\[56789 \le a \le 98765 \land 0.0 \le b \le 1 \land 0.0 \le c \le 0.001677300000000000058247850986958837893326 \land 0.0 \le d \le 0.001677300000000000058247850986958837893326\]

\[a \cdot \left(\left(b + c\right) + d\right)\]

↓

\[c \cdot a + \left(d + b\right) \cdot a\]

a \cdot \left(\left(b + c\right) + d\right)

↓

c \cdot a + \left(d + b\right) \cdot a

double f(double a, double b, double c, double d) {
        double r4741566 = a;
        double r4741567 = b;
        double r4741568 = c;
        double r4741569 = r4741567 + r4741568;
        double r4741570 = d;
        double r4741571 = r4741569 + r4741570;
        double r4741572 = r4741566 * r4741571;
        return r4741572;
}

↓

double f(double a, double b, double c, double d) {
        double r4741573 = c;
        double r4741574 = a;
        double r4741575 = r4741573 * r4741574;
        double r4741576 = d;
        double r4741577 = b;
        double r4741578 = r4741576 + r4741577;
        double r4741579 = r4741578 * r4741574;
        double r4741580 = r4741575 + r4741579;
        return r4741580;
}

Error

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

Original	0.0
Target	0.0
Herbie	0.0

Derivation

Initial program 0.0
\[a \cdot \left(\left(b + c\right) + d\right)\]
Using strategy rm
Applied add-sqr-sqrt0.5
\[\leadsto \color{blue}{\sqrt{a \cdot \left(\left(b + c\right) + d\right)} \cdot \sqrt{a \cdot \left(\left(b + c\right) + d\right)}}\]
Taylor expanded around inf 0.0
\[\leadsto \color{blue}{a \cdot d + \left(a \cdot b + a \cdot c\right)}\]
Simplified0.0
\[\leadsto \color{blue}{a \cdot \left(d + b\right) + c \cdot a}\]
Final simplification0.0
\[\leadsto c \cdot a + \left(d + b\right) \cdot a\]

Reproduce

herbie shell --seed 2019192 
(FPCore (a b c d)
  :name "Expression, p14"
  :pre (and (<= 56789.0 a 98765.0) (<= 0.0 b 1.0) (<= 0.0 c 0.0016773) (<= 0.0 d 0.0016773))

  :herbie-target
  (+ (* a b) (* a (+ c d)))

  (* a (+ (+ b c) d)))

In
Out

Error

Try it out

Target

Derivation

Reproduce