Results for _divideComplex, real part

\[\frac{x.re \cdot y.re + x.im \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\]

Test:: _divideComplex, real part
Bits:: 128 bits

Time: 4.7 s

Input Error: 12.5

Output Error: 12.5

Log: ⚲

Profile: 🕒

\(\frac{(y.re * x.re + \left(y.im \cdot x.im\right))_*}{{\left(\sqrt{(y.im * y.im + \left(y.re \cdot y.re\right))_*}\right)}^2}\)

Started with
\[\frac{x.re \cdot y.re + x.im \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\]

12.5
Applied simplify to get
\[\color{red}{\frac{x.re \cdot y.re + x.im \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}} \leadsto \color{blue}{\frac{(y.re * x.re + \left(y.im \cdot x.im\right))_*}{(y.im * y.im + \left(y.re \cdot y.re\right))_*}}\]

12.5
Using strategy rm
12.5
Applied add-sqr-sqrt to get
\[\frac{(y.re * x.re + \left(y.im \cdot x.im\right))_*}{\color{red}{(y.im * y.im + \left(y.re \cdot y.re\right))_*}} \leadsto \frac{(y.re * x.re + \left(y.im \cdot x.im\right))_*}{\color{blue}{{\left(\sqrt{(y.im * y.im + \left(y.re \cdot y.re\right))_*}\right)}^2}}\]

12.5

Original test:


(lambda ((x.re default) (x.im default) (y.re default) (y.im default))
  #:name "_divideComplex, real part"
  (/ (+ (* x.re y.re) (* x.im y.im)) (+ (* y.re y.re) (* y.im y.im))))