%% \CharacterTable
%% {Upper-case \A\B\C\D\E\F\G\H\I\J\K\L\M\N\O\P\Q\R\S\T\U\V\W\X\Y\Z
%% Lower-case \a\b\c\d\e\f\g\h\i\j\k\l\m\n\o\p\q\r\s\t\u\v\w\x\y\z
%% Digits \0\1\2\3\4\5\6\7\8\9
%% Exclamation \! Double quote \" Hash (number) \#
%% Dollar \$ Percent \% Ampersand \&
%% Acute accent \' Left paren \( Right paren \)
%% Asterisk \* Plus \+ Comma \,
%% Minus \- Point \. Solidus \/
%% Colon \: Semicolon \; Less than \<
%% Equals \= Greater than \> Question mark \?
%% Commercial at \@ Left bracket \[ Backslash \\
%% Right bracket \] Circumflex \^ Underscore \_
%% Grave accent \` Left brace \{ Vertical bar \|
%% Right brace \} Tilde \~}
%\iffalse
%
% (c) copyright 1999-2002 Apostolos Syropoulos
% This program can be redistributed and/or modified under the terms
% of the LaTeX Project Public License Distributed from CTAN
% archives in directory macros/latex/base/lppl.txt; either
% version 1 of the License, or any later version.
%
% However, the above copyright notice does not apply in the case of
% ``Crete University Press'' as this publisher is not allowed to
% use or alter this file in any way.
%
% Please report errors or suggestions for improvement to
%
% Apostolos Syropoulos
% 366, 28th October Str.
% GR-671 00 Xanthi, GREECE
% apostolo@ocean1.ee.duth.gr or apostolo@obelix.ee.duth.gr
%
%\fi
% \CheckSum{61}
% \iffalse This is a Metacomment
%
%<grtimes >\ProvidesFile{grtimes.sty}
%<LGRptm, >\ProvidesFile{lgrcmr.fd}
%<LGRpcr, >\ProvidesFile{lgrpcr.fd}
%<LGRphv, >\ProvidesFile{lgrphv.fd}
%
%<grtimes, > [1999/03/02 v1.0 Package `greek.sty']
%<LGRptm, > [1999/03/02 v1.0 Greek Times New Roman]
%<LGRpcr, > [1999/03/02 v1.0 Greek Courier]
%<LGRphv, > [1999/03/02 v1.0 Greek Arial]
%
% \begin{macrocode}
%<*driver>
\documentclass{ltxdoc}
\usepackage{mflogo}
\GetFileInfo{grtimes.drv}
\begin{document}
\DocInput{grtimes.dtx}
\end{document}
%</driver>
% \end{macrocode}
% \fi
%
%\title{The `grtimes' package}
%\author{Apostolos Syropoulos\\366, 28th October Str.\\
%GR-671 00 Xanthi, HELLAS\\
%Email:\texttt{apostolo@obelix.ee.duth.gr}\\ or \\
%\hphantom{Email:}\texttt{apostolo@ocean1.ee.duth.gr}}
% \date{1999/03/20}
%\maketitle
%
%\MakeShortVerb{\|}
%\StopEventually{}
%\section{Introduction}
% This \LaTeX\ package is part of a complete package that makes it possible
% to typeset Greek text using the Greek option of the \textsf{babel} and
% the fonts that are used mostly in Greece for ordinary everyday documents,
% i.e., Times New Roman Greek, Courier Greek and Arial Greek. Since, the
% present package is supposed to be a companion of the package |times|,
% it designed to work harmoniously with it. For this reason, the fond
% definitions, i.e., all the |.fd| files, have been defined in way that
% matches the definition of the corresponding files of the |times| package.
% It is important to note that the fonts have been converted to \MF\ files
% from TrueType sources, which in turn can be downloaded from the URL:
% \begin{center}
% |http://www.microsoft.com/typography/fontpack/default.htm|
% \end{center}
% However, redistribution of derivative fonts is not allowed and hence we
% don't provide the \MF\ files and the |.tfm| files. In order to create
% the \MF\ files one can use the program |ttf2mf| by Oleg Motygin, which
% can be downloaded from any CTAN node. The names of all necessary fonts
% are listed in the file |font-names|, which is part of this package.
%
% The complete package provides the following \LaTeX\ files:
%\begin{center}
% \begin{tabular}{ll}
% driver & produce a documentation driver file \\
% grtimes & the package itself \\
% LGRptm & The Greek Times New Roman font shapes\\
% LGRpcr & The Greek Courier font shape\\
% LGRphv & The Greek Arial font shape\\
% LGRligs & \MF\ ligature table for generated fonts
% \end{tabular}
% \end{center}
%
% \section{The package `grtimes'}
% The package `grtimes' changes the roman, san-serif and typewriter
% families so that the new fonts can be used. Moreover, since we want
% to be able to use this package in conjuction with the Greek option
% of the babel package, we must redefine certain macros.
%
% \begin{macrocode}
%<*grtimes>
\ProvidesFile{grtimes.sty}[1999/03/02 v1.0 grtimes package]
\renewcommand{\sfdefault}{phv}
\renewcommand{\rmdefault}{ptm}
\renewcommand{\ttdefault}{pcr}
% \end{macrocode}
%
% Unfortunately, the fonts we are using do not contain the necesary glyphs
% in order to typeset Greek numerals, so we must redefine all commands
% that either use them or produce them. First we redine the command
% |\stigma| so that it is possible to typeset the Greek numeral for 6.
% We simply employ the modern way of writing this numeral with the letters
% sigma and tau. Moreover, we employ a special character that resembles
% somehow the |\anwtonos| charecter in order to typeset Greek numerals
% less than 99, just because the fonts do not contain plyphs for the
% |\qoppa|, |\sampi| and |\katwtonos| symbols.
% \begin{macrocode}
\def\stigma{st}
\DeclareTextCommand{\anwtonos}{LGR}{\char'047\relax}
\let\katwtonos\relax
\let\qoppa\relax
\let\sampi\relax
%</grtimes>
% \end{macrocode}
%
% \section{The Roman Font}
% You have opted not to create all possible font sizes, but rather to create
% the basic ones, since the program |ttf2mf| produces rather large files
% ($>100\,\mathrm{K}$). The names of the external \MF\ files have the
% general form: |grtmX| for the normal face, |grtmoX| for the oblique face,
% |grtmbX| for the bold face, and |grtmboX| for the oblique bold face, where
% |X| stands for the face size. We first define the new font family and then
% provide the definition for the normal and the oblique (slanted) face.
% \begin{macrocode}
%<*LGRptm>
\DeclareFontFamily{LGR}{ptm}{}
\DeclareFontShape{LGR}{ptm}{m}{n}
{ <5> grtm5
<6><7> grtm8
<8> <9> <10> gen * grtm
<10.95><12><14.4> grtm10
<17.28><20.74><24.88> grtm17}{}
\DeclareFontShape{LGR}{ptm}{m}{sl}
{ <5> grtmo5
<6><7> grtmo8
<8> <9> <10> gen * grtmo
<10.95><12><14.4> grtmo10
<17.28><20.74><24.88> grtmo17}{}
% \end{macrocode}
% The font does not include an italic shape as well a caps and small caps
% shape, so we have to provide some silent substitutions.
% \begin{macrocode}
\DeclareFontShape{LGR}{ptm}{m}{it}{ <-> ssub * ptm/m/sl}{}
\DeclareFontShape{LGR}{ptm}{m}{sc}{ <-> ssub * ptm/m/n}{}
% \end{macrocode}
% Now come the definitions for the bold weight versions of the font.
% \begin{macrocode}
\DeclareFontShape{LGR}{ptm}{b}{n}
{ <5> grtmb5
<6><7> grtmb8
<8> <9> <10> gen * grtmb
<10.95><12><14.4> grtmb10
<17.28><20.74><24.88> grtmb17}{}
\DeclareFontShape{LGR}{ptm}{b}{sl}
{ <5> grtmbo5
<6><7> grtmbo8
<8> <9> <10> gen * grtmbo
<10.95><12><14.4> grtmbo10
<17.28><20.74><24.88> grtmbo17}{}
% \end{macrocode}
% As previously no italic and caps and small caps shapes exists and so
% we have to provide again some silent substitutions.
% \begin{macrocode}
\DeclareFontShape{LGR}{ptm}{b}{it}{ <-> ssub * ptm/b/sl}{}
\DeclareFontShape{LGR}{ptm}{b}{sc}{ <-> ssub * ptm/m/sc}{}
\DeclareFontShape{LGR}{ptm}{bx}{n}{ <-> ssub * ptm/b/n}{}
\DeclareFontShape{LGR}{ptm}{bx}{it}{ <-> ssub * ptm/b/sl}{}
\DeclareFontShape{LGR}{ptm}{bx}{sl}{ <-> ssub * ptm/b/sl}{}
\DeclareFontShape{LGR}{ptm}{bx}{sc}{ <-> ssub * ptm/m/sc}{}
%</LGRptm>
% \end{macrocode}
% \section{The Typewriter font}
% The typewriter font has excactly the same problems as the roman font.
% The names of the external \MF\ files have the
% general form: |grcrX| for the normal face, |grcroX| for the oblique face,
% |grcrbX| for the bold face, and |grcrboX| for the oblique bold face,
% where |X| stands for the face size. We first define the normal and slanted
% faces.
% \begin{macrocode}
%<*LGRpcr>
\DeclareFontFamily{LGR}{pcr}{}
\DeclareFontShape{LGR}{pcr}{m}{n}
{ <5> grcr5
<6><7> grcr8
<8> <9> <10> gen * grcr
<10.95><12><14.4> grcr10
<17.28><20.74><24.88> grcr17}{}
\DeclareFontShape{LGR}{pcr}{m}{sl}
{ <5> grcro5
<6><7> grcro8
<8> <9> <10> gen * grcro
<10.95><12><14.4> grcro10
<17.28><20.74><24.88> grcro17}{}
% \end{macrocode}
% Next we define some silent substitutions for the non existent italic
% caps and small caps shapes.
% \begin{macrocode}
\DeclareFontShape{LGR}{pcr}{m}{it}{ <-> ssub * pcr/m/sl}{}
\DeclareFontShape{LGR}{pcr}{m}{sc}{ <-> ssub * pcr/m/n}{}
% \end{macrocode}
% Now, we define the normal bold and the slanted bold faces.
% \begin{macrocode}
\DeclareFontShape{LGR}{pcr}{b}{n}
{ <5> grcrb5
<6><7> grcrb8
<8> <9> <10> gen * grcrb
<10.95><12><14.4> grcrb10
<17.28><20.74><24.88> grcrb17}{}
\DeclareFontShape{LGR}{pcr}{b}{sl}
{ <5> grcrbo5
<6><7> grcrbo8
<8> <9> <10> gen * grcrbo
<10.95><12><14.4> grcrbo10
<17.28><20.74><24.88> grcrbo17}{}
% \end{macrocode}
% And finally we define some more silent substitutions
% \begin{macrocode}
\DeclareFontShape{LGR}{pcr}{b}{it}{ <-> ssub * pcr/b/sl}{}
\DeclareFontShape{LGR}{pcr}{b}{sc}{ <-> ssub * pcr/m/sc}{}
\DeclareFontShape{LGR}{pcr}{bx}{n}{ <-> ssub * pcr/b/n}{}
\DeclareFontShape{LGR}{pcr}{bx}{it}{ <-> ssub * pcr/b/sl}{}
\DeclareFontShape{LGR}{pcr}{bx}{sl}{ <-> ssub * pcr/b/sl}{}
\DeclareFontShape{LGR}{pcr}{bx}{sc}{ <-> ssub * pcr/m/sc}{}
%</LGRpcr>
% \end{macrocode}
% \section{The San-serif font}
% The san-serif font has excactly the same problems as the roman and the
% typewrite font. So, we will provide any further documentation on the
% code. The names of the external \MF\ files have the
% general form: |grarX| for the normal face, |graroX| for the oblique face,
% |grarbX| for the bold face, and |grarboX| for the oblique bold face, where
% |X| stands for the face size.
% \begin{macrocode}
%<*LGRphv>
\DeclareFontFamily{LGR}{phv}{}
\DeclareFontShape{LGR}{phv}{m}{n}
{ <5> grar5
<6><7> grar8
<8> <9> <10> gen * grar
<10.95><12><14.4> grar10
<17.28><20.74><24.88> grar17}{}
\DeclareFontShape{LGR}{phv}{m}{sl}
{ <5> graro5
<6><7> graro8
<8> <9> <10> gen * graro
<10.95><12><14.4> graro10
<17.28><20.74><24.88> graro17}{}
\DeclareFontShape{LGR}{phv}{m}{it}{ <-> ssub * phv/m/sl}{}
\DeclareFontShape{LGR}{phv}{m}{sc}{ <-> ssub * phv/m/n}{}
\DeclareFontShape{LGR}{phv}{b}{n}
{ <5> grarb5
<6><7> grarb8
<8> <9> <10> gen * grarb
<10.95><12><14.4> grarb10
<17.28><20.74><24.88> grarb17}{}
\DeclareFontShape{LGR}{phv}{b}{sl}
{ <5> grarbo5
<6><7> grarbo8
<8> <9> <10> gen * grarbo
<10.95><12><14.4> grarbo10
<17.28><20.74><24.88> grarbo17}{}
\DeclareFontShape{LGR}{phv}{b}{it}{ <-> ssub * phv/b/sl}{}
\DeclareFontShape{LGR}{phv}{b}{sc}{ <-> ssub * phv/m/sc}{}
\DeclareFontShape{LGR}{phv}{bx}{n}{ <-> ssub * phv/b/n}{}
\DeclareFontShape{LGR}{phv}{bx}{it}{ <-> ssub * phv/b/sl}{}
\DeclareFontShape{LGR}{phv}{bx}{sl}{ <-> ssub * phv/b/sl}{}
\DeclareFontShape{LGR}{phv}{bx}{sc}{ <-> ssub * phv/m/sc}{}
%</LGRphv>
% \end{macrocode}
% \section{\MF\ Ligature Table}
%
% The ligature table is essential in order to emulate the behavior
% of the LGR encoding. We start by defining that the space character
% is actually a boundary character. This is necessary for the sigma
% logarures.
% \begin{macrocode}
%<*LGRligs>
boundarychar:=oct"040";
% \end{macrocode}
% Now we define a few simple ligatures
% like the en-dash, the em-dash, open Greek quotes and close Greek quotes.
% \begin{macrocode}
diaer=oct"042";
ligtable "-": "-" =: oct"000"; % en-dash
ligtable oct"000": "-" =: oct"177"; % em-dash
ligtable "(": "(" =: oct"173"; % open quotes
ligtable ")": ")" =: oct"175"; % close quotes
% \end{macrocode}
% In (monotonic) Greek either the letter upsilon or the letter iota
% can take a diaeresis and possible an acute. If we prepend to either
% letter the symbol |"| (double quote), it considered to be a diaeresis;
% moreover if it is followed by the symbol |'| (single quote), then we
% have both a diaeresis and an acute.
% \begin{macrocode}
ligtable diaer: % diaeresis
"'" =: oct"043",
"i" =: oct"360", "u" =: oct"364",
"I" =: oct"333", "U" =: oct"337";
ligtable oct"043": % diaeresis and acute
"i" =: oct"362", "u" =: oct"366";
% \end{macrocode}
% Next, we define all the possible ligatures that produce an accented
% vowel, i.e, acute plus vowel. However, we generate the \MF\ file from the
% TrueType sources we employ an encoding which maps the Greek letters to the
% possitions assumed by the LGR encoding. But, since all characters
% are accented, while the LGR encoding assumes that capital letters get
% their accents and breatings with ligatures, we had to put the capital
% accented letters in free slots. Since the fonts are monotonic, we opted
% to put each capital letter in the slot occupied by the lowercase letter
% accented with greve.
% \begin{macrocode}
ligtable "'": % acute
diaer =: oct"043", "'" =: oct"035",
"a" =: oct"210", "h" =: oct"240", "w" =: oct"270",
"e" =: oct"350", "o" =: oct"354", "i" =: oct"320",
"u" =: oct"324",
"A" =: oct"200", "H" =: oct"230", "W" =: oct"260",
"I" =: oct"310", "E" =: oct"340", "U" =: oct"314",
"O" =: oct"344";
% \end{macrocode}
% Finally, we must treat the proper way the final sigma, i.e., left sigma is
% replaced with final sigma, while right character is preserved. The code
% is copied essentialy verbatim from the |cbligs.mf| by Claudio Beccari.
% \begin{macrocode}
ligtable "s":"." =:| "c", "," =:| "c", ";" =:| "c",
":" =:| "c", "?" =:| "c", "!" =:| "c",
")" =:| "c", "/" =:| "c", "]" =:| "c",
oct"052" =:| "c", oct"035" =:| "c", oct"040" =:| "c";
endinput;
%</LGRligs>
% \end{macrocode}
% \section*{Acknowledgement}
% I must thank Antonis Tsolomitis for his help during the preparation of
% this package.
% \Finale