diff options
author | Norbert Preining <norbert@preining.info> | 2020-03-27 03:01:30 +0000 |
---|---|---|
committer | Norbert Preining <norbert@preining.info> | 2020-03-27 03:01:30 +0000 |
commit | 6c0ddfe655a39b71d1ab6a4a95d57a7ea0d94243 (patch) | |
tree | 65567ae2d29e1e8af56375fccfc1debc19b190c5 /obsolete/macros | |
parent | 2bd4f7f317b392c32ce18c70d03fd5ba9ddd9e6d (diff) |
CTAN sync 202003270301
Diffstat (limited to 'obsolete/macros')
-rw-r--r-- | obsolete/macros/latex/contrib/mychemistry/README | 30 | ||||
-rw-r--r-- | obsolete/macros/latex/contrib/mychemistry/examples.pdf | bin | 0 -> 941952 bytes | |||
-rw-r--r-- | obsolete/macros/latex/contrib/mychemistry/examples.tex | 864 | ||||
-rw-r--r-- | obsolete/macros/latex/contrib/mychemistry/mychemistry.sty | 1557 | ||||
-rw-r--r-- | obsolete/macros/latex/contrib/mychemistry/mychemistry_en.pdf | bin | 0 -> 764132 bytes | |||
-rw-r--r-- | obsolete/macros/latex/contrib/mychemistry/mychemistry_en.tex | 1724 |
6 files changed, 4175 insertions, 0 deletions
diff --git a/obsolete/macros/latex/contrib/mychemistry/README b/obsolete/macros/latex/contrib/mychemistry/README new file mode 100644 index 0000000000..2fe11d7b08 --- /dev/null +++ b/obsolete/macros/latex/contrib/mychemistry/README @@ -0,0 +1,30 @@ +-------------------------------------------------------------------------- +the MYCHEMISTRY package v1.99b 2012/12/19 + + create reaction schemes with LaTeX and chemfig + +-------------------------------------------------------------------------- +Clemens Niederberger +Web: https://www.bitbucket.org/cgnieder/mychemistry +E-Mail: contact@mychemistry.eu +-------------------------------------------------------------------------- +If you have any ideas, questions, suggestions or bugs to report, please +feel free to contact me. +-------------------------------------------------------------------------- +Copyright 2011--2012 Clemens Niederberger + +This work may be distributed and/or modified under the +conditions of the LaTeX Project Public License, either version 1.3 +of this license or (at your option) any later version. +The latest version of this license is in + http://www.latex-project.org/lppl.txt +and version 1.3 or later is part of all distributions of LaTeX +version 2005/12/01 or later. + +This work has the LPPL maintenance status `maintained'. + +The Current Maintainer of this work is Clemens Niederberger. + +This work consists of the files mychemistrysty, mychemistry_en.tex, +README and the derived file mychemistry_en.pdf. +--------------------------------------------------------------------------
\ No newline at end of file diff --git a/obsolete/macros/latex/contrib/mychemistry/examples.pdf b/obsolete/macros/latex/contrib/mychemistry/examples.pdf Binary files differnew file mode 100644 index 0000000000..88eda6001e --- /dev/null +++ b/obsolete/macros/latex/contrib/mychemistry/examples.pdf diff --git a/obsolete/macros/latex/contrib/mychemistry/examples.tex b/obsolete/macros/latex/contrib/mychemistry/examples.tex new file mode 100644 index 0000000000..46dbc96466 --- /dev/null +++ b/obsolete/macros/latex/contrib/mychemistry/examples.tex @@ -0,0 +1,864 @@ +\documentclass[DIV10]{cnpkgdoc} +\docsetup{ + pkg = mychemistry, + title = mychemistry -- examples, + subtitle = Create Reaction Schemes with \LaTeXe\ and Chemfig , + code-box = { + skipbelow = .5\baselineskip plus .5ex minus .5ex , + skipabove = .5\baselineskip plus .5ex minus .5ex , + roundcorner = 3pt , + innerleftmargin = 1.5em , + innerrightmargin = 1.5em + } +} + +\addcmds{ + @addtoreset, + anywhere, + arrow, + branch, + celsius, + ch, + chemabove, + chemand, + chembelow, + chemfig, + chemname, + cmpd, + colorlet, + command, + draw, + elmove, + floatstyle, + fpch, + fplus, + fscrm, + fscrp, + Hpl, + iupac, + lewis, + Lewis, + listof, + makeinvisible, + makevisible, + marrow, + mch, + mCsetup, + mech, + mesomeric, + N, + node, + para, + pch, + phantom, + reactant, + restylefloat, + setarrowlabel, + setarrowlength, + setarrowline, + setatomsep, + setatomsize, + setbondlength, + setbondshape, + setcrambond, + setmergelength, + setrcndist, + setrxnalign, + setschemealign, + setschemename, + SI, + text, + therxnscheme, + tikzset, + trans, + transition +} + +\chemsetup[option]{circled=all} + +\usepackage{chemnum} +\usepackage{fnpct} +\usepackage{booktabs} +\usepackage{siunitx} +\usepackage{scrhack} + +\TitlePicture{% + \parbox{.7\linewidth}{% + Since the documentation is already long enough I decided to provide an + extra file containing only examples and a few words where to find possibly + interesting code.\par + For all the undocumented little macros like \cmd{fscrp} or \cmd{delm} have + a look in the \paket*{chemmacros} documentation. + } +} + +\begin{document} + +\section{Addition Reaction}\label{sec:addition} +A simple reaction scheme with two different products. + +\begin{rxnscheme}{Addition Reaction} + \reactant{ \chemfig{=_[::-30]-[::60](=[::60]O)-[::-60]} } + \arrow{ $+ \Hpl$ }{} + \mesomeric[,rf]{ + \reactant{ \chemfig{=_[:-30]-[::60](-[::60]OH)(-[::-120,.3,,,white]\fplus)-[::-60]} } + \marrow[below] + \reactant[below]{ \chemfig{\fplus-[6,.3,,,white]-[:-30]=_[::60](-[::60]OH)-[::-60]} } + } + \branch[right=of rf,,yshift=3em]{ + \arrow{}{} + \reactant{ \chemname{\chemfig{=_[:-30]-[::60](-[::60]OH)(-[::-120]R)-[::-60]}}{1,2-adduct} } + } + \branch[right=of rf,,yshift=-5em]{ + \arrow{}{} + \reactant{ \chemname{\chemfig{R-[6]-[:-30]=_[::60](-[::60]OH)-[::-60]}}{1,4-adduct} } + } +\end{rxnscheme} + + +\begin{beispiel}[code only] + \begin{rxnscheme}[,]{Addition Reaction} + \reactant{ \chemfig{=_[::-30]-[::60](=[::60]O)-[::-60]} } + \arrow{ $+ \Hpl$ }{} + \mesomeric[,rf]{ + \reactant{ \chemfig{=_[:-30]-[::60](-[::60]OH)(-[::-120,.3,,,white]\fplus)-[::-60]} } + \marrow[below] + \reactant[below]{ \chemfig{\fplus-[6,.3,,,white]-[:-30]=_[::60](-[::60]OH)-[::-60]} } + } + \branch[right=of rf,,yshift=3em]{ + \arrow{}{} + \reactant{ \chemname{\chemfig{=_[:-30]-[::60](-[::60]OH)(-[::-120]R)-[::-60]}}{1,2-adduct} } + } + \branch[right=of rf,,yshift=-5em]{ + \arrow{}{} + \reactant{ \chemname{\chemfig{R-[6]-[:-30]=_[::60](-[::60]OH)-[::-60]}}{1,4-adduct} } + } + \end{rxnscheme} +\end{beispiel} + +\section{Mesomerism} +\begin{rxnscheme}[,,,.8]{Mesomerism} + \setatomsep{1.6em} + \reactant[,start]{ \chemname{\chemfig{*6(-=-=(-[,,,,white]\phantom{Br})-=)}}{benzene \cmpd{benzene}} } + \arrow[,,2.8]{}{} + \reactant{ \chemname{\chemfig{*6(-=-=(-Br)-=)}}{bromobenzene \cmpd{bromobenzene}} } + \arrow[start.below,,,pfeil_a]{\ch{Br2} / \ch{AlBr3}}{$-\ch{AlBr4-}$} + \mesomeric[pfeil_a.below,mesomerism,xshift=8.5em,yshift=-2.5em]{ + \reactant{ + \chemfig{*6(=[@{e1}]-=-(-[:120]Br)(-[:60]H)-(-[:-30,.4,,,white]\fplus)-[@{e2}])} + \elmove{e1}{60:4mm}{e2}{0:4mm} + } + \marrow + \reactant{ + \chemfig{*6(-(-[:90,.4,,,white]\fplus)-[@{e4}]=[@{e3}]-(-[:120]Br)(-[:60]H)-=)} + \elmove{e3}{180:4mm}{e4}{150:4mm} + } + \marrow + \reactant{ + \chemfig{*6(-=-(-[:-150,.4,,,white]\fplus)-(-[:120]Br)(-[:60]H)-=)} + } + } + \branch[above=of mesomerism,,xshift=7.5em]{ + \arrow[above]{$-\Hpl$}{} + } +\end{rxnscheme} + +If you put something relative to an arrow you might have to consider that the +arrow's anchor point is in the middle of the arrow. That's why \cmd{mesomeric} +is shifted with \code{yshift=-2.5em} in line 9. +\begin{beispiel}[code only] + \begin{rxnscheme}[,,,.8]{Mesomerism} + \setatomsep{1.6em} + % main reaction: + \reactant[,start]{ \chemname{\chemfig{*6(-=-=(-[,,,,white]\phantom{Br})-=)}}{benzene \cmpd{benzene}} } + \arrow[,,2.8]{}{} + \reactant{ \chemname{\chemfig{*6(-=-=(-Br)-=)}}{bromobenzene \cmpd{bromobenzene}} } + % branch: + \arrow[start.below,,,pfeil_a]{\ch{Br2} / \ch{AlBr3}}{$-\ch{AlBr4-}$} + \mesomeric[!!pfeil_a.below!!,mesomerism,xshift=8.5em,!!yshift=-2.5em!!]{ + \reactant{ + \chemfig{*6(=[@{e1}]-=-(-[:120]Br)(-[:60]H)-(-[:-30,.4,,,white]\fplus)-[@{e2}])} + \elmove{e1}{60:4mm}{e2}{0:4mm} + } + \marrow + \reactant{ + \chemfig{*6(-(-[:90,.4,,,white]\fplus)-[@{e4}]=[@{e3}]-(-[:120]Br)(-[:60]H)-=)} + \elmove{e3}{180:4mm}{e4}{150:4mm} + } + \marrow + \reactant{ + \chemfig{*6(-=-(-[:-150,.4,,,white]\fplus)-(-[:120]Br)(-[:60]H)-=)} + } + } + % last arrow inside a branch, since it cannot be shifted by itself: + \branch[above=of mesomerism,,xshift=7.5em]{ + \arrow[above]{$-\Hpl$}{} + } + \end{rxnscheme} +\end{beispiel} + +\section{The Former Titlepage} +This scheme used to be on the title page of the examples file. It isn't any more +but here's the scheme, anyway. +\begin{rxnscheme}[,,,.7]{The Titlepage} + \setatomsep{1.5em}\footnotesize + \reactant[,a]{ \chemfig{C(-[4]*6(=-=-=-))(-[2]*6(=-=-=-))(-[6,,,2]HO)-C(-[2]CH_3)(-[6]OH)-CH_3} } + \arrow[a.20]{}{} + \reactant[20]{ \chemfig{C(-[4]*6(=-=-=-))(-[2]*6(=-=-=-))(-[@{e1}6,,,2]H_2@{e2}\chembelow{O}{\fplus})-C(-[2]CH_3)(-[6]OH)-CH_3}\elmove{e1}{10:4mm}{e2}{-10:4mm} } + \arrow[,,1.42]{$-\ch{H2O}$}{} + \reactant{ \chemfig{\chembelow{C}{\fplus}(-[4]*6(=-=-=-))(-[2]*6(=-=-=-))-C(-[2]CH_3)(-[6]OH)-CH_3} }{} + \arrow[a.-20,-|>]{}{} + \reactant[-20]{ \chemfig{C(-[4]*6(=-=-=-))(-[2]*6(=-=-=-))(-[6,,,2]HO)-C(-[2]CH_3)(-[@{e3}6]@{e4}\chembelow{O}{\fplus}H_2)-CH_3}\elmove{e3}{170:4mm}{e4}{-170:4mm} } + \arrow[,,1.42]{$-\ch{H2O}$}{} + \reactant[,end]{ \chemfig{C(-[4]*6(=-=-=-))(-[2]*6(=-=-=-))(-[6,,,2]HO)-\chembelow{C}{\fplus}(-[2]CH_3)-CH_3} } + \anywhere{below=of end}{} +\end{rxnscheme} + +\begin{beispiel}[code only] + \begin{rxn}[,.7] + \setatomsep{1.5em}\footnotesize + % reaction above: + \reactant[,a]{ \chemfig{C(-[4]*6(=-=-=-))(-[2]*6(=-=-=-))(-[6,,,2]HO)-C(-[2]CH_3)(-[6]OH)-CH_3} } + \arrow[a.45]{}{} + \reactant[45]{ \chemfig{C(-[4]*6(=-=-=-))(-[2]*6(=-=-=-))(-[@{e1}6,,,2]H_2@{e2}\chembelow{O}{\fplus})-C(-[2]CH_3)(-[6]OH)-CH_3}\elmove{e1}{10:4mm}{e2}{-10:4mm} } + \arrow[,,1.42]{$-\ch{H2O}$}{} + \reactant{ \chemfig{\chembelow{C}{\fplus}(-[4]*6(=-=-=-))(-[2]*6(=-=-=-))-C(-[2]CH_3)(-[6]OH)-CH_3} }{} + % going down: + \arrow[a.-45,-|>]{}{} + \reactant[-45]{ \chemfig{C(-[4]*6(=-=-=-))(-[2]*6(=-=-=-))(-[6,,,2]HO)-C(-[2]CH_3)(-[@{e3}6]@{e4}\chembelow{O}{\fplus}H_2)-CH_3}\elmove{e3}{170:4mm}{e4}{-170:4mm} } + \arrow[,,1.42]{$-\ch{H2O}$}{} + \reactant{ \chemfig{C(-[4]*6(=-=-=-))(-[2]*6(=-=-=-))(-[6,,,2]HO)-\chembelow{C}{\fplus}(-[2]CH_3)-CH_3} } + \end{rxn} +\end{beispiel} + +\section{Condensation Reaction} +\begin{rxnscheme}{Condensation Reaction} + \reactant{\chemfig{**6(---(-CH_2OH)-(-OH)--)}} + \chemand + \reactant{\chemfig{**6(----(-OH)-(-HOCH_2)-)}} + \arrow[,-+>]{}{\ch{H2O}} + \reactant{\chemfig{**6(---(-CH_2-[:-30]O-[:30]CH_2-[:-30]**6(-----(-OH)-))-(-OH)--)}} + \arrow[-90,-+>,,dec]{}{\ch{CH2O}} + \anywhere{dec.180,,xshift=-.2em}{\SI{200}{\celsius}} + \reactant[-90,target]{\chemfig{**6(---(-CH_2-[:-30]**6(-----(-OH)-))-(-OH)--)}} + \branch[left=of target]{ + \reactant{\chemfig{**6(---(-CH_2OH)-(-OH)--)}} + \chemand + \reactant{\chemfig{**6(----(-OH)-(-H)-)}} + \arrow[,-+>]{}{\ch{H2O}} + } +\end{rxnscheme} + +\begin{beispiel}[code only] + \begin{rxnscheme}{Condensation Reaction} + \reactant{\chemfig{**6(---(-CH_2OH)-(-OH)--)}} + \chemand + \reactant{\chemfig{**6(----(-OH)-(-HOCH_2)-)}} + \arrow[,-+>]{}{\ch{H2O}} + \reactant{\chemfig{**6(---(-CH_2-[:-30]O-[:30]CH_2-[:-30]**6(-----(-OH)-))-(-OH)--)}} + \arrow[-90,-+>,,dec]{}{\ch{CH2O}} + \anywhere{dec.180,,xshift=-.2em}{\SI{200}{\celsius}} + \reactant[-90,target]{\chemfig{**6(---(-CH_2-[:-30]**6(-----(-OH)-))-(-OH)--)}} + \branch[left=of target]{ + \reactant{\chemfig{**6(---(-CH_2OH)-(-OH)--)}} + \chemand + \reactant{\chemfig{**6(----(-OH)-(-H)-)}} + \arrow[,-+>]{}{\ch{H2O}} + } + \end{rxnscheme} +\end{beispiel} + +\section{Substitution vs. Elimination} +\begin{rxnscheme}{Substitution vs. Elimination} + % first reaction: + \reactant[,start_a]{\chemfig{@{H}H-[@{b1}:-60]\chemabove{C}{\scriptstyle\beta}(<[:-100]H)(<:[:-150]H)-[@{b2}]\chemabove{C}{\scriptstyle\alpha}(<[:20]H)(<:[:60]H)-[@{b3}:-60]@{X1}X}} + \arrow{E2}{} + \reactant{\chemfig{H-[:60]C(-[:120]H)=C(-[:60]H)-[:-60]H}} + \chemand + \reactant{\ch{X-}} + \chemand + \reactant{\chemfig{O(-[:60]H)-[:-60]H}} + % second reaction: + \reactant[start_a.-90,start_b,yshift=-4em]{\chemfig{H-[:-60]C(<[:-100]H)(<:[:-150]H)-@{C}C(<[:20]H)(<:[:60]H)-[@{b4}:-60]@{X2}X}} + \arrow{S$_\text{N}$2}{} + \reactant{\chemfig{H-[:-60]C(<[:-100]H)(<:[:-150]H)-C(<[:-80]H)(<:[:-30]H)-[:60]OH}} + \chemand + \reactant{\ch{X-}} + % nucleophile/base: + \anywhere{start_b.135,nuc,xshift=-3em,yshift=2em}{\chemfig{H-@{O}\chemabove{\lewis{026,O}}{\hspace{5mm}\fscrm}}} + % electron movements: + \anywhere{nuc.0}{ + \elmove{O}{90:1.5cm}{H}{180:1cm} + \elmove{b1}{60:1cm}{b2}{90:5mm} + \elmove{b3}{-170:5mm}{X1}{180:5mm} + \elmove{O}{-90:1cm}{C}{100:1.5cm} + \elmove{b4}{-170:5mm}{X2}{180:5mm} + } +\end{rxnscheme} + +You may see in line 20 that the \cmd{elmove} commands are put inside of +\cmd{anywhere}. This is necessary in order to produce the right scheme. But this +time you can position \cmd{anywhere} literally anywhere. +\begin{beispiel}[code only] + \begin{rxnscheme}{Substitution vs. Elimination} + % first reaction: + \reactant[,start_a]{\chemfig{@{H}H-[@{b1}:-60]\chemabove{C}{\scriptstyle\beta}(<[:-100]H)(<:[:-150]H)-[@{b2}]\chemabove{C}{\scriptstyle\alpha}(<[:20]H)(<:[:60]H)-[@{b3}:-60]@{X1}X}} + \arrow{\mech[e2}{} + \reactant{\chemfig{H-[:60]C(-[:120]H)=C(-[:60]H)-[:-60]H}} + \chemand + \reactant{\ch{X-}} + \chemand + \reactant{\chemfig{O(-[:60]H)-[:-60]H}} + % second reaction: + \reactant[start_a.-90,start_b,yshift=-4em]{\chemfig{H-[:-60]C(<[:-100]H)(<:[:-150]H)-@{C}C(<[:20]H)(<:[:60]H)-[@{b4}:-60]@{X2}X}} + \arrow{\mech[2]}{} + \reactant{\chemfig{H-[:-60]C(<[:-100]H)(<:[:-150]H)-C(<[:-80]H)(<:[:-30]H)-[:60]OH}} + \chemand + \reactant{\ch{X-}} + % nucleophile/base: + \anywhere{start_b.135,nuc,xshift=-3em,yshift=2em}{\chemfig{H-@{O}\chemabove{\lewis{026,O}}{\hspace{5mm}\fscrm}}} + % electron movements: + \anywhere{nuc.0}{ + \elmove{O}{90:1.5cm}{H}{180:1cm} + \elmove{b1}{60:1cm}{b2}{90:5mm} + \elmove{b3}{-170:5mm}{X1}{180:5mm} + \elmove{O}{-90:1cm}{C}{100:1.5cm} + \elmove{b4}{-170:5mm}{X2}{180:5mm} + } + \end{rxnscheme} +\end{beispiel} + +\section{Scheme with three Lines}\label{sec:three_lines} +\begin{rxnscheme}{Scheme with three Lines} + \setatomsep{1.5em} + \footnotesize + \reactant[,start]{\chemfig{EtO-(=[2]O)-[:-60](-Br)-[:-120](=[6]O)-[4]EtO}} + \chemand + \reactant{\chemfig{*6(-=-=-*5(-(=O)-\chemabove{\lewis{4:,N}}{\fscrm}(-[4,.7,,,draw=none]\chemabove{K}{\fscrp})-(=O)--)=)}} + \arrow{}{} + \reactant{\chemfig{*6(-=-=-*5(-(=O)-N(-(-[::-60](=[::-60]O)-[::60]EtO)-[::60](=[::60]O)-[::-60]EtO)-(=O)--)=)}} + % newline, started with \anywhere: + \anywhere{start.-90,a,xshift=-4em,yshift=-5em}{} + \arrow[a.0,,.6]{\chemabove{\lewis{0:,B}}{\fscrm}}{} + \arrow{\ch{R-X}}{} + \reactant{\chemfig{*6(-=-=-*5(-(=O)-N(-(-[4]R)(-[::-60](=[::-60]O)-[::60]EtO)-[::60](=[::60]O)-[::-60]EtO)-(=O)--)=)}} + \arrow[,,1.25]{\Hpl/\ch{H2O}}{} + \reactant{\chemfig{*6(-=-=-*5(-(=O)-N(-(-[4]R)(-[::-60](=[::-60]O)-[::60]HO_2C)-[::60](=[::60]O)-[::-60]HO_2C)-(=O)--)=)}} + % newline, started with \anywhere: + \anywhere{a.-90,b,yshift=-7em}{} + \arrow[b.0]{$- {\ch{CO2}}$}{} + \arrow{\Hpl}{\ch{H2O}} + \reactant{\chemfig{R-(-[6]H)(-[2]C|O_2\mch)-NH_3\pch}} +\end{rxnscheme} +\begin{beispiel}[code only] + \begin{rxnscheme}{Scheme with three Lines} + \setatomsep{1.5em} + \footnotesize + \reactant[,start]{\chemfig{EtO-(=[2]O)-[:-60](-Br)-[:-120](=[6]O)-[4]EtO}} + \chemand + \reactant{\chemfig{*6(-=-=-*5(-(=O)-\chemabove{\lewis{4:,N}}{\fscrm}(-[4,.7,,,draw=none]\chemabove{K}{\fscrp})-(=O)--)=)}} + \arrow{}{} + \reactant{\chemfig{*6(-=-=-*5(-(=O)-N(-(-[::-60](=[::-60]O)-[::60]EtO)-[::60](=[::60]O)-[::-60]EtO)-(=O)--)=)}} + % newline, started with \anywhere: + \anywhere{start.-90,a,xshift=-4em,yshift=-5em}{} + \arrow[a.0,,.6]{\chemabove{\lewis{0:,B}}{\fscrm}}{} + \arrow{\ch{R-X}}{} + \reactant{\chemfig{*6(-=-=-*5(-(=O)-N(-(-[4]R)(-[::-60](=[::-60]O)-[::60]EtO)-[::60](=[::60]O)-[::-60]EtO)-(=O)--)=)}} + \arrow[,,1.25]{\Hpl/\ch{H2O}}{} + \reactant{\chemfig{*6(-=-=-*5(-(=O)-N(-(-[4]R)(-[::-60](=[::-60]O)-[::60]HO_2C)-[::60](=[::60]O)-[::-60]HO_2C)-(=O)--)=)}} + % newline, started with \anywhere: + \anywhere{a.-90,b,yshift=-7em}{} + \arrow[b.0]{$- {\ch{CO2}}$}{} + \arrow{\Hpl}{\ch{H2O}} + \reactant{\chemfig{R-(-[6]H)(-[2]C|O_2\mch)-NH_3\pch}} + \end{rxnscheme} +\end{beispiel} + + +\section{Hydratisation}\label{sec:hydratisation} +\pgfdeclaredecoration{ddbond}{initial}{% + \state{initial}[width=2pt]{% + \pgfpathlineto{\pgfpoint{2pt}{0pt}}% + \pgfpathmoveto{\pgfpoint{1.5pt}{2pt}}% + \pgfpathlineto{\pgfpoint{2pt}{2pt}}% + \pgfpathmoveto{\pgfpoint{2pt}{0pt}}% + }% + \state{final}{% + \pgfpathlineto{\pgfpointdecoratedpathlast}% + }% +}% +\tikzset{lddbond/.style={decorate,decoration=ddbond}}% +\tikzset{rddbond/.style={decorate,decoration={ddbond,mirror}}}% +A scheme with transition states. + +\begin{rxnscheme}{Hydratisation} + \reactant[,carbonyl_A]{\chemfig{R_2C=O}} + \anywhere{above=of carbonyl_A}{\chemfig{H-[:-30]O-[:30]H}} + \arrow[,<=>]{\tiny slow}{} + \transition[,transition_A]{\chemfig{R_2C(-[2,,2,,densely dotted]\chemabove{O}{\delp}(-[:150]H)-[:30]H)-[:-30,1.15,,,lddbond]O-[6,,,,densely dotted]H-[,,,,densely dotted]\chemabove{A}{\delm}}} + \anywhere{below=of transition_A,,text width=3cm}{(general transition state, acid cat.)} + \arrow[,<=>,.7]{}{} + \reactant{\chemfig{R_2C(-[:60]\chemabove{O}{\fscrp}H_2)-[:-60]OH}} + \arrow[below right,<=>,.7]{$-\Hpl$}{} + \reactant[below right]{\chemfig{R_2C(-[:60]OH)-[:-60]OH}} + \arrow[below left,<=>,.7]{}{\ch{H2O}} + \reactant[below left,zw]{\chemfig{R_2C(-[:60]OH)-[:-60]O|\mch}} + \arrow[left,<=>,.7]{}{} + \transition[left,transition_B]{\chemfig{R_2C(-[2,,2,,densely dotted]O(-[:150]H-[4,,,,densely dotted]\chemabove{B}{\delp})-[:30]H)-[:-30,1.15,,,lddbond]\chemabove{O}{\delm}-[6,,,,draw=none]\phantom{H}}} + \anywhere{below=of transition_B,,text width=3cm}{(general transition state, base cat.)} + \arrow[left,<=>]{}{\tiny slow} + \reactant[left,carbonyl_B]{\chemfig{R_2C=O}} + \anywhere{above=of carbonyl_B}{\chemfig{H-[:-30]O-[:30]H}} +\end{rxnscheme} + +For this example we first declare a style for the delocalized double bonds: +\begin{beispiel}[code only] + \pgfdeclaredecoration{ddbond}{initial}{% + \state{initial}[width=2pt]{% + \pgfpathlineto{\pgfpoint{2pt}{0pt}}% + \pgfpathmoveto{\pgfpoint{1.5pt}{2pt}}% + \pgfpathlineto{\pgfpoint{2pt}{2pt}}% + \pgfpathmoveto{\pgfpoint{2pt}{0pt}}% + }% + \state{final}{% + \pgfpathlineto{\pgfpointdecoratedpathlast}% + }% + }% + \tikzset{lddbond/.style={decorate,decoration=ddbond}}% + \tikzset{rddbond/.style={decorate,decoration={ddbond,mirror}}}% +\end{beispiel} +Now the delocalized double bond can be used via \paket*{chemfig}'s fifth option +(see the \paket{chemfig} manual): +\begin{beispiel}[code only] + \chemfig{-[,,,,lddbond]-[,,,,rddbond]} +\end{beispiel} +\chemfig{-[,,,,lddbond]-[,,,,rddbond]}\par\medskip + +Then the whole code looks like follows: +\begin{beispiel}[code only] + \begin{rxnscheme}{Hydratisation} + \reactant[,carbonyl_A]{\chemfig{R_2C=O}} + \anywhere{above=of carbonyl_A}{\chemfig{H-[:-30]O-[:30]H}} + \arrow[,<=>]{\tiny slow}{} + \transition[,transition_A]{\chemfig{R_2C(-[2,,2,,densely dotted]\chemabove{O}{\delp}(-[:150]H)-[:30]H)-[:-30,1.15,,,lddbond]O-[6,,,,densely dotted]H-[,,,,densely dotted]\chemabove{A}{\delm}}} + \anywhere{below=of transition_A,,text width=3cm}{(general transition state, acid cat.)} + \arrow[,<=>,.7]{}{} + \reactant{\chemfig{R_2C(-[:60]\chemabove{O}{\fscrp}H_2)-[:-60]OH}} + \arrow[below right,<=>,.7]{$-\Hpl$}{} + \reactant[below right]{\chemfig{R_2C(-[:60]OH)-[:-60]OH}} + \arrow[below left,<=>,.7]{}{\ch{H2O}} + \reactant[below left,zw]{\chemfig{R_2C(-[:60]OH)-[:-60]O|\mch}} + \arrow[left,<=>,.7]{}{} + \transition[left,transition_B]{\chemfig{R_2C(-[2,,2,,densely dotted]O(-[:150]H-[4,,,,densely dotted]\chemabove{B}{\delp})-[:30]H)-[:-30,1.15,,,lddbond]\chemabove{O}{\delm}-[6,,,,draw=none]\phantom{H}}} + \anywhere{below=of transition_B,,text width=3cm}{(general transition state, base cat.)} + \arrow[left,<=>]{\tiny langsam}{} + \reactant[left,carbonyl_B]{\chemfig{R_2C=O}} + \anywhere{above=of carbonyl_B}{\chemfig{H-[:-30]O-[:30]H}} + \end{rxnscheme} +\end{beispiel} +You can see that \cmd{anywhere} was used several times, either to place molecules +or to label molecules. + +\section{Esterification}\label{sec:veresterung} +\begin{rxnscheme}{Esterification} + \reactant{\chemfig{H-C(=[:60]O)-[:-60]O-H}} + \arrow[,-+>,1.5,protolysis]{\ch{H2SO4}}{\ch{HSO4-}} + \anywhere{below=of protolysis,,yshift=1em}{\tiny protolysis} + \mesomeric{ + \reactant{\chemfig{H-@{a2}C(-[:60]O-H)(-[:30,.5,,,draw=none]{\fscrp})-[:-60]O-H}} + \marrow + \reactant{\chemfig{H-C(=[:60]\chemabove{O}{\fscrp}-H)-[:-60]O-H}} + } + \branch[below,,xshift=-5em]{ + \arrow[below,<=>]{\chemfig{H-[:120]@{a1}O-[:60]CH_3}}{\tiny addition} + \reactant[below]{\chemfig{H-C(-[2]O-[:30]H)(-\chemabove{O}{\fscrp}(-[:60]CH_3)-[:-60]H)-[6]O-[:-30]H}\elmove{a1}{90:1.5cm}{a2}{0:3cm}} + } + \branch[left,,yshift=-3.5em]{ + \arrow[left,<=>]{}{\tiny protolysis} + } + \reactant[left]{\chemfig{H-C(-[2]O-[:30]H)(-O-CH_3)-[@{b1}6]@{a3}\chemabove{O}{\hspace*{-4mm}\fscrp}(-[:-150]H)-[:-30]H}\elmove{b1}{0:5mm}{a3}{20:5mm}} + \arrow[below,<=>]{$- {\ch{H2O}}$}{\tiny elimination} + \mesomeric[below,,xshift=6em]{ + \reactant{\chemfig{H-C(-[:60]O-H)(-[,.5,,,draw=none]{\fscrp})-[:-60]O-CH_3}} + \marrow + \reactant{\chemfig{H-C(=[:60]\chemabove{O}{\fscrp}-H)-[:-60]O-CH_3}} + } + \arrow[,-+>,1.5]{\ch{HSO4-}}{\ch{H2SO4}} + \reactant{\chemfig{H-C(=[:60]O)-[:-60]O-CH_3}} +\end{rxnscheme} + +\begin{beispiel}[code only] + \begin{rxn}{Esterification} + \reactant{\chemfig{H-C(=[:60]O)-[:-60]O-H}} + \arrow[,-+>,1.2,protolysis]{\ch{H2SO4}}{\ch{HSO4-}} + \anywhere{below=of protolysis,,yshift=1em}{\tiny protolysis} + \mesomeric{ + \reactant{\chemfig{H-@{a2}C(-[:60]O-H)(-[:30,.5,,,draw=none]{\fscrp})-[:-60]O-H}} + \marrow + \reactant{\chemfig{H-C(=[:60]\chemabove{O}{\fscrp}-H)-[:-60]O-H}} + } + \branch[below,,xshift=-5em]{ + \arrow[below,<=>]{\tiny addition}{\chemfig{H-[:120]@{a1}O-[:60]CH_3}} + \reactant[below]{ + \chemfig{H-C(-[2]O-[:30]H)(-\chemabove{O}{\fscrp}(-[:60]CH_3)-[:-60]H)-[6]O-[:-30]H} + \elmove{a1}{90:1.5cm}{a2}{0:3cm} + } + } + \branch[left,,yshift=-3.5em]{ + \arrow[left,<=>]{}{\tiny protolysis} + } + \reactant[left]{ + \chemfig{H-C(-[2]O-[:30]H)(-O-CH_3)-[@{b1}6]@{a3}\chemabove{O}{\hspace*{-4mm}\fscrp}(-[:-150]H)-[:-30]H} + \elmove{b1}{0:5mm}{a3}{20:5mm} + } + \arrow[below,<=>]{$- {\ch{H2O}}$}{\tiny elimination} + \mesomeric[below,,xshift=6em]{ + \reactant{\chemfig{H-C(-[:60]O-H)(-[,.5,,,draw=none]{\fscrp})-[:-60]O-CH_3}} + \marrow + \reactant{\chemfig{H-C(=[:60]\chemabove{O}{\fscrp}-H)-[:-60]O-CH_3}} + } + \arrow[,-+>,1.2]{\ch{HSO4-}}{\ch{H2SO4}} + \reactant{\chemfig{H-C(=[:60]O)-[:-60]O-CH_3}} + \end{rxnscheme} +\end{beispiel} + +\section{Electrophilic Addition}\label{sec:elektrophile_addition} +This scheme forms a circle. +\begin{rxnscheme}{Electrophilic Addition} + \setarrowlength{3em} + \reactant{\chemfig{>[:-20]C(<[:40])=[6]C(<[:-130])<[:-20]}} + \chemand[,plus] + \reactant{\chemfig{\lewis{246,Br}-\lewis{026,Br}}} + \arrow[plus.-90,<=>]{\footnotesize fast}{} + \reactant[-90,attack]{\chemfig{>[:-20]C(<[:40])=[@{db}6]C(<[:-130])<[:-20]}} + \anywhere{right=of attack}{ + \chemfig{@{Br1}\lewis{246,Br}-[@{b2}]@{Br2}\lewis{026,Br}} + \elmove{db}{20:5mm}{Br1}{135:5mm} + \elmove{b2}{-120:5mm}{Br2}{-120:5mm} + } + % to the left: + \arrow[attack.-135,<=>,2]{$- {\ch{Br-}}$}{\footnotesize slow} + \reactant[-135,carbenium_a]{\vflipnext\chemfig{-[:-30]\chembelow{C}{\fscrp}(-[:30])-[6]C(<[:-150])(<:[:-100])-[:-30]\lewis{137,Br}}} + \anywhere{below=of carbenium_a}{\footnotesize carbenium ion} + \arrow[,<<=>]{}{} + \reactant[,bromonium]{\chemfig{>:[:-60]C?(<[:160])-[6]C(<[:-110])(<:[:-150])-[:30]\lewis{17,Br}?-[4,.5,,,draw=none]{\fscrp}}} + \anywhere{below=of bromonium,,yshift=.35em}{\footnotesize bromonium ion} + % to the right: + \arrow[attack.-45,<=>,2]{\footnotesize slow}{$- {\ch{Br-}}$} + \reactant[-45,carbenium_b]{\chemfig{-[:-30]\chemabove{C}{\fscrp}(-[:30])-[6]C(<:[:-150])(<[:-100])-[:-30]\lewis{157,Br}}} + \anywhere{below=of carbenium_b}{\footnotesize carbenium ion} + \arrow[left,<<=>]{}{} + \mCsetup{reset} +\end{rxnscheme} + +\begin{beispiel}[code only] + \begin{rxnscheme}{Electrophilic Addition} + \setarrowlength{3em} + \reactant{\chemfig{>[:-20]C(<[:40])=[6]C(<[:-130])<[:-20]}} + \chemand[,plus] + \reactant{\chemfig{\lewis{246,Br}-\lewis{026,Br}}} + \arrow[plus.-90,<=>]{\footnotesize fast}{} + \reactant[-90,attack]{\chemfig{>[:-20]C(<[:40])=[@{db}6]C(<[:-130])<[:-20]}} + \anywhere{right=of attack}{ + \chemfig{@{Br1}\lewis{246,Br}-[@{b2}]@{Br2}\lewis{026,Br}} + \elmove{db}{20:5mm}{Br1}{135:5mm} + \elmove{b2}{-120:5mm}{Br2}{-120:5mm} + } + % to the left: + \arrow[attack.-135,<=>,2]{$- {\ch{Br-}}$}{\footnotesize slow} + \reactant[-135,carbenium_a]{\vflipnext\chemfig{-[:-30]\chembelow{C}{\fscrp}(-[:30])-[6]C(<[:-150])(<:[:-100])-[:-30]\lewis{137,Br}}} + \anywhere{below=of carbenium_a}{\footnotesize carbenium ion} + \arrow[,<<=>]{}{} + \reactant[,bromonium]{\chemfig{>:[:-60]C?(<[:160])-[6]C(<[:-110])(<:[:-150])-[:30]\lewis{17,Br}?-[4,.5,,,draw=none]{\fscrp}}} + \anywhere{below=of bromonium,,yshift=.35em}{\footnotesize bromonium ion} + % to the right: + \arrow[attack.-45,<=>,2]{\footnotesize slow}{$- {\ch{Br-}}$} + \reactant[-45,carbenium_b]{\chemfig{-[:-30]\chemabove{C}{\fscrp}(-[:30])-[6]C(<:[:-150])(<[:-100])-[:-30]\lewis{157,Br}}} + \anywhere{below=of carbenium_b}{\footnotesize carbenium ion} + \arrow[left,<<=>]{}{} + \mCsetup{reset} + \end{rxnscheme} +\end{beispiel} + +\section{Activation of Fatty Acids}\label{sec:activation_fatty_acid} +\begin{rxnscheme}{Activation of Fatty Acids} + \reactant[,ATP]{\chemfig{\chemabove{O}{\hspace*{-5mm}\fscrm}-P(=[2]O)(-[6]\chembelow{O}{\fscrm})-O-P(=[2]O)(-[6]\chembelow{O}{\fscrm})-@{O1}O-[@{b1}]@{P}P(=[2]O)(-[6]\chembelow{O}{\fscrm})-O-CH_2-[6,1.5,1](-[6,.5])(-[:20,1.3]O?[a])<[7](-[2,.5])(-[6]OH)-[,,,,line width=3pt](-[2,.5])(-[6]OH)>[1]?[a](-[6,.5])-[2,1.5]N?[b]-[:18]([:30]*6(-N=-N=(-NH_2)-=))-[:90]-[:162]N=^[:-126]?[b]}} + \anywhere{below right=of ATP,,xshift=-4em,yshift=3em}{\bfseries ATP} + \arrow[below,,1.5]{}{\chemname{\chemfig{R-C(=[:-60]O)-[:60]@{O2}O-[@{b2}]H}}{fatty acid}} + \branch[on chain=going below]{ + \reactant[,pyrophosphat]{ + \chemfig{\chemabove{O}{\hspace*{-5mm}\fscrm}-P(=[2]O)(-[6]\chembelow{O}{\fscrm})-O-P(=[2]O)(-[6]\chembelow{O}{\fscrm})-\chemabove{O}{\hspace*{5mm}\fscrm}} + \elmove{b1}{100:1cm}{O1}{90:5mm} + \elmove{O2}{135:1cm}{P}{-135:1cm} + \elmove{b2}{-90:5mm}{O2}{-60:5mm} + } + \anywhere{below=of pyrophosphat}{pyrophosphate PP$_\text{i}$} + \chemand + \reactant[,acyl-amp]{\chemfig{R-@{C}C(=[:-60]O)-[@{b3}:60]@{O3}O-P(-[6]\chembelow{O}{\fscrm})(=[2]O)-O-CH_2-[6,,1,1]r|ibos|e-[2,1.05,3,1]a|denine}} + \anywhere{below=of acyl-amp}{\bfseries acyl-AMP} + } + \branch[on chain=going below,,xshift=-8em]{ + \arrow[below]{\ch{H2O}}{} + \reactant[below,Pi]{2~\chemfig{HO-P(=[2]O)(-[6]\chembelow{O}{\fscrm})-O}} + \anywhere{below right=of Pi}{P$_\text{i}$} + } + \branch[,,xshift=4em]{ + \arrow[below,-+>]{\chemfig{CoA-@{S}S-[@{b4}:-60]H}}{AMP} + \reactant[below,acyl-SCoA]{ + \chemfig{R-C(=[:-60]O)-[:60]S-CoA} + \elmove{S}{45:3cm}{C}{-120:2cm} + \elmove{b3}{135:5mm}{O3}{110:7mm} + \elmove{b4}{-120:7mm}{S}{-100:5mm} + } + \anywhere{below=of acyl-SCoA}{acyl-SCoA} + } +\end{rxnscheme} + +\begin{beispiel}[code only] + \begin{rxnscheme}{Activation of Fatty Acids} + \reactant[,ATP]{\chemfig{\chemabove{O}{\hspace*{-5mm}\fscrm}-P(=[2]O)(-[6]\chembelow{O}{\fscrm})-O-P(=[2]O)(-[6]\chembelow{O}{\fscrm})-@{O1}O-[@{b1}]@{P}P(=[2]O)(-[6]\chembelow{O}{\fscrm})-O-CH_2-[6,1.5,1](-[6,.5])(-[:20,1.3]O?[a])<[7](-[2,.5])(-[6]OH)-[,,,,line width=3pt](-[2,.5])(-[6]OH)>[1]?[a](-[6,.5])-[2,1.5]N?[b]-[:18]([:30]*6(-N=-N=(-NH_2)-=))-[:90]-[:162]N=^[:-126]?[b]}} + \anywhere{below right=of ATP,,xshift=-4em,yshift=3em}{\bfseries ATP} + \arrow[below,,1.5]{\chemname{\chemfig{R-C(=[:-60]O)-[:60]@{O2}O-[@{b2}]H}}{fatty acid}}{} + \branch[on chain=going below]{ + \reactant[,pyrophosphat]{ + \chemfig{\chemabove{O}{\hspace*{-5mm}\fscrm}-P(=[2]O)(-[6]\chembelow{O}{\fscrm})-O-P(=[2]O)(-[6]\chembelow{O}{\fscrm})-\chemabove{O}{\hspace*{5mm}\fscrm}} + \elmove{b1}{100:1cm}{O1}{90:5mm} + \elmove{O2}{135:1cm}{P}{-135:1cm} + \elmove{b2}{-90:5mm}{O2}{-60:5mm} + } + \anywhere{below=of pyrophosphat}{pyrophosphate PP$_\text{i}$} + \chemand + \reactant[,acyl-amp]{\chemfig{R-@{C}C(=[:-60]O)-[@{b3}:60]@{O3}O-P(-[6]\chembelow{O}{\fscrm})(=[2]O)-O-CH_2-[6,,1,1]r|ibos|e-[2,1.05,3,1]A|denine}} + \anywhere{below=of acyl-amp}{\bfseries acyl-AMP} + } + \branch[on chain=going below,,xshift=-8em]{ + \arrow[below]{\ch{H2O}}{} + \reactant[below,Pi]{2~\chemfig{HO-P(=[2]O)(-[6]\chembelow{O}{\fscrm})-O}} + \anywhere{below right=of Pi}{P$_\text{i}$} + } + \branch[,,xshift=4em]{ + \arrow[below,-+>]{\chemfig{CoA-@{S}S-[@{b4}:-60]H}}{AMP} + \reactant[below,acyl-SCoA]{ + \chemfig{R-C(=[:-60]O)-[:60]S-CoA} + \elmove{S}{135:2cm}{C}{-135:1cm} + \elmove{b3}{-45:5mm}{O3}{-70:7mm} + \elmove{b4}{-120:7mm}{S}{-100:5mm} + } + \anywhere{below=of acyl-SCoA}{acyl-SCoA} + } + \end{rxnscheme} +\end{beispiel} + +\section{Change the layout with \TikZ}\label{sec:tikz_layout} +\begin{rxnscheme}{Change the layout with \TikZ} + \colorlet{mCgreen}{green!50!gray} + \colorlet{mCblue}{cyan!50!gray} + \colorlet{mCred}{magenta!50!gray} + \tikzset{reactant/.style={draw=#1,fill=#1!10,minimum width=.8\textwidth,inner sep=1em,rounded corners}} + \mCsetup{arrowlength=3em,arrowline=very thick} + \reactant[,,reactant=mCgreen]{ + \chemname{\chemfig{Alky|l--[6](-[4,,,2]Acy|l)-[6]-O-P(=[2]O)(-[6]O|\mch)-O-[:-30]-[:30]-[:-30]NH_2}}{\bfseries Phosphatidylethanolamine} + } + \arrow[below]{\iupac{\N\-acyl\|transferase}}{} + \reactant[below,,reactant=mCblue]{ + \chemname{\chemfig{Alky|l--[6](-[4,,,2]Acy|l)-[6]-O-P(=[2]O)(-[6]O|\mch)-O-[:-30]-[:30]-[:-30]\chembelow{N}{H}-[:30](=[2]O)-[:-30]-[:30]-[:-30]-[:30]=_-[:-30]-[:30]=_-[:-60]-[::-60]=_[:180]-[::-30]-[::60]=_[:180]-[::-30]-[::60]-[::-60]-[::60]-[6]}}{\bfseries\iupac{\N\-arachidonoyl\-PE}} + } + \arrow[below]{Phospholipase D}{} + \reactant[below,,reactant=mCred]{ + \chemname{\chemfig{HO-[:-30]-[:30]-[:-30]\chembelow{N}{H}-[:30](=[2]O)-[:-30]-[:30]-[:-30]-[:30]=_-[:-30]-[:30]=_-[:-60]-[::-60]=_[:180]-[::-30]-[::60]=_[:180]-[::-30]-[::60]-[::-60]-[::60]-[6]}}{\bfseries Anandamide} + } + \mCsetup{reset} +\end{rxnscheme} + +This is an example for the usage of the \code{<tikz>} option. Please take a closer +look at lines \numlist{5;7;11;15}. +\begin{beispiel}[code only] + \begin{rxnscheme}{Change the layout with \TikZ} + \colorlet{mCgreen}{green!50!gray} + \colorlet{mCblue}{cyan!50!gray} + \colorlet{mCred}{magenta!50!gray} + !!\tikzset{reactant/.style={draw=#1,fill=#1!10,minimum width=.8\textwidth,inner sep=1em,rounded corners}}!! + \mCsetup{arrowlength=3em,arrowline=very thick} + \reactant[,,!!reactant=mCgreen!!]{ + \chemname{\chemfig{Alky|l--[6](-[4,,,2]Acy|l)-[6]-O-P(=[2]O)(-[6]O|\mch)-O-[:-30]-[:30]-[:-30]NH_2}}{\bfseries Phosphatidylethanolamine} + } + \arrow[below]{}{\iupac{\N-acyl\|transferase}} + \reactant[below,,!!reactant=mCblue!!]{ + \chemname{\chemfig{Alky|l--[6](-[4,,,2]Acy|l)-[6]-O-P(=[2]O)(-[6]O|\mch)-O-[:-30]-[:30]-[:-30]\chembelow{N}{H}-[:30](=[2]O)-[:-30]-[:30]-[:-30]-[:30]=_-[:-30]-[:30]=_-[:-60] -[::-60]=_[:180]-[::-30]-[::60]=_[:180]-[::-30]- [::60]-[::-60]-[::60]-[6]}}{\bfseries\iupac{\N\-arachidonoyl\-PE}} + } + \arrow[below]{}{Phospholipase D} + \reactant[below,,!!reactant=mCred!!]{ + \chemname{\chemfig{HO-[:-30]-[:30]-[:-30]\chembelow{N}{H}-[:30](=[2]O)-[:-30]-[:30]-[:-30]-[:30]=_-[:-30]-[:30]=_-[:-60] -[::-60]=_[:180]-[::-30]-[::60]=_[:180]-[::-30]- [::60]-[::-60]-[::60]-[6]}}{\bfseries Anandamide} + } + \mCsetup{reset} + \end{rxnscheme} +\end{beispiel} + +\section{Claisen-Kondensation} +\begin{rxnscheme}{Claisen-Kondensation} + \colorlet{mCred}{red!50!gray} + \setatomsep{1.5em} + % Ergebnis: + \branch[,one,draw=mCred,fill=mCred!10,rounded corners,inner sep=.5em]{ + \reactant{\chemfig{[:30]-(=[2]O)-[:-30]O--[:-30]}} + \chemand + \reactant{\chemfig{[:30]-(=[2]O)-[:-30]O--[:-30]}} + \arrow[,,2]{\ch{NaOEt}, \ch{EtOH}}{} + \reactant{\chemfig{[:30]-(=[2]O)-[:-30]-(=[2]O)-[:-30]O--[:-30]}} + } + % Mechanismus: + \branch[-90,,xshift=-13.5em]{ + \arrow[-90,<<=>]{\ch{^-OEt}}{} + } + \mesomeric[-90,two,xshift=4.5em]{ + \reactant{\chemfig{[:30](-[:150,.3,,,draw=none]@{C1}\fscrm)-(=[2]O)-[:-30]O--[:-30]}} + \marrow + \reactant{\chemfig{[:30]=(-[2]O|\mch)-[:-30]O--[:-30]}} + } + \chemand + \reactant{\ch{EtOH}} + \branch[two.-90,three,xshift=-5.5em]{ + \arrow[-90,<=>,,,both]{\chemfig[][scale=.7]{[:30]-@{C2}(=[@{b1}2]O@{O1})-[:-30]O--[:-30]}}{} + } + \reactant[three.-90]{\chemfig{-(-[@{b2}2]@{O2}O|\mch)(-[6]-[:-30](=[6]O)-[:30]O-[:-30]-[:30])-[@{b3}]@{O3}O-[:30]-[:-30]}} + \arrow[,<=>]{}{} + \reactant[,four]{\chemfig{[:30]-(=[2]O)-[:-30]@{C3}(-[:-120]H)(-[@{b4}:-60]H@{H})-(=[2]O)-[:-30]O--[:-30]}} + \chemand + \reactant{\chemfig{\mch @{O4}OEt}} + \arrow[four.-90]{}{} + \mesomeric[-90]{ + \reactant{\chemfig{[:30]-(=[2]O)-[:-30]=(-[2]O|\mch)-[:-30]O--[:-30]}} + \marrow + \reactant{\chemfig{[:30]-(=[2]O)-[:-30](-[6,.3,,,draw=none]\fscrm)-(=[2]O)-[:-30]O--[:-30]}} + \marrow + \reactant{\chemfig{[:30]-(-[2]O|\mch)=[:-30]-(=[2]O)-[:-30]O--[:-30]}} + } + \arrow[-90]{\Hpl, \ch{H2O}}{} + \reactant[-90]{\chemfig{[:30]-(=[2]O)-[:-30]-(=[2]O)-[:-30]O--[:-30]}} + \anywhere{one.0}{ + \elmove{C1}{-100:2cm}{C2}{-90:2cm} + \elmove{b1}{10:5mm}{O1}{0:5mm} + \elmove{O2}{180:5mm}{b2}{180:5mm} + \elmove{b3}{80:5mm}{O3}{90:5mm} + \elmove{b4}{0:5mm}{C3}{0:7mm} + \elmove{O4}{-90:1cm}{H}{-45:1cm} + } +\end{rxnscheme} + +\begin{beispiel}[code only] + \begin{rxnscheme}{Claisen-Kondensation} + \colorlet{mCred}{red!50!gray} + \setatomsep{1.5em} + % Ergebnis: + \branch[,one,draw=mCred,fill=mCred!10,rounded corners,inner sep=.5em]{ + \reactant{\chemfig{[:30]-(=[2]O)-[:-30]O--[:-30]}} + \chemand + \reactant{\chemfig{[:30]-(=[2]O)-[:-30]O--[:-30]}} + \arrow[,,2]{\ch{NaOEt}, \ch{EtOH}}{} + \reactant{\chemfig{[:30]-(=[2]O)-[:-30]-(=[2]O)-[:-30]O--[:-30]}} + } + % Mechanismus: + \branch[-90,,xshift=-13.5em]{ + \arrow[-90,<=>]{\ch{^-OEt}}{} + } + \mesomeric[-90,two,xshift=4.5em]{ + \reactant{\chemfig{[:30](-[:150,.3,,,draw=none]@{C1}\fscrm)-(=[2]O)-[:-30]O--[:-30]}} + \marrow + \reactant{\chemfig{[:30]=(-[2]O|\mch)-[:-30]O--[:-30]}} + } + \chemand + \reactant{\ch{EtOH}} + \branch[two.-90,three,xshift=-5.5em]{ + \arrow[-90,<=>,,,both]{\chemfig[][scale=.7]{[:30]-@{C2}(=[@{b1}2]O@{O1})-[:-30]O--[:-30]}}{} + } + \reactant[three.-90]{\chemfig{-(-[@{b2}2]@{O2}O|\mch)(-[6]-[:-30](=[6]O)-[:30]O-[:-30]-[:30])-[@{b3}]@{O3}O-[:30]-[:-30]}} + \arrow[,<=>]{}{} + \reactant[,four]{\chemfig{[:30]-(=[2]O)-[:-30]@{C3}(-[:-120]H)(-[@{b4}:-60]H@{H})-(=[2]O)-[:-30]O--[:-30]}} + \chemand + \reactant{\chemfig{\mch @{O4}OEt}} + \arrow[four.-90]{}{} + \mesomeric[-90]{ + \reactant{\chemfig{[:30]-(=[2]O)-[:-30]=(-[2]O|\mch)-[:-30]O--[:-30]}} + \marrow + \reactant{\chemfig{[:30]-(=[2]O)-[:-30](-[6,.3,,,draw=none]\fscrm)-(=[2]O)-[:-30]O--[:-30]}} + \marrow + \reactant{\chemfig{[:30]-(-[2]O|\mch)=[:-30]-(=[2]O)-[:-30]O--[:-30]}} + } + \arrow[-90]{\Hpl, \ch{H2O}}{} + \reactant[-90]{\chemfig{[:30]-(=[2]O)-[:-30]-(=[2]O)-[:-30]O--[:-30]}} + \anywhere{one.0}{ + \elmove{C1}{-100:2cm}{C2}{-90:2cm} + \elmove{b1}{10:5mm}{O1}{0:5mm} + \elmove{O2}{180:5mm}{b2}{180:5mm} + \elmove{b3}{80:5mm}{O3}{90:5mm} + \elmove{b4}{0:5mm}{C3}{0:7mm} + \elmove{O4}{-90:1cm}{H}{-45:1cm} + } + \end{rxnscheme} +\end{beispiel} + + +\section{Extensive Synthesis}\label{sec:tikzsynthese} +As last example we can create extensive syntheses, using the \cmd{merge} command. +\begin{rxnscheme}[,,,.8]{Extensive Synthesis} + \setatomsep{1.5em} + \branch[,start_left]{ + \reactant{\chemfig{=_[::30]-[::-60]-[::60](-[::-60])(-[::120])-[::0]OH}} + \arrow[below]{\ch{HBr}}{} + \reactant[below]{\chemfig{Br-[::30]-[::-60]=_[::60](-[::-60])-[::60]}} + } + \branch[right=of start_left,start_center,yshift=1em]{ + \reactant{\chemname{\chemfig[][scale=.8]{**6(--(-SO_2Cl)---(-)-)}}{tosyle chloride}} + \arrow[below]{\ch{NaOH}}{\ch{Zn}} + \reactant[below]{\chemfig[][scale=.8]{**6(--(-SO_2Na)---(-)-)}} + } + \branch[right=of start_center,start_right,xshift=3em,yshift=-10em]{ + \reactant{\chemname{\chemfig{-[::30](-[::60])=_[::-60]-[::60]COOH}}{\iupac{3\-methyl\-2\-butenoic acid}}} + \arrow[below]{\ch{CH3OH}}{} + \reactant[below]{\chemfig{-[::30](-[::60])=_[::-60]-[::60]CO_2CH_3}} + } + \branch[below=of start_left,target_one,xshift=5em,yshift=-5em]{ + \reactant{\chemfig[][scale=.8]{**6(--(-SO_2-[:30]-[::-60]=_[::60](-[::60])-[::-60])---(-)-)}} + } + \branch[below=of target_one,target_two,xshift=6em,yshift=-6em]{ + \mesomeric{\chemfig[][scale=.8]{-[::30](-[::60])=^[::-60]-[::60](-[::60]S(=[::90]O)(=[::-90]O)-[::0]**6(---(-)---))-[::-60](-[::0])(-[::-120])-[::60](-[::60,.5,,,white]\fminus)-[::-60]CO_2CH_3}} + \arrow[below,,.5]{}{} + \arrow[below,,.5]{\ch{KOH}}{} + \reactant[below]{\chemname{\chemfig{-[::-30](-[::-60])=^[::60]>[::-60](-[::90,1.2])-[::30,1.2](-[::120,1.2](-[::-60])-[::0])<:[::-30]COOH}}{\iupac{\trans\-chrysanthemum acid}}} + } + \merge{target_one}{start_left}{start_center} + \merge[\ch{NaOCH3}]{target_two}{target_one}{start_right} +\end{rxnscheme} +\begin{beispiel}[code only] + \begin{rxnscheme}[,,,.8]{Extensive Synthesis} + \setatomsep{1.5em} + \branch[,start_left]{ + \reactant{\chemfig{=_[::30]-[::-60]-[::60](-[::-60])(-[::120])-[::0]OH}} + \arrow[below]{\ch{HBr}}{} + \reactant[below]{\chemfig{Br-[::30]-[::-60]=_[::60](-[::-60])-[::60]}} + } + \branch[right=of start_left,start_center,yshift=1em]{ + \reactant{\chemname{\chemfig[][scale=.8]{**6(--(-SO_2Cl)---(-)-)}}{tosyle chloride}} + \arrow[below]{\ch{NaOH}}{\ch{Zn}} + \reactant[below]{\chemfig[][scale=.8]{**6(--(-SO_2Na)---(-)-)}} + } + \branch[right=of start_center,start_right,xshift=3em,yshift=-10em]{ + \reactant{\chemname{\chemfig{-[::30](-[::60])=_[::-60]-[::60]COOH}}{\iupac{3\-methyl\-2\-butenoic acid}}} + \arrow[below]{\ch{CH3OH}}{} + \reactant[below]{\chemfig{-[::30](-[::60])=_[::-60]-[::60]CO_2CH_3}} + } + \branch[below=of start_left,target_one,xshift=5em,yshift=-5em]{ + \reactant{\chemfig[][scale=.8]{**6(--(-SO_2-[:30]-[::-60]=_[::60](-[::60])-[::-60])---(-)-)}} + } + \branch[below=of target_one,target_two,xshift=6em,yshift=-6em]{ + \mesomeric{\chemfig[][scale=.8]{-[::30](-[::60])=^[::-60]-[::60](-[::60]S(=[::90]O)(=[::-90]O)-[::0]**6(---(-)---))-[::-60](-[::0])(-[::-120])-[::60](-[::60,.5,,,white]\fminus)-[::-60]CO_2CH_3}} + \arrow[below,,.5]{}{} + \arrow[below,,.5]{\ch{KOH}}{} + \reactant[below]{\chemname{\chemfig{-[::-30](-[::-60])=^[::60]>[::-60](-[::90,1.2])-[::30,1.2](-[::120,1.2](-[::-60])-[::0])<:[::-30]COOH}}{\iupac{\trans\-chrysanthemum acid}} + } + \merge{target_one}{start_left}{start_center} + \merge[\ch{NaOCH3}]{target_two}{target_one}{start_right} + \end{rxnscheme} +\end{beispiel} + +\end{document}
\ No newline at end of file diff --git a/obsolete/macros/latex/contrib/mychemistry/mychemistry.sty b/obsolete/macros/latex/contrib/mychemistry/mychemistry.sty new file mode 100644 index 0000000000..089ac37b85 --- /dev/null +++ b/obsolete/macros/latex/contrib/mychemistry/mychemistry.sty @@ -0,0 +1,1557 @@ +% -------------------------------------------------------------------------- +% the MYCHEMISTRY package +% +% create reaction schemes with LaTeX and chemfig +% +% -------------------------------------------------------------------------- +% Clemens Niederberger +% Web: https://www.bitbucket.org/cgnieder/mychemistry +% E-Mail: contact@mychemistry.eu +% -------------------------------------------------------------------------- +% If you have any ideas, questions, suggestions or bugs to report, please +% feel free to contact me. +% -------------------------------------------------------------------------- +% Copyright 2011--2012 Clemens Niederberger +% +% This work may be distributed and/or modified under the +% conditions of the LaTeX Project Public License, either version 1.3 +% of this license or (at your option) any later version. +% The latest version of this license is in +% http://www.latex-project.org/lppl.txt +% and version 1.3 or later is part of all distributions of LaTeX +% version 2005/12/01 or later. +% +% This work has the LPPL maintenance status `maintained'. +% +% The Current Maintainer of this work is Clemens Niederberger. +% +% This work consists of the files mychemistrysty, mychemistry_en.tex, +% README and the derived file mychemistry_en.pdf. +% -------------------------------------------------------------------------- +\ProvidesPackage{mychemistry}[2012/12/19 v1.99b create reaction schemes with LaTeX and chemfig] +\RequirePackage{etoolbox,float,xkeyval,chemfig,chemmacros} +\usetikzlibrary{ + arrows, + positioning, + decorations.pathmorphing, + shapes, + calc, + matrix, + chains, + scopes, + intersections} + +% -------------------------------------------------------------------------- +% Tools +\newif\ifmCh@strict +\newif\ifmCh@draft +\def\mCh@if@strict{% + \ifmCh@strict\expandafter\@firstoftwo\else\expandafter\@secondoftwo\fi} + +\def\mCh@error#1#2{% + \mCh@if@strict + {\PackageError{mychemistry}{#1}{#2}} + {\PackageWarning{mychemistry}{#1}{#2}}} + +\def\mCh@strict@error#1#2{% + \begingroup + \mCh@stricttrue + \mCh@error{#1}{#2}% + \endgroup} + +\def\mCh@def#1{% + \ifdef{#1}{% + \mCh@strict@error{already defined}{mychemistry tries to define \string#1 but + it seems it is already defined. Please contact the author.}% + \@gobble + }{\def#1}} + +% "variablen" definieren +\mCh@def\mCh@strip@bs{\expandafter\@gobble\string} +\mCh@def\mCh@ifis@variable#1#2#3{% + \ifcsdef{mCh@variable@\mCh@strip@bs#1} + {#2} + {\mCh@error{variable \string#1 undefined}{}#3}} +\mCh@def\mCh@new@variable#1{% + \ifcsdef{mCh@variable@\mCh@strip@bs#1} + {\mCh@error{variable \string#1 already defined. I'm doing nothing!}{}} + {\csdef{mCh@variable@\mCh@strip@bs#1}{}\csdef{mCh@\mCh@strip@bs#1}{}}} +\mCh@def\mCh@set@variable#1#2{% + \mCh@ifis@variable{#1}{\csdef{mCh@\mCh@strip@bs#1}{#2}}{\@gobble}} +\mCh@def\mCh@xset@variable#1#2{% + \mCh@ifis@variable{#1}{\csedef{mCh@\mCh@strip@bs#1}{#2}}{\@gobble}} +\mCh@def\mCh@clear@variable#1{% + \mCh@ifis@variable{#1}{\csdef{mCh@\mCh@strip@bs#1}{}}{}} +\mCh@def\mCh@let@variable#1#2{% + \mCh@ifis@variable{#1}{\mCh@ifis@variable{#2} + {\csletcs{mCh@\mCh@strip@bs#1}{mCh@\mCh@strip@bs#2}}{}}{}} +\mCh@def\mCh@empty@variable#1{% + \mCh@ifis@variable{#1}{\cslet{mCh@\mCh@strip@bs#1}\@empty}{}} +\mCh@def\mCh@ifeq@variable#1#2#3#4{% + \mCh@ifis@variable{#1}{\mCh@ifis@variable{#2} + {\ifcsequal{mCh@\mCh@strip@bs#1}{mCh@\mCh@strip@bs#2}{#3}{#4}}{}}{}} +\mCh@def\mCh@ifempty@variable#1#2#3{% + \ifcsequal{mCh@\mCh@strip@bs#1}{@empty}{#2}{#3}} + +\mCh@new@variable\true +\mCh@new@variable\false + +\mCh@set@variable\true{true} +\mCh@set@variable\false{false} + +% Optional Argument Analysis +% is #2 part of #1? (inspired by \CF@if@instr by Christian Tellechea) +\mCh@def\mCh@if@instr#1#2{% + \def\mCh@if@instr@i##1#2##2\@nil{% + \ifstrempty{##2}{\@secondoftwo}{\@firstoftwo}}% + \mCh@if@instr@i#1\@@nil#2\@nil +} + +\mCh@new@variable\firstarg +\mCh@new@variable\secondarg +\mCh@new@variable\thirdarg + +% Am ersten , splitten, #1 in #3 speichern, #2 in \mCh@remainargs +% (das Makro ist eine Kopie von \CF@analyze@movearg in chemfig.tex von Christian Tellechea) +\mCh@def\mCh@splitfirst#1,#2\@nil#3{% + \def#3{#1}\def\mCh@remainargs{#2}% +} + +% ein durch , in 3 Teile getrenntes Argument splitten +% (das Makro ist eine Abwandlung von \CF@analyze@movearg in chemfig.tex von Christian Tellechea) +\mCh@def\mCh@splitarg#1{% + \mCh@if@instr{#1}{,} + {\expandafter\mCh@splitfirst#1\@nil\mCh@firstarg} + {\mCh@set@variable\firstarg{#1}}% + \expandafter\mCh@if@instr\expandafter{\mCh@remainargs}{,} + {\expandafter\mCh@splitfirst\mCh@remainargs\@nil\mCh@secondarg}{\expandafter\mCh@set@variable\expandafter\secondarg\expandafter{\mCh@remainargs}}% + \ifx\mCh@remainargs\mCh@secondarg + \mCh@empty@variable\thirdarg + \else + \expandafter\mCh@set@variable\expandafter\thirdarg\expandafter{\mCh@remainargs}% + \fi +} + +% -------------------------------------------------------------------------- +% options +\define@key[MC]{mychemistry.sty}{strict}{\mCh@stricttrue} +\DeclareOptionX[MC]{strict}{\mCh@stricttrue} + +\define@key[MC]{mychemistry.sty}{draft}{\mCh@stricttrue\mCh@drafttrue} +\DeclareOptionX[MC]{draft}{\mCh@stricttrue\mCh@drafttrue} + +\define@key[MC]{mychemistry.sty}{final}{\mCh@strictfalse\mCh@draftfalse} +\DeclareOptionX[MC]{final}{\mCh@strictfalse\mCh@draftfalse} + +\mCh@new@variable\rs@placement +\mCh@new@variable\rs@currentplacement + +\mCh@set@variable\rs@placement{hpt} +\mCh@let@variable\rs@currentplacement\rs@placement + +\define@key[MC]{mychemistry.sty}{placement}{% + \mCh@set@variable\rs@placement{#1}} + +\ProcessOptionsX[MC] + +% -------------------------------------------------------------------------- +% language settings +\mCh@new@variable\rs@name +\mCh@set@variable\rs@name{Reaction scheme} + +\RequirePackage{translations} +\NewTranslation{English} {reaction-scheme-(caption-title)} {Reaction scheme} +\NewTranslation{French} {reaction-scheme-(caption-title)} {Sch\'{e}ma r\'{e}actionnel} +\NewTranslation{German} {reaction-scheme-(caption-title)} {Reaktionsschema} +\NewTranslation{Italian} {reaction-scheme-(caption-title)} {Reazione Scheme} +\NewTranslation{Spanish} {reaction-scheme-(caption-title)} {Esquema de Reacci\'{o}n} +\mCh@set@variable\rs@name{\GetTranslation{reaction-scheme-(caption-title)}} + + +% -------------------------------------------------------------------------- +% Direction Analysis +% Richtungen: +\mCh@new@variable\r +\mCh@new@variable\ar +\mCh@new@variable\a +\mCh@new@variable\al +\mCh@new@variable\l +\mCh@new@variable\br +\mCh@new@variable\b +\mCh@new@variable\bl + +\mCh@set@variable\r{right} +\mCh@set@variable\ar{above right} +\mCh@set@variable\a{above} +\mCh@set@variable\al{above left} +\mCh@set@variable\l{left} +\mCh@set@variable\br{below right} +\mCh@set@variable\b{below} +\mCh@set@variable\bl{below left} + +\mCh@new@variable\vert@i +\mCh@new@variable\vert@ii +\mCh@new@variable\vert@iii + +\mCh@set@variable\vert@i{90} +\mCh@set@variable\vert@ii{-90} +\mCh@set@variable\vert@iii{270} + +% Richtung in Bezug auf node oder nicht? +\mCh@new@variable\direction + +\mCh@def\mCh@split@angle#1.#2\@nil#3{% + \def#3{#1}\mCh@set@variable\direction{#2}} +\mCh@def\mCh@wowo@node#1{% + \mCh@if@instr{#1}{.} + {\expandafter\mCh@split@angle#1\@nil\mCh@referred@node} + {\mCh@set@variable\direction{#1}}} + +% Winkel bestimmen: +\mCh@new@variable\angle +\mCh@new@variable\referred@node + +\mCh@def\mCh@analyze@angle#1{% + \mCh@empty@variable\angle + \mCh@empty@variable\referred@node + \mCh@wowo@node{#1}% + \mCh@ifeq@variable\direction\r {\mCh@set@variable\angle{0}}{}% + \mCh@ifeq@variable\direction\ar {\mCh@set@variable\angle{45}}{}% + \mCh@ifeq@variable\direction\a {\mCh@set@variable\angle{90}}{}% + \mCh@ifeq@variable\direction\al {\mCh@set@variable\angle{135}}{}% + \mCh@ifeq@variable\direction\l {\mCh@set@variable\angle{180}}{}% + \mCh@ifeq@variable\direction\bl {\mCh@set@variable\angle{225}}{}% + \mCh@ifeq@variable\direction\b {\mCh@set@variable\angle{270}}{}% + \mCh@ifeq@variable\direction\br {\mCh@set@variable\angle{315}}{}% + \mCh@ifempty@variable\angle{% + \pgfmathparse{\mCh@direction <0 ? int(\mCh@direction+360) : int(\mCh@direction) }% + \mCh@xset@variable\angle{\pgfmathresult}% + }{}% +} +% -------------------------------------------------------------------------- +% PFEILE +% \arrow[<pos>,<type>,<length factor>,<name>,both,<tikz>]{<above>}{<below>} +% Pfeiltypen: +\mCh@new@variable\arrow@type@def +\mCh@new@variable\arrow@type@eqv +\mCh@new@variable\arrow@type@back +\mCh@new@variable\arrow@type@eq +\mCh@new@variable\arrow@type@eqq +\mCh@new@variable\arrow@type@eeq +\mCh@new@variable\arrow@type@not +\mCh@new@variable\arrow@type@pm + +\mCh@set@variable\arrow@type@def{->} +\mCh@set@variable\arrow@type@eqv{<->} +\mCh@set@variable\arrow@type@back{<-} +\mCh@set@variable\arrow@type@eq{<=>} +\mCh@set@variable\arrow@type@eqq{<=>>} +\mCh@set@variable\arrow@type@eeq{<<=>} +\mCh@set@variable\arrow@type@not{-|>} +\mCh@set@variable\arrow@type@pm{-+>} + +% Voreinstellungen +% Pfeillänge +\mCh@new@variable\arrow@length@def +\mCh@new@variable\arrow@length +\mCh@new@variable\arrow@factor + +\mCh@set@variable\arrow@length@def{4em} +\let\mCh@arrow@length\mCh@arrow@length@def +\mCh@set@variable\arrow@factor{1} + +\newrobustcmd\setarrowlength[1]{% + \ifblank{#1} + {\mCh@let@variable\arrow@length\arrow@length@def} + {\mCh@set@variable\arrow@length{#1}}} + +% Label-Abstand +\mCh@new@variable\arrow@label@dist@def +\mCh@new@variable\arrow@label@dist + +\mCh@set@variable\arrow@label@dist@def{.2em} +\mCh@let@variable\arrow@label@dist\arrow@label@dist@def + +\newrobustcmd\setarrowlabel[1]{% + \ifblank{#1} + {\mCh@let@variable\arrow@label@dist\arrow@label@dist@def} + {\mCh@set@variable\arrow@label@dist{#1}}} + +% Pfeildicke +\mCh@new@variable\arrow@linethickness@default +\mCh@new@variable\arrow@linethickness + +\mCh@set@variable\arrow@linethickness@default{semithick} +\mCh@let@variable\arrow@linethickness\arrow@linethickness@default + +\newrobustcmd\setarrowline[1]{% + \ifblank{#1} + {\mCh@let@variable\arrow@linethickness\arrow@linethickness@default} + {\mCh@set@variable\arrow@linethickness{#1}}} + +% Winkel untersuchen, um Label richtig anzubringen +\mCh@new@variable\beta +\mCh@new@variable\arrow@label@anchor@up +\mCh@new@variable\arrow@label@anchor@down +\mCh@new@variable\arrow@label@anchor@add +\mCh@new@variable\arrow@label@anchor@sub +\newcount\mCh@alpha + +\mCh@def\mCh@evaluate@angle#1{ + \mCh@alpha=#1 + \pgfmathparse{cos(\mCh@alpha) > 0} + \ifnum\pgfmathresult=1 + \mCh@set@variable\beta{#1}% + \mCh@set@variable\arrow@label@anchor@up{south}% + \mCh@set@variable\arrow@label@anchor@down{north}% + \ifnum\mCh@alpha<180 + \mCh@set@variable\arrow@label@anchor@add{east}% + \mCh@set@variable\arrow@label@anchor@sub{south}% + \else + \mCh@set@variable\arrow@label@anchor@add{south}% + \mCh@set@variable\arrow@label@anchor@sub{west}% + \fi + \else + \pgfmathparse{cos(\mCh@alpha) == 0}% + \ifnum\pgfmathresult=1 + \mCh@set@variable\beta{0}% + \ifnum\mCh@alpha=90 + \mCh@set@variable\arrow@label@anchor@up{east}% + \mCh@set@variable\arrow@label@anchor@down{west}% + \mCh@set@variable\arrow@label@anchor@add{east}% + \mCh@set@variable\arrow@label@anchor@sub{east}% + \else + \mCh@set@variable\arrow@label@anchor@up{west}% + \mCh@set@variable\arrow@label@anchor@down{east}% + \mCh@set@variable\arrow@label@anchor@add{west}% + \mCh@set@variable\arrow@label@anchor@sub{west}% + \fi + \else + \mCh@set@variable\arrow@label@anchor@up{north}% + \mCh@set@variable\arrow@label@anchor@down{south}% + \ifnum\mCh@alpha=180 + \mCh@set@variable\beta{180-#1}% + \mCh@set@variable\arrow@label@anchor@add{north}% + \mCh@set@variable\arrow@label@anchor@sub{north}% + \fi + \ifnum\mCh@alpha>180 + \mCh@set@variable\beta{180+#1}% + \mCh@set@variable\arrow@label@anchor@add{west}% + \mCh@set@variable\arrow@label@anchor@sub{north}% + \fi + \ifnum\mCh@alpha<180 + \mCh@set@variable\beta{180+#1}% + \mCh@set@variable\arrow@label@anchor@add{north}% + \mCh@set@variable\arrow@label@anchor@sub{east}% + \fi + \fi + \fi +} + +% Maße der Nodes der Pfeilargumente bestimmen, größere später an Pfeil weitergeben +\mCh@new@variable\arrow@both +\mCh@set@variable\arrow@both{both} + +\newlength{\mCh@height@A} +\newlength{\mCh@height@B} +\newlength{\mCh@arrow@label@height} +\newlength{\mCh@width@A} +\newlength{\mCh@width@B} +\newlength{\mCh@arrow@label@width} + +\mCh@def\mCh@savenode{% + \global\let\mCh@minx=\pgfpositionnodelaterminx + \global\let\mCh@maxx=\pgfpositionnodelatermaxx + \global\let\mCh@miny=\pgfpositionnodelaterminy + \global\let\mCh@maxy=\pgfpositionnodelatermaxy +} + +% der nächste Befehl benötigt pgf v2.10! +\mCh@def\mCh@largernode#1#2{% + \ifdef\pgfpositionnodelater{% + \pgfpositionnodelater{\mCh@savenode}% + \node{#1}; + \deflength{\mCh@width@A}{\mCh@maxx-\mCh@minx}% + \deflength{\mCh@height@A}{\mCh@maxy-\mCh@miny}% + \node{#2}; + \deflength{\mCh@width@B}{\mCh@maxx-\mCh@minx}% + \deflength{\mCh@height@B}{\mCh@maxy-\mCh@miny}% + \pgfmathsetlength{\mCh@arrow@label@width}{max(\mCh@width@A,\mCh@width@B)}% + \pgfmathsetlength{\mCh@arrow@label@height}{max(\mCh@height@A,\mCh@height@B)}% + \global\mCh@arrow@label@width=\mCh@arrow@label@width + \global\mCh@arrow@label@height=\mCh@arrow@label@height + }{% + \mCh@error{% + The command \string\pgfpositionnodelater\space is undefined. Make sure, + you have installed the latest version of pgf}{}% + }% +} + +% Pfeil zeichnen: +\newrobustcmd\mCh@arrow[3][]{% + \ifstrempty{#1} + {\mCh@arrow@i}{\mCh@arrow@ii[#1]} + {#2}{#3}} + +\mCh@def\mCh@arrow@i#1#2{% + \node[on chain=going {at=(\tikzchainprevious.0)}, + minimum size=0, + inner sep=3pt, + outer sep=0, + anchor=180, + shift=(0:.5*\mCh@rxn@node@distance)] (@mCh@arrow@start){}; + \node[on chain=going {at=(\tikzchainprevious.0), + shift=($(0:.5*\mCh@arrow@factor*\mCh@arrow@length)$)}, + minimum size=0, + inner sep=3pt, + outer sep=0] (@mCh@arrow@end){}; + \draw[-mCtip,\mCh@arrow@linethickness] + let \n1={0}, \n2={180} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](mCh@arrow@center){} + ++($(0:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\node\expandafter[\mCh@arrow@uplabel@visible, + rotate=0, + anchor=south, + inner sep=0] + at ($(mCh@arrow@center)!\mCh@arrow@label@dist!90:(@mCh@arrow@end)$){#1}; + \expandafter\node\expandafter[\mCh@arrow@downlabel@visible, + rotate=0, + anchor=north, + inner sep=0] + at ($(mCh@arrow@center)!\mCh@arrow@label@dist!-90:(@mCh@arrow@end)$){#2}; +} + +\mCh@new@variable\arrow@plusminus +\mCh@new@variable\anchor +\mCh@new@variable\arrow@tikz +\mCh@new@variable\arrow@type@valid +\mCh@new@variable\arrow@type +\mCh@new@variable\arrow@type@actual +\mCh@new@variable\arrow@name + +\mCh@def\mCh@arrow@ii[#1]#2#3{% + \mCh@empty@variable\arrow@plusminus + \mCh@empty@variable\arrow@type + \let\mCh@remainargs\@empty + \mCh@splitarg{#1}% + \mCh@ifempty@variable\firstarg{% erste Option: Richtung + \mCh@set@variable\angle{0}% + \mCh@set@variable\beta{0}% + \mCh@set@variable\arrow@label@anchor@up{south}% + \mCh@set@variable\arrow@label@anchor@down{north}% + \mCh@set@variable\arrow@label@anchor@add{south}% + \mCh@set@variable\arrow@label@anchor@sub{south}% + \mCh@set@variable\anchor{180}% + \mCh@empty@variable\referred@node + }{% + \expandafter\mCh@analyze@angle\expandafter{\mCh@firstarg}% + \mCh@set@variable\anchor{180+\mCh@angle}% + \mCh@evaluate@angle{\mCh@angle}% + } + \mCh@ifempty@variable\referred@node{% + \mCh@set@variable\referred@node{\tikzchainprevious}% + }{}% + \mCh@ifempty@variable\secondarg{}{% zweite Option: Typ + \mCh@set@variable\arrow@type{true} + \mCh@let@variable\arrow@type@actual\secondarg + }% + \let\mCh@remainargs\@empty% + \expandafter\mCh@splitarg\expandafter{\mCh@thirdarg}% + \mCh@ifempty@variable\firstarg{% dritte Option: Längenfaktor + \mCh@set@variable\arrow@factor{1}% + }{% + \mCh@xset@variable\arrow@factor{\mCh@firstarg}% + }% + \mCh@ifempty@variable\secondarg{% vierte Option: Name + \mCh@set@variable\arrow@name{mCh@arrow@center}% + }{% + \mCh@xset@variable\arrow@name{\mCh@secondarg}% + }% + \let\mCh@remainargs\@empty% + \expandafter\mCh@splitarg\expandafter{\mCh@thirdarg}% + \mCh@ifeq@variable\arrow@both\firstarg% fünfte Option: both + {{\mCh@largernode{#2}{#3}}}% + {% + \deflength{\mCh@arrow@label@width}{0pt}% + \deflength{\mCh@arrow@label@height}{0pt}% + }% + \mCh@ifempty@variable\secondarg{% sechste Option: tikz + \mCh@empty@variable\arrow@tikz + }{% + \mCh@xset@variable\arrow@tikz{\mCh@secondarg,\mCh@thirdarg}% + }% + \node[on chain=going {at=(\mCh@referred@node.\mCh@angle)}, + minimum size=0, + inner sep=3pt, + outer sep=0, + anchor=\mCh@anchor, + shift=(\mCh@angle:.5*\mCh@rxn@node@distance)] (@mCh@arrow@start){}; + \node[on chain=going {at=(\tikzchainprevious.\mCh@angle), + shift=($(\mCh@angle:.5*\mCh@arrow@factor*\mCh@arrow@length)$)}, + minimum size=0, + inner sep=3pt, + outer sep=0] (@mCh@arrow@end){}; + \mCh@ifeq@variable\arrow@type\true{% + \mCh@let@variable\arrow@type@valid\false + \mCh@ifeq@variable\arrow@type@actual\arrow@type@eq{% <=> + \mCh@let@variable\arrow@type@valid\true + \expandafter\draw\expandafter[\mCh@arrow@tikz, + -mChtip, + \mCh@arrow@linethickness] + let \n1={20+\mCh@angle}, \n2={160+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](mCh@arrow@center@up){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\draw\expandafter[\mCh@arrow@tikz, + mChtip-, + \mCh@arrow@linethickness] + let \n1={-20+\mCh@angle}, \n2={200+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](mCh@arrow@center@down){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \draw[draw=none] + let \n1={\mCh@angle}, \n2={180+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](\mCh@arrow@name){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\node\expandafter[\mCh@arrow@uplabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@up, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height, + inner sep=0] + at ($(mCh@arrow@center@up)!\mCh@arrow@label@dist!90:(@mCh@arrow@end)$){#2}; + \expandafter\node[\expandafter\mCh@arrow@downlabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@down, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height, + inner sep=0] + at ($(mCh@arrow@center@down)!\mCh@arrow@label@dist!-90:(@mCh@arrow@end)$){#3}; + }{}% + \mCh@ifeq@variable\arrow@type@actual\arrow@type@eqq{% <=>> + \mCh@let@variable\arrow@type@valid\true + \expandafter\draw\expandafter[\mCh@arrow@tikz, + -mChtip, + \mCh@arrow@linethickness] + let \n1={20+\mCh@angle}, \n2={160+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](mCh@arrow@center@up){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\draw\expandafter[\mCh@arrow@tikz, + mChtip-, + \mCh@arrow@linethickness] + let \n1={-20+\mCh@angle} + in ($(@mCh@arrow@start.\n1)+(\mCh@angle:.25*\mCh@arrow@factor*\mCh@arrow@length)$) + --node[pos=.5,inner sep=0](mCh@arrow@center@down){} + ++($(\mCh@angle:.5*\mCh@arrow@factor*\mCh@arrow@length)$); + \draw[draw=none] let \n1={\mCh@angle}, \n2={180+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](\mCh@arrow@name){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\node\expandafter[\mCh@arrow@uplabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@up, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height, + inner sep=0] + at ($(mCh@arrow@center@up)!\mCh@arrow@label@dist!90:(@mCh@arrow@end)$){#2}; + \expandafter\node\expandafter[\mCh@arrow@downlabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@down, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height, + inner sep=0] + at ($(mCh@arrow@center@down)!\mCh@arrow@label@dist!-90:(@mCh@arrow@end)$){#3}; + }{}% + \mCh@ifeq@variable\arrow@type@actual\arrow@type@eeq{% <<=> + \mCh@let@variable\arrow@type@valid\true + \expandafter\draw\expandafter[\mCh@arrow@tikz, + -mChtip, + \mCh@arrow@linethickness] + let \n1={20+\mCh@angle}, \n2={160+\mCh@angle} + in ($(@mCh@arrow@start.\n1)+(\mCh@angle:.25*\mCh@arrow@factor*\mCh@arrow@length)$) + --node[pos=.5,inner sep=0](mCh@arrow@center@up){} + ++($(\mCh@angle:.5*\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\draw\expandafter[\mCh@arrow@tikz, + mChtip-, + \mCh@arrow@linethickness] + let \n1={-20+\mCh@angle}, \n2={200+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](mCh@arrow@center@down){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \draw[draw=none] + let \n1={\mCh@angle}, \n2={180+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](\mCh@arrow@name){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\node\expandafter[\mCh@arrow@uplabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@up, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height, + inner sep=0] + at ($(mCh@arrow@center@up)!\mCh@arrow@label@dist!90:(@mCh@arrow@end)$){#2}; + \expandafter\node\expandafter[\mCh@arrow@downlabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@down, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height, + inner sep=0] + at ($(mCh@arrow@center@down)!\mCh@arrow@label@dist!-90:(@mCh@arrow@end)$){#3}; + }{}% + \mCh@ifeq@variable\arrow@type@actual\arrow@type@def{% -> + \mCh@let@variable\arrow@type@valid\true + \expandafter\draw\expandafter[\mCh@arrow@tikz, + -mCtip, + \mCh@arrow@linethickness, + \mCh@arrow@tikz] + let \n1={\mCh@angle}, \n2={180+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](\mCh@arrow@name){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\node\expandafter[\mCh@arrow@uplabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@up, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height] + at ($(\mCh@arrow@name)!\mCh@arrow@label@dist!90:(@mCh@arrow@end)$){#2}; + \expandafter\node\expandafter[\mCh@arrow@downlabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@down, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height] + at ($(\mCh@arrow@name)!\mCh@arrow@label@dist!-90:(@mCh@arrow@end)$){#3}; + }{}% + \mCh@ifeq@variable\arrow@type@actual\arrow@type@eqv{% <-> + \mCh@let@variable\arrow@type@valid\true + \expandafter\draw\expandafter[\mCh@arrow@tikz, + mCtip-mCtip, + \mCh@arrow@linethickness] + let \n1={\mCh@angle}, \n2={180+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](\mCh@arrow@name){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\node\expandafter[\mCh@arrow@uplabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@up, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height,inner sep=0] + at ($(\mCh@arrow@name)!\mCh@arrow@label@dist!90:(@mCh@arrow@end)$){#2}; + \expandafter\node\expandafter[\mCh@arrow@downlabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@down, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height,inner sep=0] + at ($(\mCh@arrow@name)!\mCh@arrow@label@dist!-90:(@mCh@arrow@end)$){#3}; + }{}% + \mCh@ifeq@variable\arrow@type@actual\arrow@type@back{% <- + \mCh@let@variable\arrow@type@valid\true + \expandafter\draw\expandafter[\mCh@arrow@tikz, + mCtip-, + \mCh@arrow@linethickness] + let \n1={\mCh@angle}, \n2={180+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](\mCh@arrow@name){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\node\expandafter[\mCh@arrow@uplabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@up, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height, + inner sep=0] at ($(\mCh@arrow@name)!\mCh@arrow@label@dist!90:(@mCh@arrow@end)$){#2}; + \expandafter\node\expandafter[\mCh@arrow@downlabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@down, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height, + inner sep=0] + at ($(\mCh@arrow@name)!\mCh@arrow@label@dist!-90:(@mCh@arrow@end)$){#3}; + }{}% + \mCh@ifeq@variable\arrow@type@actual\arrow@type@not{% -|> + \mCh@let@variable\arrow@type@valid\true + \expandafter\draw\expandafter[\mCh@arrow@tikz, + -mCtip, + \mCh@arrow@linethickness] + let \n1={\mCh@angle}, \n2={180+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](\mCh@arrow@name){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\node\expandafter[\mCh@arrow@uplabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@up, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height, + inner sep=0] at ($(\mCh@arrow@name)!.8em!90:(@mCh@arrow@end)$){#2}; + \expandafter\node\expandafter[\mCh@arrow@downlabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@down, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height,inner sep=0] + at ($(\mCh@arrow@name)!.8em!-90:(@mCh@arrow@end)$){#3}; + \draw ($(mCh@arrow@center)!.6em!-110:(@mCh@arrow@end)+(\mCh@angle:.1em)$) + --($(mCh@arrow@center)!.6em!70:(@mCh@arrow@end)+(\mCh@angle:.1em)$); + \draw ($(mCh@arrow@center)!.6em!-110:(@mCh@arrow@end)+(180+\mCh@angle:.1em)$) + --($(mCh@arrow@center)!.6em!70:(@mCh@arrow@end)+(180+\mCh@angle:.1em)$); + }{}% + \mCh@ifeq@variable\arrow@type@actual\arrow@type@pm{% -+> + \mCh@let@variable\arrow@type@valid\true + \mCh@let@variable\arrow@plusminus\true + \draw[-mCtip,\mCh@arrow@linethickness] + let \n1={\mCh@angle}, \n2={180+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](\mCh@arrow@name){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + }{}% + \mCh@ifeq@variable\arrow@type@valid\false + {\mCh@error{Unknown arrow type `\mCh@arrow@type@actual'}{}}{}% + }{% default: -> + \expandafter\draw\expandafter[\mCh@arrow@tikz, + -mCtip, + \mCh@arrow@linethickness] + let \n1={\mCh@angle}, \n2={180+\mCh@angle} + in (@mCh@arrow@start.\n1) --node[pos=.5,inner sep=0](\mCh@arrow@name){} + ++($(\mCh@angle:\mCh@arrow@factor*\mCh@arrow@length)$); + \expandafter\node\expandafter[\mCh@arrow@uplabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@up, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height,inner sep=0] + at ($(\mCh@arrow@name)!\mCh@arrow@label@dist!90:(@mCh@arrow@end)$){#2}; + \expandafter\node\expandafter[\mCh@arrow@downlabel@visible, + rotate=\mCh@beta, + anchor=\mCh@arrow@label@anchor@down, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height,inner sep=0] + at ($(\mCh@arrow@name)!\mCh@arrow@label@dist!-90:(@mCh@arrow@end)$){#3}; + }% + \mCh@ifempty@variable\arrow@plusminus{}{% + \ifstrempty{#2}{}{% + \draw (\mCh@arrow@name.base) edge[bend left] + ++(${0.6667}*(146.3+\mCh@angle:.5*\mCh@arrow@factor*\mCh@arrow@length)$); + \node[anchor=\mCh@arrow@label@anchor@add, + inner sep=\mCh@arrow@label@dist, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height] + at ($(\mCh@arrow@name.base)+{0.6667}*(146.3+\mCh@angle:.5*\mCh@arrow@factor*\mCh@arrow@length)$) {#2}; + }% + \ifstrempty{#3}{}{% + \draw (\mCh@arrow@name.base) edge[bend right,-mCtip] + ++(${0.6667}*(33.7+\mCh@angle:.5*\mCh@arrow@factor*\mCh@arrow@length)$); + \node[anchor=\mCh@arrow@label@anchor@sub, + inner sep=\mCh@arrow@label@dist, + minimum width=\mCh@arrow@label@width, + minimum height=\mCh@arrow@label@height] + at ($(\mCh@arrow@name.base)+{0.6667}*(33.7+\mCh@angle:.5*\mCh@arrow@factor*\mCh@arrow@length)$) {#3}; + }% + }% + \mCh@set@variable\arrow@factor{1}% +} + +% eigene Pfeilspitze ------------------------------------------------------------------ % +\pgfarrowsdeclare{mCtip}{mCtip} + {% + \arrowsize=0.2pt + \advance\arrowsize by .5\pgflinewidth + \pgfarrowsleftextend{-4\arrowsize-.5\pgflinewidth}% + \pgfarrowsrightextend{.5\pgflinewidth}% + } + {% + \pgfsetdash{}{0pt}% do not dash + \pgfsetroundjoin% fix join + \pgfsetroundcap% fix cap + \pgfpathmoveto{\pgfpointorigin}% + \pgfpathlineto{\pgfpoint{-3pt}{1pt}}% + \pgfpathlineto{\pgfpoint{-1.5pt}{0pt}}% + \pgfpathlineto{\pgfpoint{-3pt}{-1pt}}% + \pgfpathlineto{\pgfpoint{0pt}{0pt}}% + \pgfusepathqfillstroke + } + +\pgfarrowsdeclare{mChtip}{mChtip} + {% + \arrowsize=0.2pt + \advance\arrowsize by .5\pgflinewidth + \pgfarrowsleftextend{-4\arrowsize-.5\pgflinewidth}% + \pgfarrowsrightextend{.5\pgflinewidth}% + } + {% + \pgfsetdash{}{0pt}% do not dash + \pgfsetroundjoin% fix join + \pgfsetroundcap% fix cap + \pgfpathmoveto{\pgfpoint{0pt}{0pt}}% + \pgfpathlineto{\pgfpoint{-3pt}{1pt}}% + \pgfpathlineto{\pgfpoint{-1.5pt}{0pt}}% + \pgfpathlineto{\pgfpoint{0pt}{0pt}}% + \pgfusepathqfillstroke + } + +% -------------------------------------------------------------------------- +% MERGE +% \merge[<label>,<pos>,<length>]{<target>}{<start a>}{<start b>} +\mCh@new@variable\merge@length +\mCh@new@variable\merge@length@default +\mCh@new@variable\merge@length@value +\mCh@new@variable\merge@arg +\mCh@new@variable\merge@to +\mCh@new@variable\merge@from@one +\mCh@new@variable\merge@from@two + +\mCh@set@variable\merge@length@default{3em} +\mCh@let@variable\merge@length@value\merge@length@default + +% Basisbefehle +\mCh@def\mCh@merge@right{% + \draw[mCtip-,\mCh@arrow@linethickness] + ($(\mCh@merge@to.west)+(-\mCh@rxn@node@distance,0)$) + --node[midway,above,yshift=.1em]{\mCh@merge@arg} + ++(-\mCh@merge@length,0) node(crossing) {}; + \draw[\mCh@arrow@linethickness] + ($(\mCh@merge@from@one.east)+(\mCh@rxn@node@distance,0)$) -| (crossing.base); + \draw[\mCh@arrow@linethickness] + ($(\mCh@merge@from@two.east)+(\mCh@rxn@node@distance,0)$) -| (crossing.base); +} + +\mCh@def\mCh@merge@above{% + \draw[mCtip-,\mCh@arrow@linethickness] + ($(\mCh@merge@to.south)+(0,-\mCh@rxn@node@distance)$) + --node[midway,right,xshift=.1em]{\mCh@merge@arg} + ++(0,-\mCh@merge@length) node(crossing) {}; + \draw[\mCh@arrow@linethickness] + (crossing.base) -| ($(\mCh@merge@from@one.north)+(0,\mCh@rxn@node@distance)$); + \draw[\mCh@arrow@linethickness] + (crossing.base) -| ($(\mCh@merge@from@two.north)+(0,\mCh@rxn@node@distance)$); +} + +\mCh@def\mCh@merge@left{% + \draw[mCtip-,\mCh@arrow@linethickness] + ($(\mCh@merge@to.east)+(\mCh@rxn@node@distance,0)$) + --node[midway,above,yshift=.1em]{\mCh@merge@arg} + ++(\mCh@merge@length,0) node(crossing) {}; + \draw[\mCh@arrow@linethickness] + ($(\mCh@merge@from@one.west)+(-\mCh@rxn@node@distance,0)$) -| (crossing.base); + \draw[\mCh@arrow@linethickness] + ($(\mCh@merge@from@two.west)+(-\mCh@rxn@node@distance,0)$) -| (crossing.base); +} + +\mCh@def\mCh@merge@below{% + \draw[mCtip-,\mCh@arrow@linethickness] + ($(\mCh@merge@to.north)+(0,\mCh@rxn@node@distance)$) + --node[midway,right,xshift=.1em]{\mCh@merge@arg} + ++(0,\mCh@merge@length) node(crossing) {}; + \draw[\mCh@arrow@linethickness] + (crossing.base) -| ($(\mCh@merge@from@one.south)+(0,-\mCh@rxn@node@distance)$); + \draw[\mCh@arrow@linethickness] + (crossing.base) -| ($(\mCh@merge@from@two.south)+(0,-\mCh@rxn@node@distance)$); +} + +% eigentlicher Befehl ----------------------------------------------------------------- % +\newrobustcmd\mCh@merge[4][]{% + \ifblank{#1} + {\mCh@merge@i}{\mCh@merge@ii[#1]} + {#2}{#3}{#4}} + +\mCh@def\mCh@merge@i#1#2#3{% + \mCh@let@variable\merge@length\merge@length@value + \mCh@empty@variable\merge@arg + \mCh@set@variable\merge@to{#1}% + \mCh@set@variable\merge@from@one{#2}% + \mCh@set@variable\merge@from@two{#3}% + \mCh@merge@below +} + +\mCh@def\mCh@merge@ii[#1]#2#3#4{% + \let\mCh@remainargs\@empty + \mCh@splitarg{#1}% + \mCh@ifempty@variable\firstarg + {\mCh@empty@variable\merge@arg} + {\mCh@let@variable\merge@arg\firstarg}% + \mCh@ifempty@variable\thirdarg + {\mCh@let@variable\merge@length\merge@length@value} + {\mCh@set@variable\merge@length{\mCh@thirdarg}}% + \mCh@set@variable\merge@to{#2}% + \mCh@set@variable\merge@from@one{#3}% + \mCh@set@variable\merge@from@two{#4}% + \mCh@ifempty@variable\secondarg + {\mCh@merge@below} + {\csuse{mCh@merge@\mCh@secondarg}}% +} + +\newrobustcmd\setmergelength[1]{% + \ifblank{#1} + {\mCh@let@variable\merge@length@value\merge@length@default} + {\mCh@set@variable\merge@length@value{#1}}} + +% -------------------------------------------------------------------------- +% REAKTIONSSCHEMA +\newlength\mCh@rxn@node@distance@default +\newlength\mCh@rxn@node@distance + +\deflength\mCh@rxn@node@distance@default{1em} +\deflength\mCh@rxn@node@distance{\mCh@rxn@node@distance@default} + +\newrobustcmd\setrcndist[1]{% + \ifblank{#1} + {\deflength\mCh@rxn@node@distance{\mCh@rxn@node@distance@default}} + {\deflength\mCh@rxn@node@distance{#1}}} + +% Schema +% \begin{rxnscheme}[<label>,<placement>,<align>,<scale factor>,<name>]{<caption>} +\mCh@new@variable\rs@scale +\mCh@new@variable\rs@currentscale + +\mCh@set@variable\rs@scale{1.0} +\mCh@set@variable\rs@currentscale{\mCh@rs@scale} + +\newrobustcmd\setschemename[1]{% + \mCh@set@variable\rs@name{#1}} + +\mCh@new@variable\rs@caption +\mCh@new@variable\rs@label +\mCh@new@variable\rs@currentlabel +\mCh@new@variable\rs@align +\mCh@new@variable\rs@right +\mCh@new@variable\rs@center +\mCh@new@variable\rs@left + +\mCh@let@variable\rs@currentlabel\rs@label +\mCh@set@variable\rs@align{center} +\mCh@set@variable\rs@right{right} +\mCh@set@variable\rs@center{center} +\mCh@set@variable\rs@left{left} + +\newrobustcmd\setschemealign[1]{% + \ifblank{#1} + {\mCh@set@variable\rs@align{center}} + {\mCh@set@variable\rs@align{#1}}} + +% Gleitumgebung +\floatstyle{ruled} +\newfloat{rxnfloat}{\mCh@rs@currentplacement}{rxnscheme} +\floatname{rxnfloat}{\mCh@rs@name}% Name ändern + +% eigentliche Umgebung: +\newrobustcmd\mCh@rxnscheme[2][]{% + \ifblank{#1} + {\mCh@rxnscheme@i} + {\mCh@empty@variable\rs@currentlabel\mCh@rxnscheme@ii[#1]}% + {#2}} + +\mCh@def\mCh@rxnscheme@ii[#1]#2{% [<label>,<placement>,<align>,<scale>,<name>] + \let\mCh@remainargs\@empty + \mCh@splitarg{#1}% + \mCh@ifempty@variable\firstarg% erste Option + {\mCh@empty@variable\rs@currentlabel} + {\mCh@let@variable\rs@currentlabel\firstarg}% + \mCh@ifempty@variable\secondarg% zweite Option + {\mCh@let@variable\rs@currentplacement\rs@placement} + {\mCh@let@variable\rs@currentplacement\secondarg}% + \let\mCh@remainargs\@empty + \expandafter\mCh@splitarg\expandafter{\mCh@thirdarg}% + \mCh@ifempty@variable\firstarg% dritte Option + {\mCh@set@variable\rs@align{center}} + {\mCh@let@variable\rs@align\firstarg}% + \mCh@ifempty@variable\secondarg% vierte Option + {\mCh@set@variable\rs@currentscale{1}} + {\mCh@let@variable\rs@currentscale\secondarg}% + \mCh@ifempty@variable\thirdarg{}% fünfte Option + {\mCh@let@variable\rs@name\thirdarg}% + \mCh@rxnscheme@i{#2}% +} + +\mCh@def\mCh@scheme@enable{% + \let\arrow\mCh@arrow + \let\reactant\mCh@reactant + \let\mesomeric\mCh@mesomeric + \let\transition\mCh@transition + \let\anywhere\mCh@anywhere + \let\dummy\mCh@dummy + \let\branch\mCh@branch + \let\chemand\mCh@chemand + \let\merge\mCh@merge +% \let\elmove\mCh@elmove +} + +\mCh@def\mCh@scheme@disable{% + \let\arrow\relax + \let\reactant\relax + \let\mesomeric\relax + \let\transition\relax + \let\anywhere\relax + \let\dummy\relax + \let\branch\relax + \let\chemand\relax + \let\merge\relax +% \let\elmove\relax +} + +\mCh@def\mCh@rxnscheme@i#1{% + \mCh@scheme@enable + \mCh@set@variable\rs@caption{#1}% + \rxnfloat + \mCh@ifeq@variable\rs@align\rs@center{\centering}{}% + \mCh@ifeq@variable\rs@align\rs@left{\raggedright}{}% + \mCh@ifeq@variable\rs@align\rs@right{\raggedleft}{}% + \mCh@atomsize\mCh@bondlength\mCh@bondshape + \tikzpicture[ + every picture/.style={scale=\mCh@rs@currentscale}, + start chain, + node distance=\mCh@rxn@node@distance, + inner sep=0pt, + outer sep=0pt] + \mCh@dummy +} + +\newenvironment{rxnscheme}{\mCh@rxnscheme}{% + \endtikzpicture + \caption{\mCh@rs@caption}% + \mCh@ifempty@variable\rs@currentlabel{} + {\label{\mCh@rs@currentlabel}}% + \endrxnfloat + \mCh@scheme@disable +} + +% ---------------------------------------------------------------------------- +% einfache Reaktion +% \begin{rxn}[<align>,<scalefactor>] +\mCh@new@variable\reaction@scale +\mCh@new@variable\reaction@align + +\mCh@set@variable\reaction@scale{1.0} +\mCh@set@variable\reaction@align{center} + +\newrobustcmd\setrxnalign[1]{% + \ifblank{#1} + {\mCh@set@variable\reaction@align{center}} + {\mCh@set@variable\reaction@align{#1}}} + +\mCh@new@variable\reaction@right +\mCh@new@variable\reaction@center +\mCh@new@variable\reaction@left + +\mCh@set@variable\reaction@right{right} +\mCh@set@variable\reaction@center{center} +\mCh@set@variable\reaction@left{left} + +\newrobustcmd\mCh@rxn[1][]{% + \ifblank{#1} + {\mCh@rxn@i}{\mCh@rxn@ii[#1]}} + +\mCh@def\mCh@rxn@ii[#1]{% + \let\mCh@remainargs\@empty + \mCh@splitarg{#1}% + \mCh@ifempty@variable\firstarg + {\mCh@let@variable\reaction@align\reaction@center} + {\mCh@let@variable\reaction@align\firstarg}% + \mCh@ifempty@variable\secondarg + {\mCh@set@variable\reaction@scale{1}} + {\mCh@let@variable\reaction@scale\secondarg}% + \mCh@rxn@i +} + +\mCh@def\mCh@rxn@i{% + \mCh@scheme@enable + \hspace*{0pt}% + \mCh@ifeq@variable\reaction@align\reaction@center{\center}{}% + \mCh@ifeq@variable\reaction@align\reaction@left{\flushleft}{}% + \mCh@ifeq@variable\reaction@align\reaction@right{\flushright}{}% + \mCh@bondlength\mCh@bondshape\mCh@atomsize + \begin{tikzpicture}[ + every picture/.style={scale=\mCh@reaction@scale}, + start chain, + node distance=\mCh@rxn@node@distance, + inner sep=0pt, + outer sep=0pt] + \mCh@dummy +} + +\newenvironment{rxn}{\mCh@rxn}{% + \end{tikzpicture}% + \mCh@ifeq@variable\reaction@align\reaction@center{\endcenter}{}% + \mCh@ifeq@variable\reaction@align\reaction@left{\endflushleft}{}% + \mCh@ifeq@variable\reaction@align\reaction@right{\endflushright}{}% + \mCh@scheme@disable +} + +% -------------------------------------------------------------------------- +% REAKTANDEN +% Standardreaktand +% \reactant[<pos>,<name>,<tikz>]{<something>} +\def\mCh@argument@safe{\@makeother\#} + +\newrobustcmd\mCh@reactant[1][]{% + \begingroup + \mCh@argument@safe + \ifblank{#1} + {\mCh@reactant@i} + {\mCh@reactant@ii[#1]}% +} + +\mCh@def\mCh@reactant@i#1{% + \expandafter\node\expandafter[% + \mCh@reactant@visible, + on chain=going {at=(\tikzchainprevious.0)}, + anchor=180, + shift=(0:\mCh@rxn@node@distance)]{#1}; + \endgroup +} + +\mCh@def\mCh@reactant@ii[#1]#2{% + \let\mCh@remainargs\@empty\mCh@splitarg{#1}% + \mCh@ifempty@variable\firstarg{% erste Option: <pos>, zweite Option: <name>, dritte Option: <tikz> + \mCh@set@variable\angle{0}% + \mCh@set@variable\anchor{180}% + \mCh@empty@variable\referred@node + }{% + \expandafter\mCh@analyze@angle\expandafter{\mCh@firstarg}% + \mCh@set@variable\anchor{180+\mCh@angle}% + }% + \mCh@ifempty@variable\referred@node + {\mCh@set@variable\referred@node{\tikzchainprevious}}{}% + \expandafter\expandafter\expandafter\node\expandafter\expandafter\expandafter[% + \expandafter\mCh@thirdarg\expandafter,% + \mCh@reactant@visible, + on chain=going {at=(\mCh@referred@node.\mCh@angle)}, + anchor=\mCh@anchor,shift=(\mCh@angle:\mCh@rxn@node@distance)] + (\mCh@secondarg){#2}; + \endgroup +} + +% Mesomerie +% \mesomeric[<pos>,<name>,<tikz>]{<something>} +\newrobustcmd\mCh@mesomeric[1][]{% + \begingroup + \mCh@argument@safe + \ifblank{#1} + {\mCh@mesomeric@i} + {\mCh@mesomeric@ii[#1]}% +} + +\mCh@def\mCh@mesomeric@i#1{% + \node[on chain=going {at=(\tikzchainprevious.0), + shift=($(0:\mCh@rxn@node@distance)$)}, + anchor=180,shift=(0:\mCh@rxn@node@distance), + inner sep=1pt, + left delimiter={[}, + right delimiter={]}] + {\tikzpicture[start branch]#1\endtikzpicture}; + \endgroup +} + +\mCh@def\mCh@mesomeric@ii[#1]#2{% + \let\mCh@remainargs\@empty + \mCh@splitarg{#1}% + \mCh@ifempty@variable\firstarg{% erste Option: <pos>, zweite Option: <name>, dritte Option: <tikz> + \mCh@set@variable\angle{0}% + \mCh@set@variable\anchor{180}% + \mCh@empty@variable\referred@node + }{% + \expandafter\mCh@analyze@angle\expandafter{\mCh@firstarg}% + \mCh@set@variable\anchor{180+\mCh@angle}% + }% + \mCh@ifempty@variable\referred@node + {\mCh@set@variable\referred@node{\tikzchainprevious}}{}% + \expandafter\node\expandafter[\mCh@thirdarg, + on chain=going {at=(\mCh@referred@node.\mCh@angle)}, + anchor=\mCh@anchor, + shift=(\mCh@angle:\mCh@rxn@node@distance), + inner sep=1pt, + left delimiter={[}, + right delimiter={]}] + (\mCh@secondarg){\tikzpicture[start branch]#2\endtikzpicture}; + \endgroup +} + +% Mesomerie-Pfeil +% \marrow[<pos>] +\newrobustcmd\marrow[1][]{\arrow[#1,<->,.5]{}{}} + +% Anywhere +% \anywhere{<pos>,<name>,<tikz>}{<something>} +\mCh@new@variable\anywhere@positioning + +\newrobustcmd\mCh@anywhere[1]{% + \begingroup + \mCh@argument@safe + \let\mCh@remainargs\@empty + \mCh@splitarg{#1}% erste Option: <pos>, zweite Option: <name>, dritte Option: <tikz> + \mCh@ifempty@variable\firstarg{% + \mCh@error{\string\anywhere: positioning missing}{}% + }{% + \expandafter\mCh@if@instr\expandafter{\mCh@firstarg}{=}{% + \mCh@xset@variable\anywhere@positioning{\mCh@firstarg}% + }{% + \expandafter\mCh@analyze@angle\expandafter{\mCh@firstarg}% + \mCh@set@variable\anchor{180+\mCh@angle}% + \mCh@ifempty@variable\referred@node{% + \mCh@error{You can't use `angle' to position \string\anywhere. + You need to use `name.angle'}% + }{% + \mCh@set@variable\anywhere@positioning{% + at=(\mCh@referred@node.\mCh@angle),anchor=\mCh@anchor}% + }% + }% + }% + \mCh@anywhere@i +} + +\mCh@def\mCh@anywhere@i#1{% + \expandafter\expandafter\expandafter\node\expandafter\expandafter\expandafter[% + \expandafter\mCh@thirdarg\expandafter,% + \mCh@anywhere@positioning](\mCh@secondarg){#1}; + \endgroup +} + +% Dummy +% \dummy[<name>] +\newrobustcmd\mCh@dummy[1][]{% + \ifblank{#1} + {\draw node[on chain,xshift=-\mCh@rxn@node@distance]{};} + {\draw node[on chain,xshift=-\mCh@rxn@node@distance](#1){};}} + +% Uebergangszustand +% \transition[<pos>,<name>,<tikz>]{<something>} +\mCh@new@variable\transition@name + +\newrobustcmd\mCh@transition[1][]{% + \begingroup + \mCh@argument@safe + \ifblank{#1} + {\mCh@transition@i} + {\mCh@transition@ii[#1]}% +} + +\mCh@def\mCh@transition@i#1{% + \expandafter\node\expandafter[\mCh@reactant@visible, + on chain=going {at=(\tikzchainprevious.0)}, + anchor=180, + shift=(0:\mCh@rxn@node@distance), + anchor=180, + inner sep=3pt, + left delimiter={[}, + right delimiter={]}] + (mCh@transition@name){#1}; + \node at ($(mCh@transition@name.north east)+(.7em,0)$) + {$\transitionstatesymbol$}; + \endgroup +} + +\mCh@def\mCh@transition@ii[#1]#2{% + \let\mCh@remainargs\@empty + \mCh@splitarg{#1}% + \mCh@ifempty@variable\firstarg{% erste Option: <pos> + \mCh@set@variable\angle{0}% + \mCh@set@variable\anchor{180}% + \mCh@empty@variable\referred@node + }{% + \expandafter\mCh@analyze@angle\expandafter{\mCh@firstarg}% + \mCh@set@variable\anchor{180+\mCh@angle}% + }% + \mCh@ifempty@variable\secondarg% zweite Option: <name>, dritte Option: <tikz> + {\mCh@set@variable\transition@name{mCh@transition@name}} + {\mCh@let@variable\transition@name\secondarg}% + \mCh@ifempty@variable\referred@node + {\mCh@set@variable\referred@node{\tikzchainprevious}}{}% + \expandafter\expandafter\expandafter\node\expandafter\expandafter\expandafter[% + \mCh@reactant@visible\expandafter,% + \mCh@thirdarg, + on chain=going {at=(\mCh@referred@node.\mCh@angle)}, + anchor=\mCh@anchor, + shift=(\mCh@angle:\mCh@rxn@node@distance), + inner sep=3pt, + left delimiter={[}, + right delimiter={]}] + (\mCh@transition@name){#2}; + \node at ($(\mCh@transition@name.north east)+(.7em,0)$) + {$\transitionstatesymbol$}; + \endgroup +} + +% Abzweigung +% \branch[<pos>,<name>,<tikz>]{<formulae>} +% <pos>: default: on chain=going "right" (0°) +% on chain=going <somewhere> +% <somewhere>=of <name> +% <angle> (sitzt auf der Kette) +% <name>.<angle> (sitzt nicht auf der Kette) +\mCh@new@variable\branch@positioning + +\newrobustcmd\mCh@branch[1][]{% + \begingroup + \mCh@argument@safe + \ifblank{#1} + {\mCh@branch@i} + {\mCh@branch@ii[#1]}% +} + +\mCh@def\mCh@branch@i{% + \expandafter\mCh@set@variable\expandafter\branch@positioning\expandafter{\mCh@branch@visible, + on chain=going {at=(\tikzchainprevious.0)}, + anchor=180, + shift=(0:\mCh@rxn@node@distance)}% + \mCh@empty@variable\secondarg + \mCh@empty@variable\thirdarg + \mCh@branch@iii} + +\mCh@def\mCh@branch@ii[#1]{% + \let\mCh@remainargs\@empty + \mCh@splitarg{#1}% erste Option: <pos>, zweite Option: <name>, dritte Option: <tikz> + \mCh@ifempty@variable\firstarg{% + \expandafter\mCh@set@variable\expandafter\branch@positioning\expandafter{\mCh@branch@visible, + on chain=going {at=(\tikzchainprevious.0)}, + anchor=180, + shift=(0:\mCh@rxn@node@distance)}% + }{% + \expandafter\mCh@if@instr\expandafter{\mCh@firstarg}{=}{% + \mCh@xset@variable\branch@positioning{\mCh@branch@visible,\mCh@firstarg}% + }{% + \expandafter\mCh@analyze@angle\expandafter{\mCh@firstarg}% + \mCh@set@variable\anchor{180+\mCh@angle}% + \mCh@ifempty@variable\referred@node{% + \expandafter\mCh@set@variable\expandafter\branch@positioning\expandafter{\mCh@branch@visible, + on chain=going {at=(\tikzchainprevious.\mCh@angle)}, + anchor=\mCh@anchor, + shift=(\mCh@angle:\mCh@rxn@node@distance)}% + }{% + \expandafter\mCh@set@variable\expandafter\branch@positioning\expandafter{\mCh@branch@visible, + at=(\mCh@referred@node.\mCh@angle), + anchor=\mCh@anchor, + shift=(\mCh@angle:\mCh@rxn@node@distance)}% + }% + }% + }% + \mCh@branch@iii} + +\mCh@def\mCh@branch@iii#1{% + \expandafter\expandafter\expandafter\node\expandafter\expandafter\expandafter[% + \expandafter\mCh@branch@positioning\expandafter,% + \mCh@thirdarg] + (\mCh@secondarg){\tikzpicture[start branch]#1\endtikzpicture}; + \endgroup +}% + + +% -------------------------------------------------------------------------- +% Sonstiges +% Elektronenverschiebungspfeile +\mCh@new@variable\elmove@default@tikz +\mCh@new@variable\elmove@tikz + +\tikzset{mCh@elmove/.style={->,red,shorten <=3pt,shorten >=1pt}} +\mCh@set@variable\elmove@default@tikz{mCh@elmove} +\mCh@let@variable\elmove@tikz\elmove@default@tikz + +\newrobustcmd\elmove[5][]{% + \chemmove{ + \expandafter\draw\expandafter[\mCh@elmove@tikz,#1] + (#2).. controls +(#3) and +(#5)..(#4); + }} + +\newrobustcmd\setelmove[1]{% + \ifblank{#1} + {\mCh@let@variable\elmove@tikz\elmove@default@tikz} + {\mCh@set@variable\elmove@tikz{#1}}} + +% Plus +\newrobustcmd\mCh@chemand[1][]{% + \ifblank{#1} + {\reactant{\chemsign[0pt]{+}}} + {\reactant[#1]{\chemsign[0pt]{+}}}} + +% -------------------------------------------------------------------------- +% Setup myChemistry +% Bindungslänge +\mCh@new@variable\bondlength@default +\mCh@new@variable\bondlength + +\mCh@set@variable\bondlength@default{1.8em} +\mCh@set@variable\bondlength{\setatomsep{\mCh@bondlength@default}} + +\newrobustcmd\setbondlength[1]{% + \ifblank{#1} + {\mCh@set@variable\bondlength{\setatomsep{\mCh@bondlength@default}}} + {\mCh@set@variable\bondlength{\setatomsep{#1}}}} + +% Keilbindungen +\mCh@new@variable\bondshape@one +\mCh@new@variable\bondshape@two +\mCh@new@variable\bondshape@three + +\mCh@set@variable\bondshape@one{3pt} +\mCh@set@variable\bondshape@two{.5pt} +\mCh@set@variable\bondshape@three{1pt} + +\newrobustcmd\setbondshape[3]{% + \ifblank{#1} + {\mCh@set@variable\bondshape@one{3pt}} + {\mCh@set@variable\bondshape@one{#1}}% + \ifblank{#2} + {\mCh@set@variable\bondshape@two{.5pt}} + {\mCh@set@variable\bondshape@two{#2}}% + \ifblank{#3} + {\mCh@set@variable\bondshape@three{1pt}} + {\mCh@set@variable\bondshape@three{#3}}% +} + +\mCh@new@variable\bondshape +\mCh@set@variable\bondshape{% + \setcrambond{\mCh@bondshape@one}{\mCh@bondshape@two}{\mCh@bondshape@three}} + +% Atomgröße +\mCh@new@variable\atomsize@default +\mCh@new@variable\atomsize + +\mCh@set@variable\atomsize@default{\small} +\mCh@let@variable\atomsize\atomsize@default + +\newrobustcmd\setatomsize[1]{% + \ifblank{#1} + {\mCh@let@variable\atomsize\atomsize@default} + {\mCh@set@variable\atomsize{#1}}} + +% allg. Setup +\newrobustcmd\mCsetup[1]{\setkeys{mCh@setup}{#1}} + +\define@key{mCh@setup}{arrowlabel}[\mCh@arrow@label@dist@def]{% + \setarrowlabel{#1}} +\define@key{mCh@setup}{arrowlength}[\mCh@arrow@length@def]{% + \setarrowlength{#1}} +\define@key{mCh@setup}{arrowline}[\mCh@arrow@linethickness@default]{% + \setarrowline{#1}} +\define@key{mCh@setup}{atomsize}[\mCh@atomsize@default]{% + \setatomsize{#1}} +\define@key{mCh@setup}{bondlength}[\mCh@bondlength@default]{% + \setbondlength{#1}} +\define@key{mCh@setup}{rcndist}[\mCh@rxn@node@distance@default]{% + \setrcndist{#1}} +\define@key{mCh@setup}{rxnalign}[center]{% + \setrxnalign{#1}} +\define@key{mCh@setup}{schemealign}[center]{% + \setschemealign{#1}} +\define@key{mCh@setup}{align}[center]{% + \setrxnalign{#1} + \setschemealign{#1}} +\define@key{mCh@setup}{mergelength}[\mCh@merge@length@default]{% + \setmergelength{#1}} +\define@key{mCh@setup}{elmove}[\mCh@elmove@default@tikz]{% + \setelmove{#1}} +\define@key{mCh@setup}{reset}[]{% + \setarrowlabel{}% + \setarrowlength{}% + \setarrowline{}% + \setmergelength{}% + \setatomsize{}% + \setbondlength{}% + \setbondshape{}{}{}% + \setrcndist{}% + \setrxnalign{}% + \setschemealign{}% + \setelmove{}% +} + +% -------------------------------------------------------------------------- +% NODES SICHTBAR/UNSICHTBAR MACHEN +\mCh@new@variable\reactant@visible +\mCh@new@variable\arrow@uplabel@visible +\mCh@new@variable\arrow@downlabel@visible +\mCh@new@variable\branch@visible + +\mCh@empty@variable\reactant@visible +\mCh@empty@variable\arrow@uplabel@visible +\mCh@empty@variable\arrow@downlabel@visible +\mCh@empty@variable\branch@visible + +\newrobustcmd\makevisible{% + \ifmCh@draft + \mCh@set@variable\reactant@visible{draw=red!60,solid}% + \mCh@set@variable\arrow@uplabel@visible{draw=green!60,solid}% + \mCh@set@variable\arrow@downlabel@visible{draw=blue!60,solid}% + \mCh@set@variable\branch@visible{draw=cyan,solid}% + \fi +} + +\newrobustcmd\makeinvisible{% + \mCh@empty@variable\reactant@visible + \mCh@empty@variable\arrow@uplabel@visible + \mCh@empty@variable\arrow@downlabel@visible + \mCh@empty@variable\branch@visible +} + +\endinput + +% ---------------------------------------------------------------------------- +HISTORY: +2011/02/24 version 1.0 - first release to CTAN +2011/03/01 version 1.1 - package option `english' added + - package key `placement' added + - rxnscheme key `placement' added + - package key `shade=boolean' changed into package + option `shade' + - package option `nochemexec' added, will prevent mC + from loading chemexec +2011/03/20 version 1.2 - license changed into LPPL 1.3 or later + - package option `nocompounds' added, will prevent mC + from loading chemcompounds + - package option `chemstyle' added, will load chemstyle + - package option `nomhchem' added, will prevent mC from + loading mhchem if chemexec isn't loaded either + - package option `nopackages' added, will prevent mC + from loading any chemistry package except chemfig + - some small issues resolved + - bug in arrow type <=> resolved + - arrow argument placement rewritten; two new keys for + arrow: `aboveshift' and `belowshift' (causing new + problems with alignment, though) + - wrong arrow alignment (due to last change) mainly + resolved (NEEDS pgf v2.10!) + => solved wrong branch alignment as well + - `inner sep' set to 0, arrow, transition & mesomeric + adjusted + - bug in arrow type -|> resolved + - commands \makevisible / \makeinvisible added + - arrow key `both' added + - rxn has now keys instead of an option + - commands \setrcndist, \setrxnalign, \setschemealign + added + - rxn-, rxnscheme-key align added +2011/03/26 version 1.2.1 - rewritten commands, so they accept second argument + without first: + \reactand, \mesomeric, \transition, \branch, + \makevisible, \makeinvisible +2011/03/28 version 1.2.2 - bugfix with transition + - atomsize, arrowlength, bondlength and bondshape + renamed into set<name> and code slightly rewritten + - \mCsetup added +2011/04/01 version 1.2.3 - bug in \branch resolved + - \chemand added +2011/04/02 version 1.2.4 - bugs in \makevisible, \makeinvisible resolved + - input bondwidth.tex if ChemFig v0.4 +2011/04/04 version 1.3 - commands \reactand, \mesomeric, \branch, \transition, + \chemand (\makeinvisible, \makeinvisible) rewritten: + more flexible with opt. arguments +2011/04/15 version 1.4 - minor bugfixes + - \merge-command rewritten: it now accepts an arrow + label and the length is adjustable + - \dummy mostly obsolete + - bugfix with aligning rxn & rxnscheme + - synonym to \reactand=\reactant added + - rxn & rxnscheme rewritten + - commands \reactant, \mesomeric, \branch & \transition + modified: argument is set with \mCh@argument@safe{#1}, + so the chemfig catcode regime is working properly + before () (else possible problem with triple bond ~) + - syntax of \arrow changed so it fits to the syntax of + all the other commands + - command \anywhere added + - own arrow tips defined + - command \setarrowline added + - new arrow type -+> added +2011/04/23 version 1.5 - major parts of the code rewritten -- the whole + positioning part now is different and way more flexible: + arbitrary angles can be used for positioning, referencing + an object is easier, arrows can be modified using <tikz>, + command \anywhere now has similar syntax + - arrow types <=>> and <<=> added + - arrow type -+> modified: more flexible + - bugfixes in error-handling +2011/04/27 version 1.5.1 - removed bondwidth.tex + - \arrow, \reactant, \mesomeric, \transition, \anywhere, + \dummy, \branch, and \chemand only defined inside scheme + environments +2012/07/27 version 1.99 - conflict with `pdfpages' resolved, LaTeXified various + parts in order to minimize conflicts with other + packages; \merge is also only defined inside the scheme + environments +2012/09/20 version 1.99a - small adjustments to \elmove +2012/12/19 version 1.99b - changed catcode regime (# is read with catcode 12) + so that chemfig's bond offset works + +% ----------------------------------------------------------------------------
\ No newline at end of file diff --git a/obsolete/macros/latex/contrib/mychemistry/mychemistry_en.pdf b/obsolete/macros/latex/contrib/mychemistry/mychemistry_en.pdf Binary files differnew file mode 100644 index 0000000000..daffa005e0 --- /dev/null +++ b/obsolete/macros/latex/contrib/mychemistry/mychemistry_en.pdf diff --git a/obsolete/macros/latex/contrib/mychemistry/mychemistry_en.tex b/obsolete/macros/latex/contrib/mychemistry/mychemistry_en.tex new file mode 100644 index 0000000000..269b8fecbf --- /dev/null +++ b/obsolete/macros/latex/contrib/mychemistry/mychemistry_en.tex @@ -0,0 +1,1724 @@ +% arara: pdflatex +% arara: pdflatex +% arara: makeindex: { sort: on, style: mychemistry_en.ist } +% arara: pdflatex +% -------------------------------------------------------------------------- +% the MYCHEMISTRY package +% +% create reaction schemes with LaTeX and chemfig +% +% -------------------------------------------------------------------------- +% Clemens Niederberger +% Web: https://www.bitbucket.org/cgnieder/mychemistry +% E-Mail: contact@mychemistry.eu +% -------------------------------------------------------------------------- +% If you have any ideas, questions, suggestions or bugs to report, please +% feel free to contact me. +% -------------------------------------------------------------------------- +% Copyright 2011--2012 Clemens Niederberger +% +% This work may be distributed and/or modified under the +% conditions of the LaTeX Project Public License, either version 1.3 +% of this license or (at your option) any later version. +% The latest version of this license is in +% http://www.latex-project.org/lppl.txt +% and version 1.3 or later is part of all distributions of LaTeX +% version 2005/12/01 or later. +% +% This work has the LPPL maintenance status `maintained'. +% +% The Current Maintainer of this work is Clemens Niederberger. +% +% This work consists of the files modiagram.sty, modiagram_en.tex, +% README and the derived file modiagram_en.pdf. +% -------------------------------------------------------------------------- +% \errorcontextlines=999 +\documentclass[toc=index,DIV10]{cnpkgdoc} +\docsetup{ + pkg = [draft]mychemistry, + subtitle = Create Reaction Schemes with \LaTeXe\ and Chemfig , + code-box = { + skipbelow = .5\baselineskip plus .5ex minus .5ex , + skipabove = .5\baselineskip plus .5ex minus .5ex , + roundcorner = 3pt , + innerleftmargin = 1.5em , + innerrightmargin = 1.5em + } +} + +\usepackage{chemnum} +\usepackage{fnpct} +\usepackage{booktabs} +\usepackage{siunitx} + +\chemsetup[chemformula]{format=\libertineLF} + +\addcmds{ + @addtoreset, + anywhere, + arrow, + branch, + celsius, + ch, + chemabove, + chemand, + chembelow, + chemfig, + chemname, + cmpd, + colorlet, + command, + draw, + elmove, + floatstyle, + fpch, + fplus, + fscrm, + fscrp, + Hpl, + iupac, + lewis, + Lewis, + listof, + makeinvisible, + makevisible, + marrow, + mch, + mCsetup, + mech, + mesomeric, + N, + node, + para, + pch, + phantom, + reactant, + restylefloat, + setarrowlabel, + setarrowlength, + setarrowline, + setatomsep, + setatomsize, + setbondlength, + setbondshape, + setcrambond, + setmergelength, + setrcndist, + setrxnalign, + setschemealign, + setschemename, + SI, + text, + therxnscheme, + tikzset, + trans, + transition +} + +\usepackage{makeidx} +\usepackage{filecontents} +\begin{filecontents*}{\jobname.ist} + heading_prefix "{\\bfseries " + heading_suffix "\\hfil}\\nopagebreak\n" + headings_flag 1 + delim_0 "\\dotfill " + delim_1 "\\dotfill " + delim_2 "\\dotfill " + delim_r "\\nohyperpage{\\textendash}" + suffix_2p "\\nohyperpage{\\,f.}" + suffix_3p "\\nohyperpage{\\,ff.}" +\end{filecontents*} + +\makeindex + +\begin{document} +\section{Licence and Requirements}\label{ssec:voraussetzungen} +Permission is granted to copy, distribute and/or modify this software under the +terms of the LaTeX Project Public License, version 1.3 or later +(\url{http://www.latex-project.org/lppl.txt}). This package has the status +``maintained.'' + +\mychemistry needs and loads the packages \paket{etoolbox}, \paket{float}, +\paket{xkeyval}, \paket{chemmacros} and \paket{chemfig}. It also loads the +TikZ-libraries \code{arrows}, \code{positioning}, \code{decorations.pathmorphing}, +\code{shapes}, \code{calc}, \code{matrix}, \code{chains}, \code{scopes} and +\code{intersections}. + +\mychemistry also loads \paket*{translations}\footnote{Part of the +\paket*{exsheets} package} for proper language support. + +\section{Changes} +With v1.99 (=v2.0beta) package dependencies have changed so that \mychemistry +loads noticably less packages than before. Most important for you: it does \emph{not} +load \paket{mhchem} any more. This documentation uses \paket{chemmacros} instead +which is loaded by \mychemistry. + +There are now considerably less package options as most of them are not needed +any more. + +\mychemistry now provides proper language support, \eg, when used together with +\paket{babel}. + +New is the command \cmd{setelmove}. The command \cmd{makevisible} now only has +an effect if the new option \key{draft} is used. + +\section{Background} +\mychemistry provides two environments within which the mechanisms are created. +Both environments basically are \code{tikzpicture} environments. When this package +first was written \paket{chemfig} lacked the possibility of creating reaction +schemes itself. This was the motivation for me to get started on \mychemistry +which then rapidly grew and until now has its users. + +The background has changed in August 2011, though. Then \paket{chemfig} v1.0 was +published and now provides simple but powerful macros to create reactions schemes. +They don't seem to to be used very often but I am advertising as much as I can. +Anyway, since then \mychemistry can be considered obsolete and is not actively +developed any more. The current release 1.99 (= 2.0beta) was due to an +incompatibilty with \paket{pdfpages} and a complete robustification of various +parts of the code. + +\emph{Other than bug fixes this package will very likely \emph{not} be updated +any more}! + +\section{Package options}\label{sec:paketoptionen} +\mychemistry has a few package options. +\begin{beschreibung} + \option{strict} With this option all warning messages are turned into error + messages. + \option{draft} This option is an alias to \key{strict}. Additionally it enables + the \cmd{makevisible} command. + \option{final} This option is the opposite to \key{draft}, \ie, most error + messages will be issued as warnings. It also disables the \cmd{makevisible} + command. + \option{placement}{<value>} Changes the default floating behaviour of \env{rxnscheme}, + see section~\ref{ssec:rxnscheme}. +\end{beschreibung} + +\section{Usage} +\subsection{Basic Principle} +Within the \code{tikzpicture} reactants and arrows are placed as nodes on a +\code{chain}\footnote{Provided by the tikzlibrary `chains'}. + +\begin{beispiel} + \begin{tikzpicture}[start chain] + \node [on chain] {A}; + \node [on chain] {B}; + \node [on chain] {C}; + \end{tikzpicture} +\end{beispiel} +This way there are several possibilities to place the nodes relative to the others. +\begin{beispiel} + \begin{tikzpicture}[start chain=going right,node distance=5mm] + \node [draw,on chain] {Hello}; + \node [draw,on chain] {World}; + \node [draw,continue chain=going below,on chain] {,}; + \node [draw,on chain] {this}; + \node [draw,on chain] {is}; + \end{tikzpicture} +\end{beispiel} + +Above all \mychemistry uses the possibility of creating branches to the chain. +\begin{beispiel} + \begin{tikzpicture}[start chain=going right,node distance=5mm] + \node [draw,on chain] {A}; + \node [draw,on chain] {B}; + { [start branch] + \node [on chain=going below] {1}; + \node [on chain=going below] {2}; + } + { [start branch] + \node [on chain=going above] {$\alpha$}; + \node [on chain=going above] {$\beta$}; + } + \node [draw,on chain] {C}; + \end{tikzpicture} +\end{beispiel} +You don't have to understand that mechanism in detail but you should remember the +placement commands in the last example, because \mychemistry uses them in the same +way. + +In some of the examples in this documentation the nodes are boxed with a coloured +frame (see section~\ref{ssec:makevisible}). This is done so one can see, which size +they have and which impact changes of the alignment have on them. + +\subsection{How does it work?} +\subsubsection{Basic Commands} +There are two basic commands: +\begin{beschreibung} + \Befehl{reactant}[<pos>,<name>,<tikz>]{<formula>} + \Befehl{arrow}[<pos>,<type>,<length factor>,<name>,both,<tikz>]{<above>}\ma{<below>} +\end{beschreibung} + +Schemes are created within the \env{rxn}{} environment. There you place reactants +and arrows. +\begin{beispiel} + \begin{rxn} + \reactant{ \chemfig{-[::30]-[::-60]OH} } + \arrow{Ox.}{} + \reactant{ \chemfig{-[::30]=_[::-60]O} } + \end{rxn} +\end{beispiel} + +When you don't use options reactants and arrows always are put to the right of +the last object. With the option \code{<pos>} you can change this behaviour. +\begin{beispiel} + % positioning using key words + \begin{rxn} + \reactant{ \chemfig{-[::30]-[::-60]OH} } + \arrow[below]{Ox.}{} + \reactant[below]{ \chemfig{-[::30]=_[::-60]O} } + \end{rxn} + % positioning using an angle + \begin{rxn} + \reactant{ \chemfig{-[::30]-[::-60]OH} } + \arrow[180]{}{Ox.} + \reactant[180]{ \chemfig{-[::30]=_[::-60]O} } + \end{rxn} +\end{beispiel} + +\begin{table} + \centering + \begin{tabular}{>{\ttfamily}l*{2}{>{$}r<{$}}} + \toprule + {\normalfont key word} & \text{pos. angle} & \text{neg. angle} \\ + \midrule + right & 0 & \pm 360 \\ + right above & 45 & -315 \\ + above & 90 & -270 \\ + above left & 135 & -225 \\ + left & 180 & -180 \\ + below left & 225 & -135 \\ + below & 270 & -90 \\ + below right & 315 & -45 \\ + \bottomrule + \end{tabular} + \caption{key words for positioning}\label{tab:keywords} +\end{table} + +You can see in the last example that positioning can be realized through key +words (see table~\ref{tab:keywords}) like \code{below} or by using the angle +relative to the horizontal line. Every angle from the interval +$[\ang{-360};\ang{360}]$. \ang{0} corresponds to \code{right} which is the default +value. \emph{Positive angles} mean a turn \emph{counter clockwise}, negative ones +a turn clockwise -- like you're used to in mathematics. + +\begin{beispiel} + \begin{rxn} + \reactant{ \chemfig{-[::30]-[::-60]OH} } + \arrow[20]{Ox.}{} + \reactant[20]{ \chemfig{-[::30]=_[::-60]O} } + \end{rxn} + \begin{rxn} + \reactant{ \chemfig{-[::30]-[::-60]OH} } + \arrow[-20]{Ox.}{} + \reactant[-20]{ \chemfig{-[::30]=_[::-60]O} } + \end{rxn} +\end{beispiel} + +\subsubsection{Positioning} +Reactants and arrows cannot only be positioned through key words and angles. They +can refer to another reactant or arrow. +\begin{beispiel} + \begin{rxn} + \reactant[,start]{ \chemfig{R-[::30](-[::60]R|^1) (-[::-120]R|^2)-[::-60]OH} } + \arrow[40]{\tiny$\text{R}^1=\text{H}$} {\tiny$\text{R}^2=\text{H}$} + \reactant[40]{ \chemfig{R-[::30]=_[::-60]O} } + \arrow[start.0]{\tiny$\text{R}^1=\text{alkyl}$} {\tiny$\text{R}^2=\text{H}$} + \reactant{ \chemfig{R-[::30](-[::60]R)=_[::-60]O} } + \arrow[start.-40,-|>]{\tiny$\text{R}^1=\text{alkyl}$} {\tiny$\text{R}^2=\text{Alkyl}$} + \end{rxn} +\end{beispiel} +In the last example the first reactant got the \code{<name>} \code{start}. The +arrows in lines 5 and 7 now could refer to it. A \emph{previously given name} can +act as an anchor for later reactants or arrows, if the positioning is written like +\code{<anchor>.<angle>}. + +Arrows can be given names, too. The anchor point of an arrow always is in the +middle of the arrow line and has \emph{no} size. +\begin{beispiel} + \begin{rxn} + \reactant{\chemfig{[:60]-(-[::60])=[::-60](-[::-60])-}} + \arrow[,,,arrow]{}{} + \reactant[arrow.90]{\ch{H2O}} + \end{rxn} +\end{beispiel} + +Using this kind of positioning does \emph{not} break the chain. +\begin{beispiel}[code only] + \begin{rxn} + \reactant[,a]{A} + \arrow{}{} + \reactant{B} + \arrow[a.-90]{}{} + \reactant[-90]{C} + \arrow[a.180]{}{} + \reactant[180]{D} + \end{rxn} +\end{beispiel} + +All seven objects of this example are logically speaking part of the same chain. +The next object is placed to the right of the last one if no positioning is used. +\begin{rxn} + \tikzset{nummer/.style={circle,fill=gray!30,draw=gray,minimum size=3.5mm}} + \reactant[,a]{A}\arrow[,,,pa]{}{}\reactant[,b]{B} + \arrow[a.-90,,,pb]{}{}\reactant[-90,c]{C} + \arrow[a.180,,,pc]{}{}\reactant[180,d]{D} + \anywhere{a.45,,nummer}{1} + \anywhere{pa.90,,nummer}{2} + \anywhere{b.45,,nummer}{3} + \anywhere{pb.0,,nummer}{4} + \anywhere{c.45,,nummer}{5} + \anywhere{pc.90,,nummer}{6} + \anywhere{d.45,,nummer}{7} +\end{rxn} + +\subsubsection{Branches} +To break a chain you use the command +\begin{beschreibung} + \Befehl{branch}[<pos>,<name>,<tikz>]{<formulae>} +\end{beschreibung} +The positioning of a branch is slightly different from earlier objects, although +the syntax is similar. A branch has two additional ways of positioning. Every +positioning that refers to an anchor cause that the branch is not a part of the +chain but is a real branch. +\begin{description} + \item[\code{<angle>}] on the chain + \item[\code{<key>}] on the chain + \item[\code{<anchor>.<angle>}] not on the chain + \item[\code{on chain=going <key>}]on the chain + \item[\code{<key>=of <anchor>}] not on the chain +\end{description} +As \code{<key>} you again use the values from table~\ref{tab:keywords}. + +\begin{beispiel} + \begin{rxn} + \reactant{ \chemfig{-[::30]-[::-60]OH} } + \arrow{}{} + \reactant[,carbonyl]{ \chemfig{-[::30]=_[::-60]O} } + \branch[carbonyl.-90]{ + \arrow[-90,<=>]{\ch{NH2R}}{} + \reactant[-90]{ \chemfig{-[::30]=_[::-60]N(-[6]H)-[::60]R} } + } + \arrow{}{} + \reactant{ \chemfig{-[::30](-[::60]OH)=_[::-60]O} } + \end{rxn} +\end{beispiel} + +Please note that in the last example the arrow and the reactant placed after +branch continue the original chain. +\begin{beispiel}[code only] + \begin{rxn} + \reactant[,a]{A} + \arrow{}{} + \reactant{B} + \branch[a.-90]{ + \arrow[-90]{}{} + \reactant[-90]{C} + } + \arrow[a.180]{}{} + \reactant[180]{D} + \end{rxn} +\end{beispiel} + +The chain is broken by the branch which starts a new chain itself. +\begin{rxn} + \tikzset{nummer/.style={circle,fill=gray!30,draw=gray,minimum size=3.5mm,overlay}} + \reactant[,a]{A}\arrow[,,,pa]{}{}\reactant[,b]{B} + \branch[a.-90]{ + \arrow[-90,,,pb]{}{}\reactant[-90,c]{C} + \anywhere{pb.0,,nummer}{a} + \anywhere{c.45,,nummer}{b} + } + \arrow[a.180,,,pc]{}{}\reactant[180,d]{D} + \anywhere{a.45,,nummer}{1} + \anywhere{pa.90,,nummer}{2} + \anywhere{b.45,,nummer}{3} + \anywhere{pc.90,,nummer}{4} + \anywhere{d.45,,nummer}{5} +\end{rxn} + +Using \cmd{branch} allows to create schemes with several branches: +\begin{beispiel} + \begin{rxn} + \reactant{ \chemfig{-[::30]-[::-60]OH} } + \arrow{}{} + \reactant[,carbonyl]{ \chemfig{-[::30]=_[::-60]O} } + \arrow[-90]{}{} + \reactant[-90]{ \chemfig{-[::30](-[::60]OH)=_[::-60]O} } + \branch[right=of carbonyl]{ + \arrow[,<=>,1.12]{\ch{NH2R}}{} + \reactant{ \chemfig{-[::30]=_[::-60]N(-[6]H)-[::60]R} } + } + \branch[below right=of carbonyl]{ + \arrow[-45,<=>,1.12]{ \chemfig{[,.75]-[::30]-[::-60]OH} }{} + \reactant[-45]{ \chemfig{-[::30](-[::60]O-[::-60]-[::-60])-[::-60]OH} } + } + \arrow[carbonyl.90]{ \chemfig{[,.75]-[::30]=_[::-60]O}/\Hpl }{} + \reactant[90]{ \chemfig{-[::30](-[::60]OH)-[::-60]-[::60]=[::60]O} } + \arrow{$-\ch{H2O}$}{} + \reactant{ \chemfig{-[::30]=[::-60]-[::60]=[::60]O} } + \end{rxn} +\end{beispiel} + +\subsubsection{Numbered Schemes} +There is another environment to create schemes. +\begin{beschreibung} + \Umg{rxnscheme}[<label>,<placement>,<alignment>,<skale factor>,<title>]{<caption>} +\end{beschreibung} + +This is a floating environment for scheme, which can be given a \code{<caption>}, +a \code{<label>} and the common placement identifiers like \code{htp} (default). +\begin{beispiel}[code and float] +\begin{rxnscheme}{Keto-Enol-tautomerism} + \reactant{ \chemfig{=[::30]-[::-60]OH} } + \arrow[,<=>]{}{} + \reactant{ \chemfig{-[::30]=[::-60]O} } +\end{rxnscheme} +\end{beispiel} + +\subsection{Predefined Values} +There are some predefined values that are basically due to my personal taste. But +of course you can change them according to your requirements. For \paket{chemfig}% +-formul\ae\ \emph{inside of \mychemistry environments} some values are predefined +as follows: +\begin{beispiel}[code only] + \setatomsep{1.8em} + \setcrambond{3pt}{0.5pt}{1pt} +\end{beispiel} +Outside the \mychemistry environments the defaults of \paket{chemfig} still are +set. +\begin{beispiel} + \begin{rxn} + \reactant{\chemfig{**6(------)}} + \end{rxn} + \chemfig{**6(------)} +\end{beispiel} + +\mychemistry's defaults can be changed with these commands: +\begin{beschreibung} + \Befehl{setbondlength}{<length>} + \Befehl{setbondshape}{<base length>}\ma{<dash thickness>}\ma{<dash spacing>} + \Befehl{setatomsize}{<font size>} +\end{beschreibung} +With these commands the parameters are changed \emph{for all following} +\mychemistry environments. If you leave the arguments empty default values are +restored. Default for \cmd{setatomsize} is \cmd{small}. + +\begin{beispiel} + \setbondlength{2.1em}\setbondshape{5pt}{1pt}{2pt}\setatomsize{\Large} + \begin{rxn} + \reactant{\chemfig{-[::30](<[::60])-[::-60](<:[::-60])-[::60]A}} + \end{rxn} + \setbondlength{}\setbondshape{}{}{}\setatomsize{} + \begin{rxn} + \reactant{\chemfig{-[::30](<[::60])-[::-60](<:[::-60])-[::60]A}} + \end{rxn} +\end{beispiel} + +If you only want to change the parameters of a single environment you can use +\paket{chemfig}'s commands and \LaTeX's fontsize commands \emph{inside the +environment}. +\begin{beispiel} + \begin{rxn} + \setatomsep{2.1em}\setcrambond{5pt}{1pt}{2pt}\Large + \reactant{\chemfig{-[::30](<[::60])-[::-60](<:[::-60])-[::60]A}} + \end{rxn} + \begin{rxn} + \reactant{\chemfig{-[::30](<[::60])-[::-60](<:[::-60])-[::60]A}} + \end{rxn} +\end{beispiel} + +The default length of reaction arrows is \SI{4}{em}, the default line width is +\code{semithick} and the default label distance is \SI{0.2}{em}. You can change +these default values with the commands +\begin{beschreibung} + \Befehl{setarrowlength}{<length>} + \Befehl{setarrowline}{<line width>} + \Befehl{setarrowlabel}{<label distance>} +\end{beschreibung} +or with +\begin{beschreibung} + \befehl{mCsetup}{<options>} valid options are: + \Option{arrowlength}{<length>} + \Option{arrowline}{<line width>} + \Option{arrowlabel}{<label distance>} +\end{beschreibung} + +\section{Advanced Usage, Usage with \TikZ} +The biggest problem with \mychemistry usually is the correct positioning of +reactants and arrows. Section~\ref{ssec:ausrichtungsfrage} looks a little bit +into this topic. + +Some of the commands can be given \TikZ code as third optional argument. More +precisely you can use the same \TikZ keys there as you would with a \cmd{node} +inside a \code{tikzpicture}. If a node is placed with \cmd{node}\oa{<tikz>}% +\da{<placement>}\ma{<anything>} then \code{<tikz>} is about the same in \eg +\cmd{reactant}[,,<tikz>]{}. With this you can customize your scheme in many ways. + +\subsection{The Alignment Question}\label{ssec:ausrichtungsfrage} +Since reactants, arrows and branches are aligned centered to the referred object +the default alignment not always produces nice results. +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant{ \chemname{\chemfig{*6(-=-=-=)}}{benzene \cmpd{benzene}} } + \arrow{}{} + \reactant{ \chemname{\chemfig{*6(-=-=(-Br)-=)}}{bromobenzene \cmpd{bromobenzene}} } + \end{rxn} +\end{beispiel} +As you can see both reactants are not aligned equally to the arrow as far as the +benzene ring is concerned. The first reactant seems to be shifted up. Trying to +solve this with \TikZ code fails: + +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant[,,yshift=-1em]{ \chemname{\chemfig{*6(-=-=-=)}}{benzene \cmpd{benzene}} } + \arrow{}{} + \reactant{ \chemname{\chemfig{*6(-=-=(-Br)-=)}}{bromobenzene \cmpd{bromobenzene}} } + \end{rxn} +\end{beispiel} +This is, because the first reactant is shifted with the respect to the object it +refers to. Since it is the first object on the chain itself it isn't shifted a +all. The following arrow always is centered to the object before. +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant{A} + \chemand + \reactant[,,yshift=1em]{B} + \arrow{}{} + \end{rxn} +\end{beispiel} +Since there is no possibility to change the alignment of the arrow itself what +you can do is put it inside a branch. +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant{A} + \chemand + \reactant[,,yshift=1em]{B} + \branch[,,yshift=-1em]{\arrow{}{}} + \end{rxn} + \begin{rxn} + \reactant{ \chemname{\chemfig{*6(-=-=-=)}}{benzene \cmpd{benzene}} } + \branch[,,yshift=1em]{\arrow{}{}} + \reactant{ \chemname{\chemfig{*6(-=-=(-Br)-=)}}{bromobenzene \cmpd{bromobenzene}} } + \end{rxn} +\end{beispiel} +For the last example this isn't the best solution though because exact alignment +needs lots of tries until you get the required result. There is another solution: +an invisible bromine to the first benzene. +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant{ \chemname{\chemfig{*6(-=-=(-[,,,,draw=none]\phantom{Br})-=)}}{benzene \cmpd{benzene}} } + \arrow{}{} + \reactant{ \chemname{\chemfig{*6(-=-=(-Br)-=)}}{bromobenzene \cmpd{bromobenzene}} } + \end{rxn} +\end{beispiel} +In other cases, too, an invisible substituent should be preferred over \TikZ code +since it's easier and more precise: +\begin{beispiel} + \makevisible + default: + \begin{rxn} + \reactant{\chemfig{-[:-30]-[:30](=[2]O)-[:-30]OH}} + \chemand + \reactant{\chemfig{HO-[:30]-[:-30]-[:30]}} + \arrow{[\Hpl]}{\SI{200}{\celsius}} + \reactant{\chemfig{-[:-30]-[:30](=[2]O)-[:-30]O-[:30]-[:-30]-[:30]}} + \end{rxn} + hydroxy groups at the same height through TikZ: + \begin{rxn} + \reactant{\chemfig{-[:-30]-[:30](=[2]O)-[:-30]OH}} + \chemand[,,yshift=-1.2em] + \reactant[,,yshift=.12em]{\chemfig{HO-[:30]-[:-30]-[:30]}} + \branch[,,yshift=1.08em]{\arrow{[\Hpl]}{\SI{200}{\celsius}}} + \reactant{\chemfig{-[:-30]-[:30](=[2]O)-[:-30]O-[:30]-[:-30]-[:30]}} + \end{rxn} + hydroxy groups at the same height through an invisible substituent: + \begin{rxn} + \reactant{\chemfig{-[:-30]-[:30](=[2]O)-[:-30]OH}} + \chemand + \reactant{\chemfig{HO-[:30](=[2,,,,draw=none]\phantom{O})-[:-30]-[:30]}} + \arrow{[\Hpl]}{\SI{200}{\celsius}} + \reactant{\chemfig{-[:-30]-[:30](=[2]O)-[:-30]O-[:30]-[:-30]-[:30]}} + \end{rxn} +\end{beispiel} + +I'm afraid that in many other cases you'll have to play with \code{xshift} and +\code{yshift}, though, until the scheme looks the way you want. + +\subsection{Using \TikZ to Achieve Other Results} +You could, just for fun?, change the looks of a molecule with \TikZ. +\begin{beispiel} + \begin{rxn} + \reactant[,,->,green!45!blue!55]{ \chemfig{*6(---(-)---)} } + \end{rxn} + \chemfig[->,green!45!blue!55]{*6(---(-)---)} +\end{beispiel} +The last example is not very good, of course, since you can achieve the same result +using \paket{chemfig}'s own possibilities. But other cases are imaginable: for +example one could define a style with which reactants are shown: +\begin{beispiel} + \colorlet{mCgreen}{green!50!gray} + \colorlet{mCblue}{cyan!50!gray} + \colorlet{mCred}{magenta!50!gray} + \colorlet{mCyellow}{yellow!50!gray} + \begin{rxn} + \tikzset{reactant/.style={draw=#1,fill=#1!10,inner sep=1em,minimum height=10em,minimum width=12em,rounded corners}} + \reactant[,cytosine,reactant=mCred]{\chemfig{H-[:30]N*6(-(=O)-N=(-NH_2)-=-)}} + \anywhere{cytosine.-90,,yshift=-2mm}{Cytosine} + \reactant[,thymine,reactant=mCyellow]{\chemfig{H-[:30]N*6(-(=O)-N(-H)-(=O)-(-CH_3)=-)}} + \anywhere{thymine.-90,,yshift=-2mm}{Thymine} + \reactant[cytosine.-90,adenine,yshift=-2em,reactant=mCblue]{\chemfig{[:-36]*5(-N(-H)-*6(-N=-N=(-NH_2)--)--N=)}} + \anywhere{adenine.-90,Guanin,yshift=-2mm}{Adenine} + \reactant[,guanine,reactant=mCgreen]{\chemfig{[:-36]*5(-N(-H)-*6(-N=(-NH_2)-N(-H)-(=O)--)--N=)}} + \anywhere{guanine.-90,,yshift=-2mm}{Guanine} + \end{rxn} +\end{beispiel} +This way certain parts of a scheme could be emphasized: +\begin{beispiel} + \begin{rxn} + \setatomsep{1.5em} + \colorlet{mCgreen}{green!50!gray} + \tikzset{emph/.style={draw=mCgreen,fill=mCgreen!10,inner sep=1em}} + \reactant[,lineOne]{\chemfig{R^1-[:30](=[@{b1}2]O)-[:-30]O-H}} + \arrow[,<=>]{\chemfig{@{Hpl1}\Hpl}}{} + \branch[,,emph]{ + \reactant{\chemfig{R^1-[:30]@{C1}(-[2]O-[:30]H)(-[6,.5,,,draw=none]\fplus)-[:-30]O-H}} + \arrow[,<=>,2]{\chemfig{[:30]H-@{O1}O-[::-60]-R^2}}{} + \reactant{\chemfig{R^1-[:30](-[2]O-[:30]H)(-[6]@{O2}O-[:-150]H)-[:-30]@{O3}\chemabove{O}{\fplus}(-[@{b2}6]H)-[:30]-[:-30]R^2}} + } + \anywhere{lineOne.-90,lineTwo,xshift=-3em,yshift=-7em}{} + \arrow[lineTwo.0,<=>]{$-$\Hpl/\chemfig{@{Hpl2}\Hpl}}{} + \reactant{\chemfig{R^1-[:30](-[@{b3}2]O-[@{b4}:30]H)(-[@{b5}6]@{O4}\chembelow{O}{\fplus}(-[:-30]H)-[:-150]H)-[:-30]O-[:30]-[:-30]R^2}} + \arrow[,<=>,2]{$- \ch{H+} - \ch{H2O}$}{} + \reactant{\chemfig{R^1-[:30](=[2]O)-[:-30]O-[:30]-[:-30]R^2}} + \anywhere{lineTwo.-90}{ + \elmove{b1}{10:5mm}{Hpl1}{135:1cm} + \elmove{O1}{135:1.5cm}{C1}{30:5mm} + \elmove{O2}{-90:3cm}{Hpl2}{90:2cm} + \elmove{b2}{0:5mm}{O3}{-10:5mm} + \elmove{b4}{-40:5mm}{b3}{0:5mm} + \elmove{b5}{-30:5mm}{O4}{-10:5mm} + } + \end{rxn} +\end{beispiel} + +\section{Alphabetical Command Reference} +In the following section every command is explained. + +\subsection{anywhere}\label{ssec:anywhere} +Sometimes it might be useful to be able to place a reactant or anything else off +the chain. +\begin{beschreibung} + \Befehl{anywhere}{<pos>,<name>,<tikz>}\ma{<something>} +\end{beschreibung} +For this case there's \cmd{anywhere}. It is positioned with \code{<pos>} similar +to \cmd{branch}. +\begin{description} + \item[\code{<anchor>.<angle>}] not on the chain + \item[\code{on chain=going <key>}] on the chain + \item[\code{<key>=of <anchor>}] not on the chain +\end{description} +Please be aware that \code{<pos>} cannot be left empty. + +\begin{beispiel} + \begin{rxn} + \reactant[,carbonyl_A]{\chemfig{R_2C=O}} + \anywhere{above=of carbonyl_A}{\chemfig{H-[:-30]O-[:30]H}}; + \end{rxn} +\end{beispiel} +You can use this command \eg for placing labels next to reactants. +\begin{beispiel} + \begin{rxn} + \reactant[,ketone]{\chemfig{H-\chemabove{C}{\hspace*{5mm}\scriptstyle\alpha}(-[2]H)(-[6,,,2]{}|{\textcolor{blue}H})-C(=[:60]\lewis{02,O})-[:-60]C|H_3}} + \anywhere{below=of ketone}{$+ \ch[format=\color{blue}]{OH-}$} + \arrow[,<=>]{\tiny slow}{} + \mesomeric[,mesomer]{ + \reactant[,carbanion]{\chemfig{H_2|\chemabove[3pt]{\lewis{2,C}}{\fscrm}-C(=[:60]\lewis{02,O})-[:-60]C|H_3}} + \marrow + \reactant[,enolate]{\chemfig{H_2C=C(-[:60]\chemabove{\lewis{024,O}}{\hspace*{5mm}\fscrm})-[:-60]C|H_3}} + } + \anywhere{above=of enolate}{\tiny enolate ion} + \anywhere{above=of carbanion}{\tiny carbanion} + \anywhere{below=of mesomer}{$+ \ch[format=\color{blue}]{H2O}$} + \end{rxn} +\end{beispiel} +You can find many further examples for the usage of \cmd{anywhere} in \code{examples.tex} +or \code{examples.pdf}, respectively. + +\subsection{\cmd{arrow}}\label{ssec:arrow} +Reaction arrows are created with \cmd{arrow}. +\begin{beschreibung} + \Befehl{arrow}[<pos>,<type>,<length factor>,<name>,both,<tikz>]{<above>}\ma{<below>} +\end{beschreibung} + +\subsubsection{Options} +There are a number of options to customize the arrows. The options must be used +in the right order, separated with commas. +\begin{enumerate} +\item\code{<pos>} -- possible values: + \begin{rxn} + \setarrowlength{2.5em} + \dummy[a] + \arrow{}{}\reactant{right = \ang{0}} + \branch[above right=of a]{\arrow[above right]{}{}\reactant[above right,,overlay]{above right = \ang{45}}} + \branch[above=of a]{\arrow[above]{}{}\reactant[above,,overlay]{above = \ang{90}}} + \branch[above left=of a]{\arrow[above left]{}{}\reactant[above left,,overlay]{above left = \ang{135}}} + \branch[left=of a]{\arrow[left]{}{}\reactant[left,,overlay]{left = \ang{180} = \ang{-180}}} + \branch[below left=of a]{\arrow[below left]{}{}\reactant[below left,,overlay,xshift=-2em]{below left = \ang{225} = \ang{-135}}} + \branch[below=of a]{\arrow[below]{}{}\reactant[below,,overlay]{below = \ang{270} = \ang{-90}}} + \branch[below right=of a]{\arrow[below right]{}{}\reactant[below right,,overlay,xshift=2em]{below right = \ang{315} = \ang{-45}}} + \end{rxn} + Additionally you can use every angle from the interval $[\ang{-360};\ang{360}]$. + + You can also use an angle with respect to an object that's been named with + \code{<name>}: \code{<name>.<angle>}. This means the arrow is placed in an + angle of \code{<angle>} next to \code{<name>}. You can find lots of examples in + \code{examples.tex} or\code{examples.pdf}, respectively. +\item\code{<type>} -- possible values: + \begin{rxn} + \dummy[a] + \branch[below=of a,b,yshift=.5em]{\arrow{}{}\reactant{\ttfamily -\textgreater}} + \branch[below=of b,c,yshift=.5em]{\arrow[,<-]{}{}\reactant{\ttfamily \textless-}} + \branch[below=of c,d,xshift=.25em,yshift=.5em]{\arrow[,<->]{}{}\reactant{\ttfamily \textless-\textgreater}} + \branch[below=of d,e,yshift=.5em]{\arrow[,<=>]{}{}\reactant{\ttfamily \textless=\textgreater}} + \branch[below=of e,f,xshift=.25em,yshift=.5em]{\arrow[,<=>>]{}{}\reactant{\ttfamily \textless=\textgreater{}\textgreater}} + \branch[below=of f,g,yshift=.5em]{\arrow[,<<=>]{}{}\reactant{\ttfamily \textless{}\textless=\textgreater}} + \branch[below=of g,h,xshift=-.25em,yshift=.5em]{\arrow[,-|>]{}{}\reactant{\ttfamily -\textbar\textgreater}} + \branch[below=of h,,yshift=.5em]{\arrow[,-+>]{ }{ }\reactant{\ttfamily -+\textgreater}} + \end{rxn} +\item\code{<length factor>} -- this factor multiplies with the arrow length + (\SI{4}{em} with factor = $1.0$, default) +\item\code{<name>} -- can be used to give the arrow an anchor, to which another + object can refer. +\item\code{both}-- this gives both nodes within which the labels are written the + same size. +\item\code{<tikz>} -- you can modify the arrow with \TikZ keys. Not all \TikZ + keys have an effect, though. You can't shift arrows with \code{shift=<coord>}, + for example. +\end{enumerate} +\begin{beispiel} + \begin{rxn} + \arrow[,,.25]{M}{}\arrow[,,.5]{MM}{}\arrow[,,.75]{MMM}{}\arrow{MMMM}{}\arrow[,,1.125]{MMMMM}{}\arrow[,,1.25]{MMMMM}{} + \end{rxn} +\end{beispiel} +Please note, that the labels \code{<above>} and \code{<below>} are rotated with +the arrow. At an angle of \ang{180} \code{<above>} actually is \emph{below} the arrow. +\begin{beispiel} + \begin{rxn} + \setarrowlength{2.5em} + \dummy[a] + \arrow{a}{b} + \arrow[a.45]{a}{b} + \arrow[a.90]{a}{b} + \arrow[a.135]{a}{b} + \arrow[a.180]{a}{b} + \arrow[a.225]{a}{b} + \arrow[a.270]{a}{b} + \arrow[a.315]{a}{b} + \end{rxn} +\end{beispiel} + +You need to be aware of one or two points, when using the arrow type \code{-+>}: +if you leave the labels empty, the arrow is the same as \code{->}. The first label +is the one added to the reaction, the second the one subtracted. If you use only +one of the labels only the corresponding arrow part is drawn. +\begin{beispiel} + corresponds \verb"->": + \begin{rxn} + \arrow[,-+>]{}{} + \end{rxn} + add: + \begin{rxn} + \arrow[,-+>]{a}{} + \end{rxn} + subtract: + \begin{rxn} + \arrow[,-+>]{}{b} + \end{rxn} + both add and subtract: + \begin{rxn} + \arrow[,-+>]{a}{b} + \end{rxn} + Blanks are \emph{not} an empty label: + \begin{rxn} + \arrow[,-+>]{ }{ } + \end{rxn} +\end{beispiel} + +You can change the appearance of an arrow with \TikZ keys: +\begin{beispiel} + \begin{rxn} + \mCsetup{arrowlabel=.7em,arrowlength=6em} + \reactant{A} + \arrow[20,,,,,decorate,decoration=snake,blue]{a}{b} + \reactant[20]{A$^*$} + \end{rxn} +\end{beispiel} + +\subsubsection{Alignment} +If an arrow is placed inside a branch the alignment of the branch may be +determined by the size of the label nodes. If the two labels have a different +size, alignment can go wrong. +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant[,a]{A} + \arrow{}{} + \branch[below=of a]{ + \arrow[-90]{\chemfig{-[::30]-[::-60]OH}}{} + } + \end{rxn} + \makeinvisible +\end{beispiel} +By using the option \code{both} both nodes get the same size. This can correct +the alignment. +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant[,a]{A} + \arrow{}{} + \branch[below=of a]{ + \arrow[-90,,,,both]{\chemfig{-[::30]-[::-60]OH}}{} + } + \end{rxn} + \makeinvisible +\end{beispiel} +There's more to the question of alignment in section~\ref{sssec:branch_ausrichtung}. + +\subsubsection{Appearance} +You can change the general appearance of arrows with \cmd{setarrowlength} +(section~\ref{ssec:setarrowlength}) and \cmd{setarrowline} (section~\ref{ssec:setarrowline}). + +\subsection{\cmd{branch}}\label{ssec:branch} +\cmd{branch} is used to, well, create a branch to a reaction. +\begin{beschreibung} + \Befehl{branch}[<pos>,<anchor>,<tikz>]{<branch code>} +\end{beschreibung} +For \cmd{branch} positioning an anchor is important. Let's take a look at an example: +\begin{beispiel} + \begin{rxn} + \reactant[,start]{\chemfig{-[::30]=_[::-60](-[::-60])-[::60]}} + \arrow[,,.75]{\ch{HCl}}{} + \reactant{\chemfig{-[::30]-[::-60](-[::120]Cl)(-[::-60])-[::60]}} + \chemand + \reactant{\chemfig{-[::30](-[::60]Cl)-[::-60](-[::-60])-[::60]}} + \branch[below right=of start]{ + \arrow[-45,,.75]{\ch{H2O}}{} + \reactant[-45]{\chemfig{-[::30]-[::-60](-[::120]OH)(-[::-60])-[::60]}} + \chemand + \reactant{\chemfig{-[::30](-[::60]OH)-[::-60](-[::-60])-[::60]}} + } + \end{rxn} +\end{beispiel} +The first reactant got the anchor \code{start} (line 2, also see +section~\ref{ssec:reactant}). \cmd{branch} now refers to it in its alignment +(line 7). If you don't use the alignment reference to an anchor you automatically +refer to the last \cmd{reactant} or \cmd{arrow}. If you don't use alignment at all, +then the branch is aligned to the right of the last \cmd{reactant} or \cmd{arrow}. +\begin{beispiel} + \begin{rxn} + \reactant{ \chemfig{CH_2=CH-OH} } + \arrow[,<=>,.5]{}{} + \branch{ \reactant{ \chemfig{CH_3-CH=O} } } + \end{rxn} +\end{beispiel} + +\subsubsection{Positioning}\label{sssec:branch_positionierung} +There are several ways to position a branch. It can either be part of the chain +or be a real branch. +\begin{description} + \item[\code{<angle>}] on the chain + \item[\code{<key>}] on the chain + \item[\code{<anchor>.<angle>}] not on the chain + \item[\code{on chain=going <key>}] on the chain + \item[\code{<key>=of <anchor>}] not on the chain +\end{description} + +The default behaviour is equal to \cmd{branch}[0]{}. In different situations +different ways can be favoured. For example if you want to use \cmd{branch} to +shift an arrow it can still be part of the chain. +\begin{beispiel} + \begin{rxn} + \reactant{A} + \branch[,,yshift=1em]{\arrow{}{}} + \reactant[,,yshift=-1em]{B} + \end{rxn} +\end{beispiel} + +If you like to start a real branch it \emph{does} matter which way you use. +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant[,a]{\chemfig{[:30]--[::-60]-OH}} + \arrow{}{} + \branch[a.-45]{\arrow[-45]{}{}} + \end{rxn} + \begin{rxn} + \reactant[,a]{\chemfig{[:30]--[::-60]-OH}} + \arrow{}{} + \branch[below right=of a]{\arrow[-45]{}{}} + \end{rxn} +\end{beispiel} + +If a reactant isn't squared or circled \ang{-45} does not mean the same as +``below right.'' +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant[,a,circle]{\chemfig{[:30]--[::-60]-OH}} + \arrow{}{} + \branch[a.-45]{\arrow[-45]{}{}} + \end{rxn} + \begin{rxn} + \reactant[,a,circle]{\chemfig{[:30]--[::-60]-OH}} + \arrow{}{} + \branch[below right=of a]{\arrow[-45]{}{}} + \end{rxn} +\end{beispiel} + +\subsubsection{Alignment problems}\label{sssec:branch_ausrichtung} +If an arrow has two arguments with different sizes and is placed inside a branch +the alignment of the branch can go wrong. In this case the \cmd{arrow} key +\code{both} isn't a solution since the smaller argument then is not placed next +to the arrow but is centered in its node. +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant[,a]{A} + \arrow{}{} + \branch[below=of a]{ + \arrow[below,,,,both]{\chemfig{-[::30]-[::-60]OH}}{\Hpl} + } + \end{rxn} +\end{beispiel} + +What you have to do is shift the branch using the \TikZ keys \code{xshift} and +\code{yshift}. +\begin{beispiel} + \makevisible + \begin{rxn} + \reactant[,a]{A} + \arrow{}{} + \branch[below=of a,,xshift=-1.35em]{ + \arrow[below]{\chemfig{-[::30]-[::-60]OH}}{\Hpl} + } + \end{rxn} +\end{beispiel} + +\subsection{\cmd{chemand}}\label{ssec:chemand} +The command +\begin{beschreibung} + \Befehl{chemand}[<alignment>,<anchor>,<tikz>] +\end{beschreibung} +produces and places a $+$ in the same way \cmd{reactant} places arbitrary text. +\begin{beispiel} + \begin{rxn} + \reactant{\chemfig{*6(------)}} + \chemand + \reactant{\ch{Br2}} + \arrow{$h\nu$}{} + \reactant{\chemfig{*6(--(-Br)----)}} + \chemand + \reactant{\ch{HBr}} + \end{rxn} +\end{beispiel} +The optional arguments for \cmd{chemand} and \cmd{reactant} are the same, see +section~\ref{ssec:reactant} for \cmd{reactant}'s options. + +\subsection{\cmd{dummy}}\label{ssec:dummy} +\cmd{dummy} creates an empty node. Up to v1.3 \cmd{arrow} needed to follow after +a node since \cmd{arrow} internally uses \cmd*{tikzchainprevious}. If there was +no node on the chain \emph{before} \cmd{arrow} was used an error was raised. +The same thing happened with \cmd{branch}. By using \cmd{dummy} you could start +a scheme with an arrow anyway. +\begin{beispiel}[code only] + \begin{rxn} + \dummy\arrow{}{} + \end{rxn} +\end{beispiel} +\emph{This is \emph{not} necessary any more}. In some (alignment) cases an empty +node still might be useful so the command still exists. + +\subsection{\cmd{elmove}}\label{ssec:elmove} +\cmd{elmove} just is a wrapper for \paket{chemfig}'s \cmd*{chemmove}. +\begin{beschreibung} + \Befehl{elmove}[<tikz>]{<start>}\ma{<start direction>}\ma{<end>}\ma{<end direction>} +\end{beschreibung} +This is expanding to +\begin{beispiel}[code only] + \chemmove{\draw[<tikz>](<start>).. controls +(<start direction>) and +(<end direction>)..(<end>);} +\end{beispiel} +using \oa{->,red,shorten <=3pt,shorten >=1pt} as default for \code{<tikz>}. How +you use \cmd*{chemmove} is described in the documentation of \chemfig. +\begin{beispiel} + \begin{center} + \setatomsep{1.8em} + \chemfig{*6(=[@{e1}]-=-(-[:120]Br)(-[:60]H)-(-[:-30,.4,,,white]\oplus)-[@{e2}])} + \elmove{e1}{60:4mm}{e2}{0:4mm} + \end{center} +\end{beispiel} +You should use \cmd{elmove} \emph{only inside} of \cmd{anywhere}, \cmd{reactant} +or \cmd{transition}. Otherwise you might get alignment errors. + +\subsection{\cmd{makeinvisible}}\label{ssec:makeinvisible} +\begin{beschreibung} + \Befehl{makeinvisible} +\end{beschreibung} +\cmd{makeinvisible} restores the normal \mychemistry behaviour after \cmd{makevisible} +(see section~\ref{ssec:makevisible}) has been used. \cmd{makeinvisible} only changes +the looks of nodes following after it. + +\subsection{\cmd{makevisible}}\label{ssec:makevisible} +\begin{beschreibung} + \Befehl{makevisible} +\end{beschreibung} +With \cmd{makevisible} you can visualize the nodes within which reactants, arrows +and branches are set. This is useful when you're aligning branches, for example. +You can see an example of the usage of \cmd{makevisible} in section~\ref{ssec:arrow}. +Every kind of nodes is emphasized with a different colour: + +\tikz[baseline=(X.base)]\node[draw=red!60](X){\cmd{reactant}{}};, +\tikz[baseline=(X.base)]\node[draw=green!60](X){\cmd{arrow}{above}};, +\tikz[baseline=(X.base)]\node[draw=blue!60](X){\cmd{arrow}{below}}; +and \tikz[baseline=(X.base)]\node[draw=cyan](X){\cmd{branch}{}};. +Also see section~\ref{ssec:makeinvisible}. + +\cmd{makevisible} only changes the looks of nodes following after it ond only +effects the group whithin which it is used. +\begin{beispiel} + \begin{rxn} + \makevisible + \reactant[,a]{A} + \arrow{a}{b} + \branch[below=of a]{ + \arrow[-90,,,,both]{a}{b} + } + \end{rxn} + \begin{rxn} + {\makevisible + \reactant{\chemfig{[:30]--[::-60]-OH}} + } + \reactant{\chemfig{[:30]--[::-60]-OH}} + \end{rxn} +\end{beispiel} + +\emph{Please beware that \cmd{makevisible} \emph{only} has an effect if the +package option \key{draft} is active}! + +\subsection{\cmd{marrow}}\label{ssec:marrow} +\cmd{marrow} creates a double-headed arrow. +\begin{beschreibung} + \Befehl{marrow}[<direction>] +\end{beschreibung} +It is a shortcut for \cmd{arrow}[<direction>,<->,.5]\ma{}\ma{}. + +\subsection{\cmd{mCsetup}}\label{ssec:mCsetup} +With +\begin{beschreibung} + \Befehl{mCsetup}{<keys>} +\end{beschreibung} +you can fully customize \mychemistry. For each of \mychemistry's commands going +like \cmd{set<command>} except \cmd{setbondshape} there is a key \key{<command>}{<value>}. +Additionally there is the key \key{align}{<value>} with which you can change the +alignment behaviour of both \env{rxn}{} and \env{rxnscheme}{}, and the key +\key{reset} with whith all values are reset to default. +\begin{beispiel} + \mCsetup{ + align=left, + arrowlabel=.7em, + arrowlength=3em, + arrowline=thick, + atomsize=\large, + bondlength=3em, + mergelength=4em, + rcndist=2em + %rxnalign=right, + %schemealign=left + } + \setbondshape{4pt}{2pt}{1pt} + \begin{rxn} + \reactant{A}\arrow{a}{b}\reactant{\chemfig{A-(<[2])(<:[6])-B}} + \end{rxn} + \mCsetup{reset} + \begin{rxn} + \reactant{A}\arrow{a}{b}\reactant{\chemfig{A-(<[2])(<:[6])-B}} + \end{rxn} +\end{beispiel} +\cmd{mCsetup} as well as every other setup command only effects the group whithin +which it is used. + +Here is a complete list of valid keys: +\begin{beschreibung} + \Option{align} + \Option{arrowlabel} + \Option{arrowlength} + \Option{arrowline} + \Option{atomsize} + \Option{bondlength} + \Option{elmove} + \Option{mergelength} + \Option{rcndist} + \Option{reset} + \Option{rxnalign} + \Option{schemealign} +\end{beschreibung} + +\subsection{\cmd{merge}}\label{ssec:merge} +The \cmd{merge} command is used to merge different reaction chains. In order to +do that the reactants that are to be merged must have an anchor name +(\cmd{reactant}[,<anchor>]{}), similar with branches, see sections~\ref{ssec:reactant} +and \ref{ssec:branch}) and be placed \emph{before} \cmd{merge}. +\begin{beschreibung} + \Befehl{merge}[<label>,<direction>,<length>]{<target>}\ma{<start a>}\ma{<start b>} +\end{beschreibung} +\cmd{merge} has three optional and three mandatory arguments. The latter are the +anchor names of the reactants that are to be merged. +\begin{beispiel} + \begin{rxn} + \branch[,first]{ + \reactant[,start_a]{\chemfig{-[:30]-[:-30]OH}} + \reactant[,start_b,xshift=9em]{\chemfig{-[:30]=[:-30]O}} + } + \branch[below=of first,target,yshift=-5em]{ + \reactant{\chemfig{-[:30]-[:-30]O-[:30](-[2]OH)-[:-30]}} + } + \merge[\ch{[OH^-]}]{target}{start_a}{start_b} + \end{rxn} +\end{beispiel} + +The default \code{<direction>} is \code{below}, other possible values are +\code{right}, \code{left} and \code{above}. With \code{<length>} the length of +the arrow from the point of merging to the tip can be changed. The default length +is \SI{3}{em}. The default length can be changed with \cmd{setmergelength} or +\cmd{mCsetup}. +\begin{beispiel} + \begin{rxn} + \reactant[,start_a]{\chemfig{-[:30]-[:-30]OH}} + \branch[below=of start_a,start_b,yshift=-9em]{ + \reactant{\chemfig{-[:30]=[:-30]O}} + } + \branch[right=of start_a,target,xshift=7em,yshift=-6em]{ + \reactant{\chemfig{-[:30]-[:-30]O-[:30](-[2]OH)-[:-30]}} + } + \merge[\ch{[OH^-]},right,5em]{target}{start_a}{start_b} + \end{rxn} +\end{beispiel} +Since you have to place the reactants first it might be useful to know a little +bit about involved lengths. There are three values which influence the needed +distance between start points and the target reactant. There is the \emph{depth} +of the involved reactants, the distance of the ``reaction nodes'' \emph{rcndist} +(see section~\ref{ssec:setrcndist}) and the length of the \cmd{merge} arrow +\emph{mergelength} (also see section~\ref{ssec:setmergelength}). +\begin{rxn} + \node[above](a) at (0,0){A}; + \node[above](b) at (10em,0){B}; + \node[below](c) at (5em,-6em){C}; + \merge{c}{a}{b} + \draw (-8.5em,1em) -- (-8.5em,-9em); + \foreach \x in {-1,0,1,2,3,4,5,6,7,8,9}{ + \draw (-8.5em,-\x em) -- (-8.7em,-\x em); + } + \draw[<->,red] (10em,0)--node[midway,right,xshift=.2em]{rcndist (default: 1em)}(10em,-1em); + \draw[<->,red] (0,0)--(0,-1em); + \draw[<->,red] (5em,-5em)--(5em,-6em); + \draw[<->,blue] (6em,-2em) --node[midway,right,xshift=.2em]{mergelength (default: 3em)} (6em,-5em); + \draw[<->,green] ($(a.base)+(-.5em,0)$)--node[midway,left,xshift=-.2em]{reactant depth}++(0,.5em); +\end{rxn} +At last an example where two chains are merged. +\begin{beispiel} + \begin{rxn} + \setatomsep{1.15em}\footnotesize + % chain 1 + \reactant[,first]{ \chemfig{Cl-[:30,1.5]--[:-30,1.5]O-[:30,1.5]--[:-30,1.5]Cl}{} } + \arrow[,,.5]{}{} + \reactant[,start_above]{ \chemfig{O(-[:-150]**6(-----(-OH)-))-[:90]-[:30]-[:-30]O-[:30]-[:-30]-[:-90]O-[:-30]**6(-(-HO)-----)} } + % chain 2 + \branch[below=of first,start_below,xshift=8em,yshift=-4em]{ + \reactant{ \chemfig{**6((--[6,,,2]HO)-N-(--[6]OH)----)} } + \arrow[,,.5]{}{} + \reactant{ \chemfig{**6((--[6]Br)-N-(--[6]Br)----)} } + } + % target + \branch[right=of start_above,target,xshift=5em,yshift=-4em]{ + \reactant[,c]{ \chemfig{O(-[:-150]**6(-----(-O?)-))-[:90]-[:30]**6(-N-(--[:-90]O-[:-30]**6(-(-O-[6]-[:-150]-[:150]O-[:-150]-[:150]?)-----))----)} } + } + % merging: + \merge[,right]{target}{start_above}{start_below} + \end{rxn} +\end{beispiel} +The usage of \cmd{merge} may require some playing with branches, \code{xshift} +and \code{yshift} until you get the desired result. +\begin{beispiel} + \begin{rxn} + \setatomsep{1.5em} + \reactant[,start_aa]{ \chemname{\chemfig{**6(---(-NH_2)---)}}{Anilin} } + \reactant[below,start_ab,yshift=-3em]{ \chemname{\ch{HNO2}}{salpetrige S\"aure} } + \branch[right=of start_aa,target_a,xshift=6em,yshift=-5em]{ + \reactant{ \chemname{\chemfig{**6(---(-N|_2\fpch)---)}}{Diazoniumion} } + }% = start_ba + \branch[below=of target_a,start_bb,yshift=-3em]{ + \reactant{ \chemname{\chemfig{**6(---(-NH_2)---)}}{Anilin} } + } + \branch[right=of target_a,target_b,xshift=6em,yshift=-5em]{ + \reactant{ \chemname{\chemfig{N(-[:-150]**6(------))=N-[:-30]**6(---(-NH_2)---)}}{\iupac{\para\-Amino\|diazo\|benzol}} } + } + \merge[,right]{target_a}{start_aa}{start_ab} + \merge[,right]{target_b}{target_a}{start_bb} + \end{rxn} +\end{beispiel} + +\subsection{\cmd{mesomeric}}\label{ssec:mesomeric} +The \cmd{mesomeric} command works just like \cmd{branch} (see section~\ref{ssec:branch}) +but places the formul\ae\ into square brackets. +\begin{beschreibung} + \Befehl{mesomeric}[<pos>,<anchor>,<tikz>]{<formula>} +\end{beschreibung} +The resonance formul\ae\ are written into \code{<formula>}. With \cmd{marrow} +(see section~\ref{ssec:marrow}) you can create the resonance arrows. If needed +you can give an anchor (\code{<anchor>}) to \cmd{mesomeric} (also see +section~\ref{ssec:branch}). Alignment is used the same way as with \cmd{reactant}. +\begin{beispiel} + \begin{rxn} + \mesomeric{ + \reactant{ + \chemfig{*6(=[@{e1}]-=-(-[:120]X)(-[:60]H)-(-[:-30,.4,,,white]\fplus)-[@{e2}])} + \elmove{e1}{60:4mm}{e2}{0:4mm} + } + \marrow + \reactant{ + \chemfig{*6(-(-[:90,.4,,,white]\fplus)-[@{e4}]=[@{e3}]-(-[:120]X)(-[:60]H)-=)} + \elmove{e3}{180:4mm}{e4}{150:4mm} + } + \marrow + \reactant{ + \chemfig{*6(-=-(-[:-150,.4,,,white]\fplus)-(-[:120]X)(-[:60]H)-=)} + } + } + \end{rxn} +\end{beispiel} + +Or vertical, too: +\begin{beispiel} + \begin{rxn} + \mesomeric{ + \reactant{ \chemfig{*6(=-=-=-)} } + \marrow[below] + \reactant[below]{ \chemfig{*6(-=-=-=)} } + } + \end{rxn} +\end{beispiel} + +Or maybe a coordination complex? +\begin{beispiel} + \begin{rxn} + \setatomsep{3em} + \mesomeric[,a]{ + \reactant{ \chemfig{H_3\lewis{0,N}-[,1.35,,,dotted]{Cu}(-[2,,,,dotted]\lewis{6,N}H_3)(-[6,,,,dotted]\lewis{2,N}H_3)-[,1.2,,,dotted]\lewis{4,N}H_3} } + } + \node[above right=of a,yshift=-1em] {$2\fplus$}; + \end{rxn} +\end{beispiel} + +\subsection{\cmd{reactant}}\label{ssec:reactant} +\cmd{reactant} is something like the basic command. +\begin{beschreibung} + \Befehl{reactant}[<pos>,<name>,<tikz>]{<formula>} +\end{beschreibung} +Formul\ae\ (\code{<formula>}) are written inside this command and can be named +(\code{<name>}) for other objects to refer to. \code{<pos>} can either be one of +these key words +\begin{enumerate} + \item \code{right}, + \item \code{above right}, + \item \code{above}, + \item \code{above left}, + \item \code{left}, + \item \code{below left}, + \item \code{below}, + \item \code{below right} +\end{enumerate} +or be an angle from the intervall $[\ang{-360};\ang{360}]$. You also can position +it relativ to another object via \code{<anchor>.<angle>}. The default equals +\cmd{reactant}[0]{}. +\begin{beispiel} + below: + \begin{rxn} + \reactant{\ch{Br2}} + \reactant[-90]{\ch{Cl2}} + \end{rxn} + + more than one reactant: + \begin{rxn} + \reactant{\ch{Br2}} + \reactant[-90]{\ch{I2}} + \reactant{\ch{Cl2}} + \end{rxn} + + going down: + \begin{rxn} + \reactant{\ch{Br-Br}} + \arrow[-90,,.5]{$h\nu$}{} + \reactant[-90]{\ch{2 "\Lewis{0.,Br}"}} + \end{rxn} +\end{beispiel} +You can find many more examples in the file \code{examples.tex} or +\code{examples.pdf}, respectively. + +\subsection{rxn (environment)}\label{ssec:rxn} +\env{rxn}{} is a non-floating not numbered environment for reaction schemes. Per +default all schemes are centered. +\begin{beschreibung} + \Umg{rxn}[<alignment>,<scalefactor>]{...} +\end{beschreibung} + +\subsubsection{Options}\label{sssec:rxn_optionen} +\env{rxn}{} has two options which are to be used in the following order, separated +by a comma: +\begin{enumerate} + \item\code{<alignment>}: alignment behaviour of the \env{rxn}{} environment; + default is \code{center}. + \item\code{<scalefactor>}: factor by which the \env{rxn}{} environment is scaled; + default: \code{1.0}. Same behaviour as with \env{rxnscheme}, see + section~\ref{ssec:rxnscheme}. +\end{enumerate} +If you use the \code{<scalefactor>} option you might see strange effects on +\paket{chemfig} formul\ae. + +\begin{beispiel} + \begin{rxn}[,.5] + \reactant{\chemfig{**6(------)}} + \end{rxn} +\end{beispiel} +Scaling does in general not affect the size of \paket{chemfig} formul\ae\ but +does scale the aromaticity ring of benzene and similar molecules. This is not +\mychemistry's fault: +\begin{beispiel} + \chemfig[scale=.5]{**6(------)} +\end{beispiel} +This issue can be solved either by using the \emph{first} optional argument of +\cmd*{chemfig} to undo the scaling or by using the \emph{second} optional argument +to scale the rest of the molecule. +\begin{beispiel} + \begin{rxn}[,.5] + \reactant{\chemfig[scale=2]{**6(------)}} + \reactant{\chemfig[][scale=.5]{**6(------)}} + \end{rxn} + \chemfig[scale=.5][scale=.5]{**6(------)} +\end{beispiel} + +Alignment examples: +\begin{beispiel} + \begin{rxn}[center] + \reactant{center}\arrow{}{}\reactant{centered} + \end{rxn} + \begin{rxn}[right] + \reactant{right}\arrow{}{}\reactant{raggedleft} + \end{rxn} + \begin{rxn}[left] + \reactant{left}\arrow{}{}\reactant{raggedright} + \end{rxn} +\end{beispiel} + +\subsection{rxnscheme (environment)}\label{ssec:rxnscheme} +\env{rxnscheme}{} is a floating environment for reaction schemes. +\begin{beschreibung} + \Umg{rxnscheme}[<label>,<placement>,<alignment>,<scalefactor>,<name>]{\unskip\ma{<caption>} ...} +\end{beschreibung} + +\subsubsection{Options}\label{sssec:rxnscheme_optionen} +\env{rxnscheme}{} has five options which are to be used in the following order, +separated by commas: +\begin{enumerate} + \item\code{<label>}: Like every other floating environment \env{rxnscheme}{} can + be given a label. In order to do that you need to use the option \code{<label>}. + For example if you use +\begin{beispiel}[code only] + \begin{rxnscheme}[rs:schema]{<caption>} + ... + \end{rxnscheme} +\end{beispiel} + you can refer to it by using \cmd*{ref}{rs:schema} as usual. + \item\code{<placement>}: With this option you can change the placement of the + float, \eg with \code{h}. The default value is \code{htp}. + \item\code{<alignment>}: This option changes the alignment of the scheme. You + can choose between \code{left}, \code{center} and \code{right}. + \item\code{<scalefactor>}: \env{rxnscheme}{} has another key with which the + scheme can be scaled. Please keep in mind that it doesn't affect the font size + and the size of \paket{chemfig}'s formul\ae. You can have strange effects on + \paket{chemfig}'s formul\ae\ if you use this key, though. See + section~\ref{sssec:rxn_optionen} for more information. + \item\code{<name>} This option changes the name of the actual scheme from + ``Reaction scheme'' into \code{<name>}. +\begin{beispiel}[code only] + \begin{rxnscheme}[,<placement>]{<caption>} + ... + \end{rxnscheme} +\end{beispiel} +\end{enumerate} + +\begin{beispiel}[code and float] + \begin{rxnscheme}[,,,2]{Big scheme} + \large\setatomsep{3.5em} + \reactant{ \chemfig{=[::30]-[::-60]OH} } + \arrow[,<=>]{}{} + \reactant{ \chemfig{-[::30]=[::-60]O} } + \end{rxnscheme} + \begin{rxnscheme}[,,,.5]{Small scheme} + \setatomsep{1.15em}\footnotesize + \reactant{ \chemfig{=[::30]-[::-60]OH} } + \arrow[,<=>]{}{} + \reactant{ \chemfig{-[::30]=[::-60]O} } + \end{rxnscheme} + \begin{rxnscheme}{center} + \reactant{center}\arrow{}{}\reactant{centered} + \end{rxnscheme} + \begin{rxnscheme}[,,right]{right} + \reactant{right}\arrow{}{}\reactant{raggedleft} + \end{rxnscheme} + \begin{rxnscheme}[,,left]{left} + \reactant{left}\arrow{}{}\reactant{raggedright} + \end{rxnscheme} +\end{beispiel} + +\subsubsection{Customizing rxnscheme} +\paragraph{Style} +If you don't like the style of \env{rxnscheme}{} you can change it by using +\begin{beschreibung} + \Befehl{floatstyle}{<new style>} + \Befehl{rxnfloat} +\end{beschreibung} +There are different possible styles, provided by the \paket{float} package: +\begin{description} + \item[\code{plain}] without any special formatting, the caption is below the object. + \item[\code{plaintop}] like \code{plain} but the caption is placed above the object. + \item[\code{boxed}] the object is boxed, the caption placed below. + \item[\code{ruled}] the caption is placed above the object framed by two rules, + one above and one below, another rule frames the object below; default for + \env{rxnscheme}{}. +\end{description} + +\begin{beispiel}[code and float] + \begin{rxnscheme}{ruled} + \reactant{default style} + \end{rxnscheme} + \floatstyle{boxed} + \restylefloat{rxnfloat} + \begin{rxnscheme}{boxed} + \reactant{framed object} + \end{rxnscheme} + \floatstyle{plain} + \restylefloat{rxnfloat} + \begin{rxnscheme}{plain} + \reactant{without any special formatting} + \end{rxnscheme} +\end{beispiel} +\floatstyle{ruled} +\restylefloat{rxnfloat} + +\paragraph{Placement} +Usually floating environments have an optional argument for their placement. +The default placement is \code{htp}. If you want to change it into \code{H} or +something, you can use +\begin{beschreibung} + \Befehl{floatplacement}{rxnfloat}\ma{<placement>} +\end{beschreibung} + +It's easier, though, loading \mychemistry with the \key{placement} option: +\begin{beispiel}[code only] + \usepackage[placement=<placement>]{mychemistry} +\end{beispiel} + +This will change the default placement behaviour from \code{htp} to \code{<placement>}. +You can also change the placement behaviour of just one \env{rxnscheme}{} by +using the placement option: +\begin{beispiel}[code only] + \begin{rxnscheme}[,<placement>]{<caption>} + ... + \end{rxnscheme} +\end{beispiel} + +\paragraph{Name}\label{par:rxnscheme_name} +If you want to change the name of reaction scheme you can do that with +\begin{beschreibung} + \Befehl{setschemename}{<new name>} +\end{beschreibung} +The default name is ``Reaction scheme'' but can change depending on the language +you've loaded with \paket{babel}. + +\paragraph{Counter} +The counter can be changed just as usual. For example by using +\begin{beispiel}[code only] + \makeatletter + \@addtoreset{rxnfloat}{section} + \makeatletter + \renewcommand*\therxnscheme{\arabic{section}.\arabic{rxnscheme}} +\end{beispiel} +the counter is reset with every new section an looks like \code{section.rxnscheme}. + +\paragraph{List of Schemes} +By writing +\begin{beschreibung} + \Befehl{listof}{rxnfloat}\ma{<title>} +\end{beschreibung} +you can create a list of all schemes created with \env{rxnscheme}{}. +\begin{beispiel} + \listof{rxnfloat}{Reaction schemes} +\end{beispiel} + +\subsection{\cmd{setarrowlabel}}\label{ssec:setarrowlabel} +The distance of arrow labels to the arrow has a default value of \SI{0.2}{em}. +You can change this with +\begin{beschreibung} + \Befehl{setarrowlabel}{<distance>} +\end{beschreibung} +into \code{<distance>}. +\begin{beispiel} + \begin{rxn} + \arrow{a}{b} + \setarrowlabel{.5em} + \arrow{a}{b} + \end{rxn} +\end{beispiel} + +\subsection{\cmd{setarrowlength}}\label{ssec:setarrowlength} +The default length of an reaction arrow is \SI{4}{em}. You can change this value +with +\begin{beschreibung} + \Befehl{setarrowlength}{<length>} +\end{beschreibung} +into \code{<length>}. Mind the fact that you have to use a length unit. If you +leave the argument empty the length is reset to default. + +\subsection{\cmd{setatomsize}}\label{ssec:setatomsize} +With +\begin{beschreibung} + \Befehl{setatomsize}{<font size>} +\end{beschreibung} +you can change the font size of the atom groups. Default value is \cmd*{small}. +If you leave the argument empty the size is reset to default. + +\subsection{\cmd{setbondlength}}\label{ssec:setbondlength} +With +\begin{beschreibung} + \Befehl{setbondlength}{<length>} +\end{beschreibung} +you can change \cmd{setatomsep}{<length>}= for all \paket{chemfig} formul\ae\ +\emph{inside} of the \mychemistry environments. The default value is \SI{1.8}{em}. +If you leave the argument empty the length is reset to default. + +\subsection{\cmd{setarrowline}}\label{ssec:setarrowline} +With the command +\begin{beschreibung} + \Befehl{setarrowline}{<value>} +\end{beschreibung} +the thickness of the arrows can be customized. Possible values are + \begin{flushleft} + \begin{tikzpicture} + \draw[ultra thin] (0,0)--(1,0)node[right]{\ttfamily ultra thin}; + \draw[very thin] (0,-.5)--(1,-.5)node[right]{\ttfamily very thin}; + \draw[thin] (0,-1)--(1,-1)node[right]{\ttfamily thin}; + \draw[semithick] (0,-1.5)--(1,-1.5)node[right]{{\ttfamily semithick} (default)}; + \draw[thick] (0,-2)--(1,-2)node[right]{\ttfamily thick}; + \draw[very thick] (0,-2.5)--(1,-2.5)node[right]{\ttfamily very thick}; + \draw[ultra thick] (0,-3)--(1,-3)node[right]{\ttfamily ultra thick}; + \end{tikzpicture} +\end{flushleft} + +This command also applies to \cmd{merge}. + +\subsection{\cmd{setbondshape}}\label{ssec:setbondshape} +With +\begin{beschreibung} + \Befehl{setbondshape}{<base length>}\ma{<dash thickness>}\ma{<dash spacing>} +\end{beschreibung} +you can change \cmd{setcrambond}{<base length>}\ma{<dash thickness>}\ma{<dash spacing>} +for all \paket{chemfig} formul\ae\ \emph{inside} of the \mychemistry environments. +Default values are (in this order) \SI{3}{pt}, \SI{.5}{pt} and \SI{1}{pt}. If +you leave an argument empty the value is reset to default. + +\subsection{\cmd{setelmove}}\label{ssec:setelmove} +The command +\begin{beschreibung} + \Befehl{setelmove}{<tikz>} +\end{beschreibung} +sets the default style that is used for the lines drawn by \cmd{elmove}. An empty +argument resets to \code{->,red,shorten <=3pt,shorten >=1pt}. + +\subsection{\cmd{setmergelength}}\label{ssec:setmergelength} +With +\begin{beschreibung} + \Befehl{setmergelength}{<length>} +\end{beschreibung} +you can change the length of the \cmd{merge} arrow. More precisely you can change +the length of the arrow from the point of line crossing to the arrow tip (see +section~\ref{ssec:merge}). If you leave the argument empty the value is reset to +default (\SI{3}{em}). + +\subsection{\cmd{setrcndist}}\label{ssec:setrcndist} +The nodes within which the reactants an arrows are set have a certain distance +between them. The default distance is \SI{1}{em}. If you want to change that you +can use +\begin{beschreibung} + \Befehl{setrcndist}{<length>} +\end{beschreibung} +If you leave the argument empty the distance is reset to \SI{1}{em}. +\begin{beispiel} + \setrcndist{2em} + \begin{rxn} + \reactant{A}\arrow{}{} + \end{rxn} + \setrcndist{} + \begin{rxn} + \reactant{A}\arrow{}{} + \end{rxn} +\end{beispiel} + +\subsection{\cmd{setrxnalign}/\cmd{setschemealign}}\label{ssec:setrxnalign}\label{ssec:setschemealign} +With the commands +\begin{beschreibung} + \Befehl{setrxnalign}{<alignment>} + \Befehl{setschemealign}{<alignment>} +\end{beschreibung} +The default alignment behaviour of \env{rxn}{} and \env{rxnscheme}{} (see +sections~\ref{sssec:rxn_optionen} and \ref{sssec:rxnscheme_optionen}) can be set. +You can choose between \code{left}, \code{center} and \code{right}. + +If you leave the argument empty \mychemistry's default behaviour (\code{center}) +is restored. +\begin{beispiel} + \setrxnalign{right} + \begin{rxn} + \reactant{A}\arrow{}{}\reactant{B} + \end{rxn} + \setrxnalign{} + \begin{rxn} + \reactant{A}\arrow{}{}\reactant{B} + \end{rxn} +\end{beispiel} + +\subsection{\cmd{setschemename}}\label{ssec:setschemename} +See page~\pageref{par:rxnscheme_name}. + +\subsection{\cmd{transition}}\label{ssec:transition} +\cmd{transition} works exactly like \cmd{reactant} (see section~\ref{ssec:reactant}). +\begin{beschreibung} + \Befehl{transition}[<pos>,<anchor>,<tikz>]{<formula>} +\end{beschreibung} +\begin{beispiel} + \begin{rxn} + \reactant{ \ch{H2 + I2} } + \arrow[below,<=>,.5]{}{} + \transition[below]{ \chemfig[dotted][]{H?-I-[2]I-[4]H?} } + \arrow[below,<=>,.5]{}{} + \reactant[below]{ \ch{2 HI} } + \end{rxn} +\end{beispiel} + +\appendix +\printindex +\end{document}
\ No newline at end of file |