Average Error: 0.0 → 0.0

Time: 11.9s

Precision: 64

\[x - y \cdot z\]

↓

\[x - z \cdot y\]

x - y \cdot z

↓

x - z \cdot y

double f(double x, double y, double z) {
        double r543196 = x;
        double r543197 = y;
        double r543198 = z;
        double r543199 = r543197 * r543198;
        double r543200 = r543196 - r543199;
        return r543200;
}

↓

double f(double x, double y, double z) {
        double r543201 = x;
        double r543202 = z;
        double r543203 = y;
        double r543204 = r543202 * r543203;
        double r543205 = r543201 - r543204;
        return r543205;
}

Error

The X axis uses an exponential scale — Bits error versus `x`

Try it out

In
Out

Enter valid numbers for all inputs

Target

Original	0.0
Target	0.0
Herbie	0.0

\[\frac{x + y \cdot z}{\frac{x + y \cdot z}{x - y \cdot z}}\]

Derivation

Initial program 0.0
\[x - y \cdot z\]
Final simplification0.0
\[\leadsto x - z \cdot y\]

Reproduce

herbie shell --seed 2019194 
(FPCore (x y z)
  :name "Diagrams.Solve.Tridiagonal:solveTriDiagonal from diagrams-solve-0.1, C"

  :herbie-target
  (/ (+ x (* y z)) (/ (+ x (* y z)) (- x (* y z))))

  (- x (* y z)))