Average Error: 39.6 → 0.5
Time: 6.4s
Precision: binary64
\[\cos \left(x + \varepsilon\right) - \cos x\]
\[\begin{array}{l} \mathbf{if}\;\varepsilon \leq -0.0024222059570148603 \lor \neg \left(\varepsilon \leq 0.003997554715937867\right):\\ \;\;\;\;\cos x \cdot \cos \varepsilon - \left(\cos x + \sin \varepsilon \cdot \sin x\right)\\ \mathbf{else}:\\ \;\;\;\;\sin x \cdot \left(0.16666666666666666 \cdot {\varepsilon}^{3} - \varepsilon\right) + \cos x \cdot \left(0.041666666666666664 \cdot {\varepsilon}^{4} - 0.5 \cdot \left(\varepsilon \cdot \varepsilon\right)\right)\\ \end{array}\]
\cos \left(x + \varepsilon\right) - \cos x
\begin{array}{l}
\mathbf{if}\;\varepsilon \leq -0.0024222059570148603 \lor \neg \left(\varepsilon \leq 0.003997554715937867\right):\\
\;\;\;\;\cos x \cdot \cos \varepsilon - \left(\cos x + \sin \varepsilon \cdot \sin x\right)\\

\mathbf{else}:\\
\;\;\;\;\sin x \cdot \left(0.16666666666666666 \cdot {\varepsilon}^{3} - \varepsilon\right) + \cos x \cdot \left(0.041666666666666664 \cdot {\varepsilon}^{4} - 0.5 \cdot \left(\varepsilon \cdot \varepsilon\right)\right)\\

\end{array}
(FPCore (x eps) :precision binary64 (- (cos (+ x eps)) (cos x)))
(FPCore (x eps)
 :precision binary64
 (if (or (<= eps -0.0024222059570148603) (not (<= eps 0.003997554715937867)))
   (- (* (cos x) (cos eps)) (+ (cos x) (* (sin eps) (sin x))))
   (+
    (* (sin x) (- (* 0.16666666666666666 (pow eps 3.0)) eps))
    (*
     (cos x)
     (- (* 0.041666666666666664 (pow eps 4.0)) (* 0.5 (* eps eps)))))))
double code(double x, double eps) {
	return cos(x + eps) - cos(x);
}

double code(double x, double eps) {
	double tmp;
	if ((eps <= -0.0024222059570148603) || !(eps <= 0.003997554715937867)) {
		tmp = (cos(x) * cos(eps)) - (cos(x) + (sin(eps) * sin(x)));
	} else {
		tmp = (sin(x) * ((0.16666666666666666 * pow(eps, 3.0)) - eps)) + (cos(x) * ((0.041666666666666664 * pow(eps, 4.0)) - (0.5 * (eps * eps))));
	}
	return tmp;
}

Error

Bits error versus x

Bits error versus eps

Try it out

Your Program's Arguments

Results

Enter valid numbers for all inputs

Derivation

  1. Split input into 2 regimes

  2. if eps < -0.00242220595701486035 or 0.0039975547159378667 < eps

    1. Initial program 30.6

      \[\cos \left(x + \varepsilon\right) - \cos x\]
    2. Using strategy rm

    3. Applied cos-sum_binary640.8

      \[\leadsto \color{blue}{\left(\cos x \cdot \cos \varepsilon - \sin x \cdot \sin \varepsilon\right)} - \cos x\]

    4. Applied associate--l-_binary640.9

      \[\leadsto \color{blue}{\cos x \cdot \cos \varepsilon - \left(\sin x \cdot \sin \varepsilon + \cos x\right)}\]

    5. Simplified0.9

      \[\leadsto \cos x \cdot \cos \varepsilon - \color{blue}{\left(\cos x + \sin \varepsilon \cdot \sin x\right)}\]

    if -0.00242220595701486035 < eps < 0.0039975547159378667

    1. Initial program 48.8

      \[\cos \left(x + \varepsilon\right) - \cos x\]

    2. Taylor expanded around 0 0.2

      \[\leadsto \color{blue}{\left(0.041666666666666664 \cdot \left(\cos x \cdot {\varepsilon}^{4}\right) + 0.16666666666666666 \cdot \left(\sin x \cdot {\varepsilon}^{3}\right)\right) - \left(\sin x \cdot \varepsilon + 0.5 \cdot \left(\cos x \cdot {\varepsilon}^{2}\right)\right)}\]

    3. Simplified0.2

      \[\leadsto \color{blue}{\sin x \cdot \left(0.16666666666666666 \cdot {\varepsilon}^{3} - \varepsilon\right) + \cos x \cdot \left(0.041666666666666664 \cdot {\varepsilon}^{4} - 0.5 \cdot \left(\varepsilon \cdot \varepsilon\right)\right)}\]
  3. Recombined 2 regimes into one program.

  4. Final simplification0.5

    \[\leadsto \begin{array}{l} \mathbf{if}\;\varepsilon \leq -0.0024222059570148603 \lor \neg \left(\varepsilon \leq 0.003997554715937867\right):\\ \;\;\;\;\cos x \cdot \cos \varepsilon - \left(\cos x + \sin \varepsilon \cdot \sin x\right)\\ \mathbf{else}:\\ \;\;\;\;\sin x \cdot \left(0.16666666666666666 \cdot {\varepsilon}^{3} - \varepsilon\right) + \cos x \cdot \left(0.041666666666666664 \cdot {\varepsilon}^{4} - 0.5 \cdot \left(\varepsilon \cdot \varepsilon\right)\right)\\ \end{array}\]

Reproduce

herbie shell --seed 2021173 
(FPCore (x eps)
  :name "2cos (problem 3.3.5)"
  :precision binary64
  (- (cos (+ x eps)) (cos x)))