Results for math.log10 on complex, real part

Time: 6.5 s

Input Error: 15.3

Output Error: 6.2

Log: ⚲

Profile: 🕒

\(\begin{cases} \frac{\log \left(-re\right)}{\log 10} & \text{when } re \le -5.058766f+08 \\ \sqrt[3]{{\left(\frac{\log \left(\sqrt{{re}^2 + im \cdot im}\right)}{\log 10}\right)}^3} & \text{when } re \le 2.6906896f+08 \\ \frac{\log re}{\log 10} & \text{otherwise} \end{cases}\)

`if re < -5.058766f+08`

Started with
\[\frac{\log \left(\sqrt{re \cdot re + im \cdot im}\right)}{\log 10}\]

22.5
Applied simplify to get
\[\color{red}{\frac{\log \left(\sqrt{re \cdot re + im \cdot im}\right)}{\log 10}} \leadsto \color{blue}{\frac{\log \left(\sqrt{{re}^2 + im \cdot im}\right)}{\log 10}}\]

22.5
Applied taylor to get
\[\frac{\log \left(\sqrt{{re}^2 + im \cdot im}\right)}{\log 10} \leadsto \frac{\log \left(-1 \cdot re\right)}{\log 10}\]

0.3
Taylor expanded around -inf to get
\[\frac{\log \color{red}{\left(-1 \cdot re\right)}}{\log 10} \leadsto \frac{\log \color{blue}{\left(-1 \cdot re\right)}}{\log 10}\]

0.3
Applied simplify to get
\[\color{red}{\frac{\log \left(-1 \cdot re\right)}{\log 10}} \leadsto \color{blue}{\frac{\log \left(-re\right)}{\log 10}}\]

0.3

`if -5.058766f+08 < re < 2.6906896f+08`

Started with
\[\frac{\log \left(\sqrt{re \cdot re + im \cdot im}\right)}{\log 10}\]

10.2
Applied simplify to get
\[\color{red}{\frac{\log \left(\sqrt{re \cdot re + im \cdot im}\right)}{\log 10}} \leadsto \color{blue}{\frac{\log \left(\sqrt{{re}^2 + im \cdot im}\right)}{\log 10}}\]

10.2
Using strategy rm
10.2
Applied add-cbrt-cube to get
\[\frac{\log \left(\sqrt{{re}^2 + im \cdot im}\right)}{\color{red}{\log 10}} \leadsto \frac{\log \left(\sqrt{{re}^2 + im \cdot im}\right)}{\color{blue}{\sqrt[3]{{\left(\log 10\right)}^3}}}\]

10.2
Applied add-cbrt-cube to get
\[\frac{\color{red}{\log \left(\sqrt{{re}^2 + im \cdot im}\right)}}{\sqrt[3]{{\left(\log 10\right)}^3}} \leadsto \frac{\color{blue}{\sqrt[3]{{\left(\log \left(\sqrt{{re}^2 + im \cdot im}\right)\right)}^3}}}{\sqrt[3]{{\left(\log 10\right)}^3}}\]

10.2
Applied cbrt-undiv to get
\[\color{red}{\frac{\sqrt[3]{{\left(\log \left(\sqrt{{re}^2 + im \cdot im}\right)\right)}^3}}{\sqrt[3]{{\left(\log 10\right)}^3}}} \leadsto \color{blue}{\sqrt[3]{\frac{{\left(\log \left(\sqrt{{re}^2 + im \cdot im}\right)\right)}^3}{{\left(\log 10\right)}^3}}}\]

10.2
Applied simplify to get
\[\sqrt[3]{\color{red}{\frac{{\left(\log \left(\sqrt{{re}^2 + im \cdot im}\right)\right)}^3}{{\left(\log 10\right)}^3}}} \leadsto \sqrt[3]{\color{blue}{{\left(\frac{\log \left(\sqrt{{re}^2 + im \cdot im}\right)}{\log 10}\right)}^3}}\]

10.2

`if 2.6906896f+08 < re`

Started with
\[\frac{\log \left(\sqrt{re \cdot re + im \cdot im}\right)}{\log 10}\]

22.9
Applied simplify to get
\[\color{red}{\frac{\log \left(\sqrt{re \cdot re + im \cdot im}\right)}{\log 10}} \leadsto \color{blue}{\frac{\log \left(\sqrt{{re}^2 + im \cdot im}\right)}{\log 10}}\]

22.9
Applied taylor to get
\[\frac{\log \left(\sqrt{{re}^2 + im \cdot im}\right)}{\log 10} \leadsto \frac{\log re}{\log 10}\]

0.3
Taylor expanded around inf to get
\[\frac{\log \color{red}{re}}{\log 10} \leadsto \frac{\log \color{blue}{re}}{\log 10}\]

0.3

Removed slow pow expressions