pandoc/test/command/3587.md

% pandoc -f latex -t native
\SI[round-precision=2]{1}{m} is equal to \SI{1000}{mm}
^D
[Para [Str "1\160m",Space,Str "is",Space,Str "equal",Space,Str "to",Space,Str "1000\160mm"]]

% pandoc -f latex -t native
\SI[round-precision=2]{1}[\$]{} is equal to \SI{0.938094}{\euro}
^D
[Para [Str "$\160\&1",Space,Str "is",Space,Str "equal",Space,Str "to",Space,Str "0.938094\160\8364"]]

% pandoc -f latex -t native
\SI[round-precision=2]{\{\}}[\{\}]{\{\}}
^D
[Para [Str "{}\160{}\160{}"]]

% pandoc -f latex -t native
\SI{30}{\milli\meter}
^D
[Para [Str "30\160mm"]]

% pandoc -f latex -t native
\SI{6}{\gram}
^D
[Para [Str "6\160g"]]

% pandoc -f latex -t native
\SI{25}{\square\meter}
^D
[Para [Str "25\160m\178"]]

% pandoc -f latex -t native
\SI{18.2}{\degreeCelsius}
^D
[Para [Str "18.2\160\176C"]]

% pandoc -f latex -t native
\SI{18.2}{\celsius}
^D
[Para [Str "18.2\160\176C"]]

SIRange tests

Integer range with simple common units

% pandoc -f latex -t native
\SIRange{10}{20}{\gram}
^D
[Para [Str "10\160g\8211\&20\160g"]]

% pandoc -f latex -t native
\SIRange{35}{9}{\milli\meter}
^D
[Para [Str "35\160mm\8211\&9\160mm"]]

% pandoc -f latex -t native
\SIRange{4}{97367265}{\celsius}
^D
[Para [Str "4\160\176C\8211\&97367265\160\176C"]]

Decimal range with simple units

% pandoc -f latex -t native
\SIRange{4.5}{97367265.5}{\celsius}
^D
[Para [Str "4.5\160\176C\8211\&97367265.5\160\176C"]]

Squared units

% pandoc -f latex -t native
\SIRange{10}{20}{\square\meter}
^D
[Para [Str "10\160m\178\8211\&20\160m\178"]]

Ignore round precision

round-precision option appears to be ignored by \SI as of 7c6dbd37e, so \SIRange will ignore it as well.

% pandoc -f latex -t native
\SIRange[round-precision=2]{10}{20}{\gram}
^D
[Para [Str "10\160g\8211\&20\160g"]]

% pandoc -f latex -t native
\SIRange[round-precision=2]{10.0}{20.25}{\gram}
^D
[Para [Str "10.0\160g\8211\&20.25\160g"]]