43762;
        double r43764 = r43748 + r43755;
        double r43765 = r43764 * r43741;
        double r43766 = exp(r43765);
        double r43767 = r43756 / r43766;
        double r43768 = r43767 / r43762;
        double r43769 = r43763 - r43768;
        double r43770 = r43748 / r43766;
        double r43771 = r43770 / r43762;
        double r43772 = r43769 + r43771;
        double r43773 = r43743 ? r43754 : r43772;
        return r43773;
}

Derivation

Split input into 2 regimes
if x < 2.1946778170758936
1. Initial program 38.8
  \[\frac{\left(1 + \frac{1}{\varepsilon}\right) \cdot e^{-\left(1 - \varepsilon\right) \cdot x} - \left(\frac{1}{\varepsilon} - 1\right) \cdot e^{-\left(1 + \varepsilon\right) \cdot x}}{2}\]
2. Simplified38.8
  \[\leadsto \color{blue}{\frac{\frac{1 + \frac{1}{\varepsilon}}{e^{\left(1 - \varepsilon\right) \cdot x}}}{2} - \frac{\frac{\frac{1}{\varepsilon} - 1}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}}\]
3. Taylor expanded around 0 1.3
  \[\leadsto \color{blue}{\left(0.3333333333333333703407674875052180141211 \cdot {x}^{3} + 1\right) - 0.5 \cdot {x}^{2}}\]
if 2.1946778170758936 < x
1. Initial program 0.5
  \[\frac{\left(1 + \frac{1}{\varepsilon}\right) \cdot e^{-\left(1 - \varepsilon\right) \cdot x} - \left(\frac{1}{\varepsilon} - 1\right) \cdot e^{-\left(1 + \varepsilon\right) \cdot x}}{2}\]
2. Simplified0.5
  \[\leadsto \color{blue}{\frac{\frac{1 + \frac{1}{\varepsilon}}{e^{\left(1 - \varepsilon\right) \cdot x}}}{2} - \frac{\frac{\frac{1}{\varepsilon} - 1}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}}\]
3. Using strategy rm
4. Applied div-sub0.5
  \[\leadsto \frac{\frac{1 + \frac{1}{\varepsilon}}{e^{\left(1 - \varepsilon\right) \cdot x}}}{2} - \frac{\color{blue}{\frac{\frac{1}{\varepsilon}}{e^{\left(1 + \varepsilon\right) \cdot x}} - \frac{1}{e^{\left(1 + \varepsilon\right) \cdot x}}}}{2}\]
5. Applied div-sub0.5
  \[\leadsto \frac{\frac{1 + \frac{1}{\varepsilon}}{e^{\left(1 - \varepsilon\right) \cdot x}}}{2} - \color{blue}{\left(\frac{\frac{\frac{1}{\varepsilon}}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2} - \frac{\frac{1}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}\right)}\]
6. Applied associate--r-0.5
  \[\leadsto \color{blue}{\left(\frac{\frac{1 + \frac{1}{\varepsilon}}{e^{\left(1 - \varepsilon\right) \cdot x}}}{2} - \frac{\frac{\frac{1}{\varepsilon}}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}\right) + \frac{\frac{1}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}}\]
Recombined 2 regimes into one program.
Final simplification1.1
\[\leadsto \begin{array}{l} \mathbf{if}\;x \le 2.19467781707589359996291022980585694313:\\ \;\;\;\;\left(0.3333333333333333703407674875052180141211 \cdot {x}^{3} + 1\right) - 0.5 \cdot {x}^{2}\\ \mathbf{else}:\\ \;\;\;\;\left(\frac{\frac{1 + \frac{1}{\varepsilon}}{e^{\left(1 - \varepsilon\right) \cdot x}}}{2} - \frac{\frac{\frac{1}{\varepsilon}}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}\right) + \frac{\frac{1}{e^{\left(1 + \varepsilon\right) \cdot x}}}{2}\\ \end{array}\]

could not determine a ground truth for program body (more)

Error

Try it out

Derivation

`if x < 2.1946778170758936`

`if 2.1946778170758936 < x`

Reproduce

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