\documentclass[a4paper,11pt]{christophe} % Packages \usepackage[latin1]{inputenc} \usepackage[T1]{fontenc} \usepackage{graphics,array} \usepackage{kpfonts} % Mise en page \setcounter{tocdepth}{0} \setlength{\parindent}{0pt} \setlength{\parsep}{0pt} \setlength{\parskip}{0pt} \renewcommand{\arraystretch}{1.3} % Special \DeclareMathSymbol{\partialup}{\mathord}{letters}{128} \DeclareMathSymbol{\narrowiiintop}{\mathop}{largesymbolsA}{135} \def\narrowiiint{\narrowiiintop\nolimits} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%% \begin{document} \begin{center} {\Huge Kp-Fonts} \bigskip {\Large \textsf{The \textsc{Johannes Kepler} project}} \medskip {\large \textsf{Release 2.31}} \end{center} \bigskip \hfill \textsc{Christophe Caignaert} \hfill \texttt{c.caignaert@free.fr} \bigskip The 2.3 release gets: \begin{itemize} \item a new option \textit{nofligatures} with no fi, fl, ff, ffi and ffl ligature. The \textit{f} glyphs are redesigned to get a good result; now, searching a word like \textit{difficult} became possible with all viewers; \item a new shape \textit{scsl} with slanted smallcaps. \end{itemize} The 2.31 release fix a bug in kpfonts.map file of the 2.3 release. \section{Kp-Fonts} \subsection{What is Kp-Fonts?} Kp-Fonts provides a full set of fonts for LaTeX typesetting, including roman, sans-serif et fixed-width fonts, as well as a set of mathematics symbol fonts with, regular and bold, all the common symbols and all those of the \textsc{ams} and more\dots The typical feature of these fonts is to have a basic and dynamic shape. For instance, look at the roman upright "a" glyphs: \bigskip \hspace{-6mm}\begin{tabular}{|c|c|c|c|c|c|}\hline Kp-Fonts & Kp-\textit{light} & CM & Palatino & Utopia & Times\\\hline \scalebox{10}{a} & \scalebox{10}{\fontfamily{jkpl}\selectfont a} & \scalebox{10}{\fontfamily{lmr}\selectfont a} & \scalebox{10}{\fontfamily{ppl}\selectfont a} & \scalebox{9.2}{\rule{0pt}{1.25ex}\fontfamily{put}\selectfont a} & \scalebox{10}{\fontfamily{ptm}\selectfont a}\\\hline \end{tabular} \bigskip The project is to provide a large set of options to customize your math or text typesetting. \medskip This LaTeX package is distributed with a \textsc{gpl} licence. \medskip Kp-Fonts doesn't require any other font package and is fully compatible with \texttt{amsmath} and \texttt{textcomp} with the \texttt{full} option. Kp-fonts loads these two packages except if you use relative options. \begin{center} \textit{You haven't to load \textbf{\texttt{amsmath}} and \textbf{\texttt{textcomp}} packages} \end{center} To use it, you just have to add \verb+\usepackage{kpfonts}+ in your document preamble, if necessary with the options described below. Besides, the aim is to get a good compatibility with different sets of math font packages. \subsection{Text fonts} \begin{itemize} \item The encodings \textsc{t1, ot1} et \textsc {ts1} are fully available, except for the uppercase symbol \verb+\SS+ in teletype fonts; if you use some accents, you have to work with \textsc{t1} encoding, \textsc{ot1} is present for historical compatibility; \item Roman fonts are available with upright, small caps, italic, slanted, small caps slanted and oldstyle shape, all with regular, bold and bold extended weight; \item Sans-serif fonts are available with upright and slanted, small caps upright and slanted shape, and oldstyle all with regular, bold and bold extended weight; \item Teletypes fonts are available with upright and slanted shape, all with regular and bold weight; \end{itemize} \begin{center}\itshape The default weight is \textbf{bold}, not \textbf{bold extended}. \end{center} \subsection{Math fonts} \begin{itemize} \item The \verb+\boldmath+ command is fully installed and Kp-Fonts \textbf{doesn't need} "poor man bold" glyphs; \item Kp-Fonts provides upright and slanted greeks: $\alphaup\betaup\gammaup\Gamma\Delta$ and $\alpha\beta\gamma\Gammasl\Deltasl$; \item \verb=\mathbb= provides $\mathbb{ABC}$, characters designed from capital upright roman; \item \verb=\mathcal= provides $\mathcal{ABC}$, slighty altered fonts from \textsc{cm}; \item With \verb=\mathscr=, you get $\mathscr{AB}\,\mathscr{C}$, without any extra package; these letters are designed from traditional fonts; \item \verb=\mathfrak= provides $\mathfrak{ABCabc}$, still from traditional fonts, altered to be more readable: read $\mathfrak{CTAN}$ and \textit{CTAN} in \texttt{www.ctan.org}! \end{itemize} \section{Options} \subsection{Main global options} \begin{description} \item[light:] then, you use the light version of the fonts. The metrics are the same. The display is not very good, but the print is fine if you like light fonts; \item[fulloldstylenums:] equivalent to both \texttt{oldstylenums} and \texttt{oldstylenumsmath}; \item[fulloldstyle:] equivalent to both \texttt{oldstyle} and \texttt{oldstylemath}; \item[fullveryoldstyle:] equivalent to both \texttt{veryoldstyle} and \texttt{veryoldstylemath}. \end{description} This text is typesetted with default fonts, and below you can see an example of the light fonts set, upright and italic, both regular and bold :\medskip \hfill\begin{minipage}{11cm}{\fontfamily{jkpl}\selectfont While the high-level font commands are intended for use in a document, the low-level commands\dots }\end{minipage} \smallskip \hfill\begin{minipage}{11cm}{\fontfamily{jkpl}\selectfont \textbf{While the high-level font commands are intended for use in a document, the low-level commands\dots} }\end{minipage} \smallskip \hfill\begin{minipage}{11cm}{\fontfamily{jkpl}\selectfont \textit{While the high-level font commands are intended for use in a document, the low-level commands\dots} }\end{minipage} \smallskip \hfill\begin{minipage}{11cm}{\fontfamily{jkpl}\selectfont \textbf{\textit{While the high-level font commands are intended for use in a document, the low-level commands\dots}} }\end{minipage} \subsection{Other global options} \begin{description} \item[nomath:] Kp-Fonts doesn't modify default mathematical fonts; \item[notext:] Kp-Fonts doesn't modify default text fonts; \item[nosf:] Kp-Fonts doesn't modify default sans serif fonts (text and math); \item[nott:] Kp-Fonts doesn't modify default fixed width fonts (text and math); \item[onlyrm:] equivalent to the last two options; \item[noamsmath:] Kp-Fonts doesn't load \textit{amsmath} package; \item[notextcomp:] Kp-Fonts doesn't load \textit{textcomp} package. \end{description} With both the two first and two last options, Kp-Fonts does nothing\dots \subsection{Text fonts options} These options affect only text fonts. \begin{description} \item[oldstylenums:] provides here oldstyle numbers by default. A new command \verb=\classicstylenums= allows you to get usual numbers in roman fonts. Some examples, upright and italic, medium and bold: \begin{itemize} \item {\fontfamily{jkposn}\selectfont 0123456789 !} \item {\fontfamily{jkposn}\selectfont \textit{0123456789 !}} \item {\fontfamily{jkposn}\selectfont \textbf{0123456789 !}} \item {\fontfamily{jkposn}\selectfont \textbf{\textit{0123456789 !}}} \end{itemize} \item[oldstyle:] provides here {\fontfamily{jkpos}\selectfont "Q"}, and oldstyle numbers by default. With roman and sans-serif fonts, you get the old ligatures {\fontfamily{jkpos}\selectfont "ct"} and {\fontfamily{jkpos}\selectfont "st"}. Oldstyle also provides the small capital {\fontfamily{jkpos}\selectfont "\textsc{q}"}. A new command \verb=\classicstylenums= allows you to get usual numbers in roman fonts. Some examples: \begin{itemize} \item {\fontfamily{jkpos}\selectfont Queer font, queer actual aesthetic!} \item {\fontfamily{jkpos}\selectfont \textit{Queer font, queer actual aesthetic!}} \item {\fontfamily{jkpos}\selectfont \textbf{Queer font, queer actual aesthetic!}} \item {\fontfamily{jkpos}\selectfont \textsc{Queer font, queer actual aesthetic!}} \item {\fontfamily{jkpos}\selectfont \textbf{\textit{Queer font, queer actual aesthetic!}}} \item {\fontfamily{jkpos}\selectfont \textsc{\textbf{Queer font, queer actual aesthetic!}}} \end{itemize} \item[veryoldstyle :] Same as the \texttt{oldstyle} option except the round "s" is replaced with the long "{\fontfamily{jkpvos}\selectfont s}\,". You can get the round "s" using the ligature "\texttt{s=}", often used at the end of the word. Example: \verb+\textit{costs=}+\quad gives \quad "{\fontfamily{jkpvos}\selectfont \textit{costs=}}" Obviously, there is no long "{\fontfamily{jkpvos}\selectfont s}\," in smallcaps shape! \item[rmx] then , you get six weights, with the correponding fonts: \medskip \begin{tabular}{|c|c|c|}\hline light & \texttt{l} & {\fontfamily{jkpx}\fontseries{l}\selectfont medium in light mode} \\ \hline medium & \texttt{m} & {\fontfamily{jkpx}\fontseries{m}\selectfont medium in default mode} \\ \hline semi-bold & \texttt{sb} & {\fontfamily{jkpx}\fontseries{sb}\selectfont bold in light mode} \\ \hline bold & \texttt{b} & {\fontfamily{jkpx}\fontseries{b}\selectfont bold in default mode} \\ \hline semi-bold extended & \texttt{sbx} & {\fontfamily{jkpx}\fontseries{sbx} \selectfont bold extended in light mode} \\ \hline bold extended & \texttt{bx} & {\fontfamily{jkpx}\fontseries{bx} \selectfont bold extended in default mode} \\ \hline \end{tabular} \medskip In this case, the \textit{light} option affects only math fonts. This option is not my favorite because the default and light families are cousins but not sisters. This option affects only roman fonts. \item[largesmallcaps] gives larger small capitals than default: {\fontfamily{jkpk}\selectfont\textsc{Large}} and \textsc{Small} (default) small capitals! \item[nofligatures] provides a typeseting without the ff, fi, fl, ffi and ffl ligatures. The letter \textit{f} has a new design to get a good aspect. This option has no effect with \textit{oldstyle} or \textit{veryoldstyle} ones. You get for instance, {\fontfamily{jkpf}\selectfont "A final effort"} instead of, "A final effort". And also, {\fontfamily{jkpf}\fontshape{it}\selectfont "A final effort"} instead of, \textit{"A final effort"}. \end{description} \subsection{New text commands} \begin{description} \item[\textbackslash textscsl\{\dots\}] and \textbf{\textbackslash scslshape :} provide slanted small caps. \begin{center} \textscsl{Slanted small caps} \end{center} \begin{center} \textit{Obviously, }\verb=\textsc{\textsl{...}}=\textit{ has not the same effect!} \textit{This shape is not usual in \TeX!} \end{center} \item[\textbackslash otherscshape, \textbackslash textothersc\{\dots\}] get the \textit{other} small caps (default or large) roman or sans-serif. \begin{center} For instance, you swap between \textsc{Small caps text} \quad\textit{and}\quad \textothersc{Small caps text} \end{center} \item[\textbackslash otherscslshape, \textbackslash textotherscsl\{\dots\}] get the \textit{other} slanted small caps (default or large) roman or sans-serif. \begin{center} For instance, you swap between \textscsl{Small caps text} \quad\textit{and}\quad \textotherscsl{Small caps text} \end{center} \item[\textbackslash othertailQ] provides the other design of the uppercase letter "Q", with small or large tail. \begin{center} For instance, you swap between Question \quad\textit{and}\quad \othertailQ uestion \end{center} \item[\textbackslash othertailscq, \textbackslash othertailscslq] are the same commands for the lowercase small capitals "\textsc{q}". \begin{center} For instance, you swap between \textsc{question} \quad\textit{and}\quad \textsc{\othertailscq uestion} \end{center} \end{description} \begin{center} \textit{The "other" commands change the \textbf{size} of the small caps} \textit{and the "othertail" commands change the \textbf{design} of the letters "Q"} \end{center} \subsection{Math font options} \begin{description} \item[nomathscript:] Kp-Fonts doesn't install the \verb=\mathscr= command; you need it if you use \verb=\mathrsfs= package; \item[mathcalasscript:] swaps the \verb=\mathcal= and \verb=\mathscr= fonts; \item[classicReIm:] the \verb=\Re= and \verb=\Im= commands produce $\mathfrak{R}$ and $\mathfrak{I}$. In default of, Kp-Fonts provides $\Re$ and $\Im$; \item[uprightRoman:] the \textit{Uppercase} romans are upright. \item[frenchstyle:] equivalent to both the options \texttt{\textbf{uprightRoman}} and \texttt{\textbf{uprightgreeks}}, uppercase romans and lowercase greeks are upright, usual French style when typesetting mathematics; lowercase romans remain slanted; \item[upright :] synonymous with the previous option; \item[oldstylenumsmath:] provides the oldstyle numbers in default and changes the \verb=\mathrm=, \verb=\mathsf= and \verb=\mathtt= fonts; they run as text fonts with \texttt{oldstylenums} option; \item[oldstylemath:] provides the oldstyle numbers in default and changes the \verb=\mathrm=, \verb=\mathsf= and \verb=\mathtt= fonts; they run as text fonts with \texttt{oldstyle} option; \item[veryoldstylemath :] same as \texttt{oldstylemath} except the round "s" is replaced with the long "{\fontfamily{jkpvos}\selectfont s}\,"; \item[narrowiints :] provides narrower multiple integral symbols : $\narrowiiint$ and $\displaystyle\narrowiiint$\quad instead of\quad $\iiint$ and $\displaystyle\iiint$ \item[partialup :] provides upright design of the \verb=\partial= symbol : $\partialup$\quad instead of\quad$\partial$ \item[noDcommand :] for compatibility with some other package, kpfont doesn't load the command \verb=\D=. \end{description} Note that, when using the \verb+oldstylenumsmath+, \verb+oldstylemath+, \verb+veryoldstylemath+, \verb+fulloldstylenums+, \verb+fulloldstyle+ or \verb+fullveryoldstyle+ options, in math mode, as the numbers {\fontfamily{jkpvos}\selectfont 3, 4, 5, 7 et 9} have a depth, superscripts are moved up. \subsection{Greek letters in math mode, options} \begin{description} \item[uprightgreeks:] \textit{lowercase} greeks are upright, $\alphaup\betaup\gammaup$; \item[slantedGreeks:] \textit{Uppercase} greeks are slanted, $\Gammasl\Deltasl$. \end{description} \section{Use} \subsection{Greek letters} We have described above the two options that alter the default greek letters. Otherwise, you can get the other greek letters using commands like \verb=\otheralpha= or \verb=\otherGamma=. The result depends on the used options. What's more, for uppercase, you can use \verb=\varGamma= synonymous with the previous. Finally, the \verb=\alphasl=, \verb=\alphaup=, \verb=\Gammaup= or \verb=\Gammasl= commands always give you the letter you want, whatever the chosen options\dots \subsection{Standard symbols} All the standard symbols are present, including all the symbols of the \texttt{amssymb} package, all with regular and bold weight. For instance: the standard symbols\quad $\leq\quad\bullet\quad\pm$\quad or \textsc{ams} symbols \quad$\twoheadrightarrow\quad\subsetneq\quad\leqslant$ \mathversion{bold} and in bold:\quad$\leq\quad\bullet\quad\pm$\quad or \quad$\twoheadrightarrow\quad\subsetneq\quad\leqslant$. \mathversion{normal} Obviously, you get the usual constructions, both regular and bold: \quad $\mapsto\longmapsto$,\quad \mathversion{bold}$\mapsto\longmapsto$\mathversion{normal} \subsection{Extra symbols} Kp-Fonts provides a lot of other symbols and a lot of negative symbols not displayed here. %\mathversion{bold} \begin{center}\begin{tabular}{r>{$}c<{$}|r>{$}c<{$}} \verb=\mappedfrom=&\mappedfrom&\verb=\longmappedfrom=&\longmappedfrom\\ \verb=\Mapsto=&\Mapsto&\verb=\Longmapsto=&\Longmapsto\\ \verb=\Mappedfrom=&\Mappedfrom&\verb=\Longmappedfrom=&\Longmappedfrom\\ \verb=\mmapsto=&\mmapsto&\verb=\longmmapsto=&\longmmapsto\\ \verb=\mmappedfrom=&\mmappedfrom&\verb=\longmmappedfrom=&\longmmappedfrom\\ \verb=\Mmapsto=&\Mmapsto&\verb=\Longmmapsto=&\Longmmapsto\\ \verb=\Mmappedfrom=&\Mmappedfrom&\verb=\Longmmappedfrom=&\Longmmappedfrom\\ \end{tabular}\end{center} \begin{center}\begin{tabular}{r>{$}c<{$}|r>{$}c<{$}} \verb=\dashleftarrow=&\dashleftarrow&\verb=\dashrightarrow=&\dashrightarrow\\ \verb=\dashleftrightarrow=&\dashleftrightarrow&\verb=\leftsquigarrow=&\leftsquigarrow\\ \verb=\Nearrow=&\Nearrow&\verb=\Searrow=&\Searrow\\ \verb=\Nwarrow=&\Nwarrow&\verb=\Swarrow=&\Swarrow\\ \verb=\varemptyset=&\varemptyset& & \\ \verb=\leadstoext=&\leadstoext&\verb=\leadsto=&\leadsto\\ \end{tabular}\end{center} You can combine these last two symbols: \verb=\leadstoext\leadstoext\leadstoext\leadsto= give\quad $\leadstoext\leadstoext\leadstoext\leadsto$ \begin{center}\begin{tabular}{r>{$}c<{$}|r>{$}c<{$}} \verb=\boxright=&\boxright&\verb=\Diamondright=&\Diamondright\\ \verb=\circleright=&\circleright&\verb=\boxleft=&\boxleft\\ \verb=\Diamondleft=&\Diamondleft&\verb=\circleleft=&\circleleft\\ \verb=\boxdotright=&\boxdotright&\verb=\Diamonddotright=&\Diamonddotright\\ \verb=\circleddotright=&\circleddotright&\verb=\boxdotleft=&\boxdotleft\\ \verb=\Diamonddotleft=&\Diamonddotleft&\verb=\circleddotleft=&\circleddotleft\\ \verb=\boxRight=&\boxRight&\verb=\boxLeft=&\boxLeft\\ \verb=\boxdotRight=&\boxdotRight&\verb=\boxdotLeft=&\boxdotLeft\\ \verb=\DiamondRight=&\DiamondRight&\verb=\DiamondLeft=&\DiamondLeft\\ \verb=\DiamonddotRight=&\DiamonddotRight&\verb=\DiamonddotLeft=&\DiamonddotLeft\\ \end{tabular}\end{center} \begin{center}\begin{tabular}{r>{$}c<{$}|r>{$}c<{$}} \verb=\multimap=&\multimap&\verb=\multimapinv=&\multimapinv\\ \verb=\multimapboth=&\multimapboth&\verb=\multimapdot=&\multimapdot\\ \verb=\multimapdotinv=&\multimapdotinv&\verb=\multimapdotboth=&\multimapdotboth\\ \verb=\multimapdotbothA=&\multimapdotbothA&\verb=\multimapdotbothB=&\multimapdotbothB\\ \verb=\multimapbothvert=&\multimapbothvert&\verb=\multimapdotbothvert=&\multimapdotbothvert\\ \verb=\multimapdotbothAvert=&\multimapdotbothAvert&\verb=\multimapdotbothBvert=&\multimapdotbothBvert\\ \end{tabular}\end{center} \begin{center}\begin{tabular}{r>{$}c<{$}|r>{$}c<{$}|r>{$}c<{$}} \verb=\Wr=&\Wr&\verb=\sqcupplus=&\sqcupplus&\verb=\sqcapplus=&\sqcapplus\\ \verb=\medcirc=&\medcirc&\verb=\medbullet=&\medbullet&\verb=\doteq=&\doteq\\ \verb=\VDash=&\VDash&\verb=\VvDash=&\VvDash& \verb=\cong=&\cong\\ \verb=\preceqq=&\preceqq& \verb=\succeqq=&\succeqq&\verb=\coloneqq=&\coloneqq\\ \verb=\varparallel=&\varparallel&\verb=\varparallelinv=&\varparallelinv&\verb=\colonapprox=&\colonapprox\\ \verb=\colonsim=&\colonsim&\verb=\Colonapprox=&\Colonapprox&\verb=\Colonsim=&\Colonsim\\ \end{tabular}\end{center} \begin{center}\begin{tabular}{r>{$}c<{$}|r>{$}c<{$}|r>{$}c<{$}} \verb=\eqqcolon=&\eqqcolon&\verb=\coloneq=&\coloneq&\verb=\eqcolon=&\eqcolon\\ \verb=\Coloneqq=&\Coloneqq& \verb=\Eqqcolon=&\Eqqcolon&\verb=\invamp=&\invamp\\ \verb=\Diamonddot=&\Diamonddot&\verb=\Diamond=&\Diamond&\verb=\Diamondblack=&\Diamondblack\\ \verb=\strictif=&\strictif&\verb=\strictfi=&\strictfi&\verb=\strictiff=&\strictiff\\ \verb=\circledless=&\circledless&\verb=\circledgtr=&\circledgtr&\verb=\circledwedge=&\circledwedge\\ \verb=\circledvee=&\circledvee&\verb=\circledbar=&\circledbar&\verb=\circledbslash=&\circledbslash \end{tabular}\end{center} \begin{center}\begin{tabular}{r>{$}c<{$}|r>{$}c<{$}|r>{$}c<{$}} \verb=\lJoin=&\lJoin&\verb=\rJoin=&\rJoin&\verb=\Join=&\Join\\ \verb=\openJoin=&\openJoin&\verb=\lrtimes=&\lrtimes&\verb=\opentimes=&\opentimes\\ \verb=\Lbag=&\Lbag&\verb=\Rbag=&\Rbag&\verb=\nplus=&\nplus\\ \verb=\Top=&\Top&\verb=\Bot=&\Bot&\verb=\Perp=&\Perp\\ \verb=\boxast=&\boxast&\verb=\boxbslash=&\boxbslash&\verb=\boxbar=&\boxbar\\ \verb=\boxslash=&\boxslash&\verb=\lambdaslash=&\lambdaslash&\verb=\lambdabar=&\lambdabar\\ \verb=\varclubsuit=&\varclubsuit&\verb=\vardiamondsuit=&\vardiamondsuit&\verb=\varheartsuit=&\varheartsuit\\ \verb=\varspadesuit=&\varspadesuit&\verb=\llbracket=&\llbracket&\verb=\rrbracket=&\rrbracket \end{tabular}\end{center} \verb=\lbag=, \verb=\rbag=, \verb=\llbracket= and \verb=\rrbracket= are vertically extensive. \subsection{Variant integrate symbols} When we write a primitive, often the result is not very attractive because the function is too far from the integrate symbol. As you can see here: \[\int f(t)\,\mathrm{d}t\] Kp-Fonts provides variant commands to avoid this. The first is the \verb=\varint= command and you get: \[\varint f(t)\,\mathrm{d}t\] It is up to you to choose whichever you prefer! Obviously, this command is not convenient for computing an integral\dots You can also use \verb=\D{...}=, the integrate symbol "d" command with best spacing: \qquad\verb=\displaystyle\varint f(t)\D{t}=\qquad gives\qquad $\displaystyle\varint f(t)\D{t}$ \bigskip With the \textit{frenchstyle} option, you get an upright "d", like above. \bigskip Others variant commands are: \verb=\variint=, \verb=\variiint=, \verb=\variiiint= et \verb=\varidotsint=. \subsection{New extensive symbols} First, the \verb=\widehat= et \verb=\widetilde= commands have been extended: \[\widetilde{tilde}\qquad\widehat{chapeau}\] Finally, some new symbols: \renewcommand{\arraystretch}{1.8} \begin{center}\begin{tabular}{r>{$}c<{$}>{$\displaystyle}c<{$}|r>{$}c<{$}>{$\displaystyle}c<{$}} \verb=\bignplus=&\bignplus&\bignplus&\verb=\bigsqcupplus=&\bigsqcupplus&\bigsqcupplus\\ \verb=\bigsqcapplus=&\bigsqcapplus&\bigsqcapplus&\verb=\bigsqcap=&\bigsqcap&\bigsqcap\\ \verb=\varprod=&\varprod&\varprod&\\ \end{tabular}\end{center} \subsection{More integrate symbols} There are many unusual integrate symbols : \renewcommand{\arraystretch}{2} \begin{center} \begin{tabular}{r>{$}c<{$}c|r>{$}c<{$}c} \verb+\oiint+ &\oiint& $\displaystyle\oiint$ & \verb+\ointctrclockwise+ &\ointctrclockwise& $\displaystyle\ointctrclockwise$ \\ \verb+\ointclockwise+ &\ointclockwise& $\displaystyle\ointclockwise$ & \verb+\sqint+ &\sqint& $\displaystyle\sqint$ \\ \verb+\idotsint+ &\idotsint& $\displaystyle\idotsint$ & \verb+\oiiint+ &\oiiint& $\displaystyle\oiiint$ \\ \verb+\varointctrclockwise+ &\varointctrclockwise& $\displaystyle\varointctrclockwise$ & \verb+\varointclockwise+ &\varointclockwise& $\displaystyle\varointclockwise$ \\ \verb+\fint+ &\fint& $\displaystyle\fint$ & \verb+\oiintctrclockwise+ &\oiintctrclockwise& $\displaystyle\oiintctrclockwise$ \\ \verb+\varoiintclockwise+ &\varoiintclockwise& $\displaystyle\varoiintclockwise$ & \verb+\oiintclockwise+ &\oiintclockwise& $\displaystyle\oiintclockwise$ \\ \verb+\varoiintctrclockwise+ &\varoiintctrclockwise& $\displaystyle\varoiintctrclockwise$ & \verb+\oiiintctrclockwise+ &\oiiintctrclockwise& $\displaystyle\oiiintctrclockwise$ \\ \verb+\varoiiintctrclockwise+ &\varoiiintctrclockwise& $\displaystyle\varoiiintctrclockwise$ & \verb+\sqiint+ &\sqiint& $\displaystyle\sqiint$ \\ \verb+\sqiiint+ &\sqiiint& $\displaystyle\sqiiint$ \\ \end{tabular} \end{center} \section{Installation} \begin{itemize} \item With MikTeX, install the package as described here: \begin{verbatim} http://docs.miktex.org/manual/pkgmgt.html#id562117 \end{verbatim} \item With other distribution, or to install manualy with MikTeX, follow these instructions: \begin{enumerate} \item The tree provides a standard \textsc{tds}. You have to copy all the files in one of your local \texttt{texmf} trees first and then update your data base files. \item Now, you have to deal with the \texttt{.map} file. \begin{itemize} \item If you have a \texttt{web2c} distribution, just run \texttt{updmap}: \begin{verbatim} updmap --enable Map=kpfonts.map \end{verbatim} and/or, this time as \textit{root}: \begin{verbatim} updmap-sys --enable Map=kpfonts.map \end{verbatim} \item With MikTeX, follow the instructions of the manual: \begin{verbatim} http://docs.miktex.org/manual/advanced.html#psfonts \end{verbatim} \end{itemize} \end{enumerate} \end{itemize} \section{Some extra points} \subsection{The \textsc{Johannes Kepler}-project text families} If you want, or if you have to use the low-level commands, the names of the families are: \begin{center}\begin{tabular}{|l|l|}\hline \textbf{roman}& jkp[l,x][k][f][osn,os,vos]\\\hline \textbf{sans serif}& jkpss[k][f][osn,os,vos]\\\hline \textbf{teletype}& jkptt[osn,os,vos]\\\hline \end{tabular}\end{center} with the relative options: \begin{center}\begin{tabular}{|l|l|}\hline \textbf{l, x}& light, rmx\\\hline \textbf{k}& largesmallcaps\\\hline \textbf{f}&nofligatures\\\hline \textbf{osn, os, vos}& oldstylenums, oldstyle, veryoldstyle\\\hline \end{tabular}\end{center} Obviously, you can't have \textbf{f} and \textbf{os} or \textbf{vos}. Note that all the families support \textsc{ot}\oldstylenums{1}, \textsc{t}\oldstylenums{1} and \textsc{ts}\oldstylenums{1} encodings. \subsection{Metrics and compatibility} \begin{itemize} \item The \textit{light} option does not change any metric; \item The \textit{oldstylenums} or \textit{oldstyle} options do not change any horizontal metric; \item The \textit{veryoldstyle} family options change the metrics of the lowercase 's' and the height of the superscripts in math mode; \item There is a full compatibility of the options, except if it is a nonsense, like both the \textit{nomath} and \textit{frenchstyle} options; \item In case of conflict between \textit{oldstylenums}, \textit{oldstyle} and \textit{veryoldstyle} family options, the lighter options are ignored. \end{itemize} \subsection{Displaying and printing} Often, some display and printing problems exist\dots The main reason is an automatic hinting. I'm not a professional typograph and I can't do better; besides, there are some printing problems with old releases of \textit{Acroread}\textregistered{} using \textit{Windows}\textregistered. Note that the printing is better using \textit{Ghostscript-Ghostview}\textregistered\dots With the \textit{light} option, the print is better than display! \subsection{Abstract} You get almost all the features of \textit{kpfonts} in one page with the file \begin{center}\textit{kpfonts-abstract.pdf}\end{center} \subsection{My favorite options} \begin{itemize} \item For text-only document, I use the \textit{light} and \textit{oldstyle} options; \item and for text and math document, I use the \textit{light, frenchstyle}, \textit{narrowiints} and \textit{partialup} options, but I'm french! \end{itemize} \subsection{\textsc{Johannes Kepler 1571-1630}} \textsc{Kepler} was forced, due to the counter Reformation and because he was a Lutheran, to move to Prague to work with the renowned Danish astronomer, \textsc{Tycho Brahe}. Using the data that \textsc{Tycho} had collected, \textsc{Kepler} discovered the first two laws of planetary motion (1609). And what is just as important about this work is that it is the first published account wherein a scientist documents shows how he has coped with the multitude of imperfect data to forge a theory of surpassing accuracy" (\textsc{O. Gingerich} in foreword to \textsc{Johannes Kepler} New Astronomy translated by \textsc{W. Donahue}, Cambridge Univ Press, 1992), in other words a fundamental law of nature. Today we call this the scientific method. From nasa website http://kepler.nasa.gov/johannes/ \subsection{Remark} Note that \textit{Kepler}\textregistered{} is a registered font name supplied by \textit{Adobe}\texttrademark. The Kp-Fonts have nothing to do with those. \subsection{Thanks} Many thanks to \begin{itemize} \item \textsc{Nicolas Boulenguez} (Tests); \item \textsc{Michel Bovani} (Fonts); \item \textsc{Daniel Flipo} (\LaTeX); \item \textsc{Souraya Muhidine} (Translation reviewing) \item \textsc{Peter Rosenberg} (\textsc{urw}) \item \textsc{Christian Tellechea} (package \textit{xstring}) \end{itemize} \end{document}