On 6/14/2013 9:06 PM, Aditya Mahajan wrote:

\inmframed (and by extension \definemathframed[...][location=low,...]) does not get the right vertical space. For example,

\starttext \startformula \ln (1+x) = \inmframed{x - {\frac {x^2}{2}}} + \frac{x^3}{3}-\cdots. \stopformula \stoptext

Note that the two fractions do not align at the horizontal bar.

Is it possible for all expressions to be aligned at the math axis? Aditya

like this? \unprotect \newcount\c_pack_framed_mc \unexpanded\def\mcframed {\doifnextoptionalelse\pack_framed_mc_yes\pack_framed_mc_nop} \unexpanded\def\pack_framed_mc_begin {\bgroup \global\advance\c_pack_framed_mc\plusone \edef\pack_framed_mc_one{mcf:1:\number\c_pack_framed_mc}% \edef\pack_framed_mc_two{mcf:2:\number\c_pack_framed_mc}% \lower\dimexpr\MPy\pack_framed_mc_two-\MPy\pack_framed_mc_one\relax \hbox\bgroup \xypos\pack_framed_mc_one} \unexpanded\def\pack_framed_mc_end {\egroup \egroup} \unexpanded\def\pack_framed_mc_nop#1% {\pack_framed_mc_begin \mframed{\xypos\pack_framed_mc_two#1}% \pack_framed_mc_end} \unexpanded\def\pack_framed_mc_yes[#1]#2% {\pack_framed_mc_begin \mframed[#1]{\xypos\pack_framed_mc_two#2}% \pack_framed_mc_end} \protect \starttext \startformula \ln (1+x) = \mcframed{x - {\frac {x^2}{\frac{x^3}{\frac{x^3}{3}}}}} + \frac{x^3}{3}-\cdots. \stopformula \startformula \ln (1+x) = \mcframed[background=color,backgroundcolor=red,foregroundcolor=white,frame=off]{x - {\frac {x^2}{\frac{x^3}{\frac{x^3}{3}}}}} + \frac{x^3}{3}-\cdots. \stopformula \stoptext ----------------------------------------------------------------- Hans Hagen | PRAGMA ADE Ridderstraat 27 | 8061 GH Hasselt | The Netherlands tel: 038 477 53 69 | voip: 087 875 68 74 | www.pragma-ade.com | www.pragma-pod.nl -----------------------------------------------------------------

On 6/14/2013 9:06 PM, Aditya Mahajan wrote:

\inmframed (and by extension \definemathframed[...][location=low,...]) does not get the right vertical space. For example,

\starttext \startformula \ln (1+x) = \inmframed{x - {\frac {x^2}{2}}} + \frac{x^3}{3}-\cdots. \stopformula \stoptext

Note that the two fractions do not align at the horizontal bar.

Is it possible for all expressions to be aligned at the math axis? Aditya

\unprotect \newcount\c_pack_framed_mc \def\pack_framed_math_pos {\global\advance\c_pack_framed_mc\plusone \xdef\pack_framed_mc_one{mcf:1:\number\c_pack_framed_mc}% \xdef\pack_framed_mc_two{mcf:2:\number\c_pack_framed_mc}% \xypos\pack_framed_mc_two} \def\pack_framed_mathframed_indeed[#1]#2% no fancy nesting supported here {\iffirstargument \setupcurrentmathframed[#1]% \fi \c_framed_mstyle\mathstyle \edef\m_framed_location{\mathframedparameter\c!location}% \ifx\m_framed_location\v!mathematics \let\normalstrut\pack_framed_math_pos \else\ifx\m_framed_location\v!low\else \let\normalstrut\pack_framed_math_strut \fi\fi \inheritedmathframedframed{\Ustartmath\triggermathstyle\c_framed_mstyle#2\Ustopmath}% \endgroup} \installframedlocator \v!mathematics {} {\lower\dimexpr\MPy\pack_framed_mc_two-\MPy\pack_framed_mc_one\relax \hbox{\xypos\pack_framed_mc_one\box\b_framed_normal}} \definemathframed[mcframed] [\c!location=\v!mathematics] \protect I'll add it \starttext \startformula \ln (1+x) = \mcframed[background=color,backgroundcolor=red,foregroundcolor=white,frame=off]{x - {\frac {x^2}{\frac{x^3}{\frac{x^3}{3}}}}} + \frac{x^3}{3}-\cdots. \stopformula \startformula \ln (1+x) = \mcframed{x - {\frac {x^2}{\frac{x^3}{\frac{x^3}{3}}}}} + \frac{x^3}{3}-\cdots. \stopformula \stoptext ----------------------------------------------------------------- Hans Hagen | PRAGMA ADE Ridderstraat 27 | 8061 GH Hasselt | The Netherlands tel: 038 477 53 69 | voip: 087 875 68 74 | www.pragma-ade.com | www.pragma-pod.nl -----------------------------------------------------------------