On Fri, Oct 1, 2010 at 18:12, Wolfgang Schuster wrote:
Am 01.10.2010 um 17:41 schrieb Mojca Miklavec:
Dear list,
First one question: what is the MKIV-way of doing something like
\startbuffer[a] % set text width for formula somehow \startformula\startalign \NC a \NC = b \NR \stopalign\stopformula \stopbuffer
\framed{\rotate[rotation=90]{\externalfigure[\jobname-a.tmp]}}
possibly adjusting width of formula to actual width (even if that is done manually)?
Something like this?
\startbuffer[a] \startTEXpage[width=\textheight] \startformula\startalign \NC a \NC = b \NR \stopalign\stopformula \stopTEXpage \stopbuffer
\starttext \framed{\rotate[rotation=90]{\getbuffer[a]}} \stoptext
Nasty! I would never even think that something like \rotate[rotation=90]{\startTEXpage[width=5cm] \input tufte \stopTEXpage} would work. I didn't need the width= parameter (in fact I wanted to have a narrower formula, so I'm glad that this worked ...). Related to your second suggestion (I still like formula for some reason) ... do you have any idea why the spacing around formula is broken? If I use \startTEXpage[width=...] or when I draw a frame around formula the spacing is OK, only in this example it seems as if formula was infinitely thin. A bug? Thanks a lot, Mojca \startbuffer[a] \startTEXpage \startformula\startalign[n=6,align={middle,middle,right,middle,left,left}] \NC l \NC\hbox to 1em{}\NC m_l \NC\hbox to 1em{}\NC \text{orb.}\hbox to 2em{} \NC Y_{lm}\NR \NC 0 \NC\NC 0 \NC\NC s \NC \frac{1}{2}\sqrt{\frac{ 1}{π}} \NR \NC 1 \NC\NC 0 \NC\NC p_z \NC \frac{1}{2}\sqrt{\frac{ 3}{π}}\frac{z}{r} \NR \NC 1 \NC\NC \pm1 \NC\NC p_x \NC \frac{1}{2}\sqrt{\frac{ 3}{π}}\frac{x}{r} \NR \NC \NC\NC \NC\NC p_y \NC \frac{1}{2}\sqrt{\frac{ 3}{π}}\frac{y}{r} \NR \NC 2 \NC\NC 0 \NC\NC d_{z^2} \NC \frac{1}{4}\sqrt{\frac{ 5}{π}}\frac{3z^2-r^2}{r^2} \NR \NC 2 \NC\NC \pm1 \NC\NC d_{xz} \NC \frac{1}{2}\sqrt{\frac{15}{π}}\frac{xz}{r^2} \NR \NC \NC\NC \NC\NC d_{yz} \NC \frac{1}{2}\sqrt{\frac{15}{π}}\frac{yz}{r^2} \NR \NC 2 \NC\NC \pm2 \NC\NC d_{xy} \NC \frac{1}{2}\sqrt{\frac{15}{π}}\frac{xy}{r^2} \NR \NC \NC\NC \NC\NC d_{x^2-y^2} \NC \frac{1}{4}\sqrt{\frac{15}{π}}\frac{x^2-y^2}{r^2} \NR \stopalign\stopformula \stopTEXpage \stopbuffer \starttext \bTABLE[orientation=90,width=\textwidth,align=lohi] \bTR \bTD \externalfigure[cow][width=10cm] \eTD \eTR \bTR \bTD\strut \getbuffer[a] \eTD \eTR \eTABLE \framed{\getbuffer[a]} \stoptext