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%% This is part of the OpTeX project, see http://petr.olsak.net/optex

\_codedecl \fontfam {Fonts selection system <2021-02-25>} % preloaded in format

   \_doc -----------------------------
   \`\initunifonts` macro extends \LuaTeX's font capabalities,
   in order to be able to load Unicode fonts. Unfortunately, this part of
   \OpTeX/ depends on `luaotfload` package, which adapts Con\TeX/t's generic
   font loader for plain \TeX/ and \LaTeX. `luaotfload` uses Lua functions
   from \LaTeX's `luatexbase` namespace, we provide our own replacements.
   Moreover, `\initunifont` switches with
   the \^`\_doresizefont` macro to OTF mode which is represented by the
   macro \`\_doresizeunifont`. This mode includes
   a fallback to TFM mode if \^`\_fontnamegen` is not defined.
   Finally, `\initunifonts` sets itself to relax because we don't want to do
   this work twice.\nl
   \`\_ttunifont` is default font for `\tt` variant if
   `f-lmfonts.opm` (or another font file where `\tt` is declared) is not loaded.
   \_cod -----------------------------

\_def\_initunifonts {%
   \directlua{%
      require('luaotfload-main')
      luaotfload.main()
   }%
   \_gdef\_rfskipatX ##1" ##2\_relax{"##1"}%
   \_global\_let \_doresizefont=\_doresizeunifont
   \_gdef\_tryloadtt {\_fontdef\_tentt{\_let\_fontnamegen=\_ttunifont\_rm}}%
   \_global\_let \_initunifonts=\_relax % we need not to do this work twice
   \_global\_let \initunifonts=\_relax
}
\_gdef\_doresizeunifont #1{\_logfont{#1}%
   \_ifx\_fontnamegen\_undefined \_doresizetfmfont#1\_else
       \_font#1={\_fontnamegen} \_sizespec \_relax \_setwsp#1\_relax
   \_fi
}
\_def\_ttunifont{[lmmono10-regular]:\_fontfeatures-tlig;}

\_public \initunifonts ;

   \_doc -----------------------------
   The \`\_famdecl` `[<Family Name>] \<Famselector> {<comment>} {<modifiers>} {<variants>} {<math>}`\nl
   `{<font for testing>} {\def`\^`\_fontnamegen``{<data>}}` runs \^`\initunifonts`, then
   checks if `\<Famselector>` is defined. If it is true, then closes the file by
   `\endinput`. Else it defines `\<Famselector>` and saves it to the
   internal `\_f:<currfamily>:main.fam` command.
   The macro \`\_initfontfamily` needs it. The \`\_currfamily` is set
   to the `<Famselector>` because the following \^`\moddef` commands need to
   be in the right font family context. The `\_currfamily` is set to the
   `<Famselector>` by the `\<Famselector>` too, because `\<Famselector>`
   must set the right font family context. The font family context is given by the current
   `\_currfamily` value and by the actual meaning of the \^`\_fontnamegen` macro.
   The \`\_mathfaminfo` is saved for usage in the catalog.
   \_cod -----------------------------

\_def\_famdecl [#1]#2#3#4#5#6#7#8{%
   \_initunifonts \_uniaccents
   \_unless\_ifcsname _f:\_csstring#2:main.fam\_endcsname
      \_isfont{#7}\_iffalse
         \_opwarning{Family [#1] skipped, font "#7" not found}\_ea\_ea\_ea\_endinput \_else
         \_edef\_currfamily {\_csstring #2}\_def\_mathfaminfo{#6}%
         \_wterm {FONT: [#1] -- \_string#2 \_detokenize{(#3)^^J mods:{#4} vars:{#5} math:{#6}}}%
         \_unless \_ifx #2\_undefined
            \_opwarning{\_string#2 is redefined by \_string\_famdecl\_space[#1]}\_fi
         \_protected\_edef#2{\_def\_noexpand\_currfamily{\_csstring #2}\_unexpanded{#8\_resetfam}}%
         \_ea \_let \_csname _f:\_currfamily:main.fam\_endcsname =#2%
      \_fi
   \_else \_csname _f:\_csstring#2:main.fam\_endcsname \_reloading \_rm \_ea \_endinput \_fi
}
\_def\_initfontfamily{%
   \_csname _f:\_currfamily:main.fam\_endcsname \_reloading \_rm
}

   \_doc -----------------------------
   \`\_regoptsizes` `<internal-template> <left-output>?<right-output> <resizing-data>`
   prepares data for using by the \`\_optname` `<internal-template>` macro.
   The data are saved to the `\_oz:<internal-template>` macro.
   When the `\_optname` is expanded then the data are scanned by the macro
   \`\_optnameA` `<left-output>?<right-output> <mid-output> `\code{<}`<size>`
   in the loop.\nl
   \`\_optfontalias` `{<template A>}{<template B>}` is defined as
   `\let\_oz:<templateA>=\_oz:<templateB>`.
   \_cod -----------------------------

\_def\_regoptsizes #1 #2?#3 #4*{\_sdef{_oz:#1}{#2?#3 #4* }}
\_def\_optname #1{\_ifcsname _oz:#1\_endcsname
   \_ea\_ea\_ea \_optnameA \_csname _oz:#1\_ea\_endcsname
   \_else \_failedoptname{#1}\_fi
}
\_def\_failedoptname #1{optname-fails:(#1)}
\_def\_optnameA #1?#2 #3 <#4 {\_ifx*#4#1#3#2\_else
   \_ifdim\_optsize<#4pt #1#3#2\_optnameC
   \_else \_afterfifi \_optnameA #1?#2 \_fi\_fi
}
\_def\_optnameC #1* {\_fi\_fi}
\_def\_afterfifi #1\_fi\_fi{\_fi\_fi #1}
\_def\_optfontalias #1#2{\_slet{_oz:#1}{_oz:#2}}

   \_doc -----------------------------
   \`\_fvars` `<rm-template> <bf-template> <it-template> <bi-template>`
   saves data for usage by the `\_currV` macro. If a template is only dot
   then previous template is used (it can be used if the font family doesn't
   dispose with all standard variants).
   \nl
   \`\_currV` expands to a template declared by `\_fvars` depending on the
   `<variant name>`. Usable only of standard four variants. Next variants
   can be declared by the \^`\famvardef` macro.
   \nl
   \`\_fsetV` `<key>=<value>,...,<key>=<value>` expands to
   `\def\_<key>V{<value>}` in the loop.
   \nl
   \`\_onlyif` `<key>=<value-a>,<value-b>...,<value-z>: {<what>}`
   runs <what> only if the `\_<key>V` is defined as `<value-a>` or
   `<value-b>` or ... or `<value-z>`.
   \nl
   \`\_prepcommalist` `ab,{},cd,\_end,` expands to `ab,,cd,` (auxiliary macro
   used in `\_onlyif`).
   \_cod -----------------------------

\_def\_fvars #1 #2 #3 #4 {%
   \_sdef{_fvar:rm}{#1}%
   \_sdef{_fvar:bf}{#2}%
   \_ifx.#2\_slet{_fvar:bf}{_fvar:rm}\_fi
   \_sdef{_fvar:it}{#3}%
   \_ifx.#3\_slet{_fvar:it}{_fvar:rm}\_fi
   \_sdef{_fvar:bi}{#4}%
   \_ifx.#4\_slet{_fvar:bi}{_fvar:it}\_fi
}
\_def\_currV{\_cs{_fvar:\_whatresize}}
\_def\_V{ }
\_def \_fsetV #1 {\_fsetVa #1,=,}
\_def \_fsetVa #1=#2,{\_isempty{#1}\_iffalse
   \_ifx,#1\_else\_sdef{_#1V}{#2}\_ea\_ea\_ea\_fsetVa\_fi\_fi
}
\_def \_onlyif #1=#2:#3{%
    \_edef\_act{\_noexpand\_isinlist{,\_prepcommalist #2,\_end,}{,\_cs{_#1V},}}\_act
    \_iftrue #3\_fi
}
\_def\_prepcommalist#1,{\_ifx\_end#1\_empty\_else #1,\_ea\_prepcommalist\_fi}

   \_doc -----------------------------
   The \`\moddef` `\<modifier> {<data>}` simply speaking does
   `\def\<modifier>{<data>}`, but we need to respect
   the family context. In fact, `\protected\def\_f:<current family>:<modifier>{<data>}` is
   performed and the `\<modifier>` is defined as
   \`\_famdepend``\<modifier>{_f:\_currfamily:<modifier>}`. It expands to
   `\_f:\_currfamily:<modifier>` value if it is defined or it prints
   the warning. When the `\_currfamily` value is
   changed then we can declare the same `\<modifier>` with a different meaning.

   When a user declares a prefixed variant of the `\<modifier>` then unprefixed
   modifier name is used in internal macros, this is the reason why we are using
   the \`\_remifirstunderscore``\_tmp` (where `\_tmp` expands to
   `_<something>` or to `<something>`. The `\_remifirstunderscore`
   redefines `\_tmp` in the way that it
   expands only to `<something>` without the first `_`.

   \`\_setnewmeaning` `<cs-name>=\_tmpa <by-what>` does exactly `\_let <csname>=\_tmpa`
   but warning is printed if <cs-name> is defined already and it is not a variant
   selector or font modifier.

   \`\_addtomodlist` `<font modifier>` adds given modifier to \`\_modlist`
   macro. This list is used after `\resetmod` when a new family is selected by
   a family selector, see \`\_resetfam` macro.
   This allows reinitializing the same current modifiers in the font context
   after the family is changed.
   \_cod -----------------------------

\_def \_moddef #1#2{\_edef\_tmp{\_csstring#1}%
   \_sdef{_f:\_currfamily:\_tmp}{\_addtomodlist#1#2\_reloading}%
   \_protected \_edef \_tmpa{\_noexpand\_famdepend\_noexpand#1{_f:\_noexpand\_currfamily:\_tmp}}%
   \_setnewmeaning #1=\_tmpa \moddef
}
\_protected \_def\_resetmod {\_cs{_f:\_currfamily:resetmod}} % private variant of \resetmod
\_def \_resetfam{\_def\_addtomodlist##1{}\_resetmod
   \_edef \_modlist{\_ea}\_modlist
   \_let\_addtomodlist=\_addtomodlistb
}
\_def \_currfamily{} % default current family is empty
\_def \_modlist{}    % list of currently used modifiers

\_def \_addtomodlist#1{\_addto\_modlist#1}
\_let \_addtomodlistb=\_addtomodlist

\_def\_famdepend#1#2{\_ifcsname#2\_endcsname \_csname#2\_ea\_endcsname \_else
   \_ifx\_addtomodlist\_addtomodlistb
      \_opwarning{\_string#1 is undeclared in family "\_currfamily", ignored}\_fi\_fi
}
\_def\_setnewmeaning #1=\_tmpa#2{%
   \_ifx #1\_undefined \_else \_ifx #1\_tmpa \_else
      \_opwarning{\_string#1 is redefined by \_string#2}%
   \_fi\_fi
   \_let#1=\_tmpa
}
\_public \moddef ;

   \_doc -----------------------------
   The \`\famvardef` `\<XX> {<data>}`
   uses analogical trick like \^`\moddef` with
   the \^`\_famdepend` macro. The auxiliary
   \`\_famvardefA` `\<XX> \_ten<XX> \_tryload<XX> {<data>}` is used.
   It does:
   \begitems
   * `\def \_tryload:<currfam>:<XX> {`\^`\fontdef`` \_ten<XX> {<data>}}` loads font `\_ten<XX>`,
   * `\protected\def \<XX> {\_famdepend \<XX> {_f:<currfam>:<XX>}}`,
   * `\def \_f:<currfam>:<XX> {\_tryload:<currfam>:<XX>\_ten<XX>}` keeps family dependent definition,
   * `\def \_currvar:_ten<XX> {\<XX>}` in order to the \^`\currvar` macro work correctly.
   \enditems
   `\famvardef\tt` behaves somewhat differently: it doesn't re-define the
   `\tt` macro which is defined  as `\_tryloadtt \_tentt` in sections~\ref[math-preload]
   and~\ref[unimath-codes]. It only re-defines the internal `\_tryloadtt` macro.
   \_cod -----------------------------

\_def\_famvardef#1{\_edef\_tmp{\_csstring#1}%
   \_ea\_famvardefA \_ea#1\_csname _ten\_tmp\_ea\_endcsname
      \_csname _tryload:\_currfamily:\_tmp\_endcsname
}
\_def\_famvardefA #1#2#3#4{% #1=\XX #2=\_tenXX #3=\_tryload:currfam:XX #4=data
   \_isinlist{.\_rm\_bf\_it\_bi\currvar\_currvar}#1\_iftrue
      \_opwarning{\_string\famvardef:
         You cannot re-declare standard variant selector \_string#1}%
   \_else
      \_def#3{\_fontdef#2{#4}}%
      \_protected\_edef\_tmpa{\_noexpand\_famdepend\_noexpand#1{_f:\_noexpand\_currfamily:\_tmp}}%
      \_ifx #1\_tt \_let\_tryloadtt=#3\_else \_setnewmeaning #1=\_tmpa \famvardef \_fi
      \_sdef{_f:\_currfamily:\_tmp}{#3#2}%
      \_sdef{_currvar:\_csstring#2}{#1}%
   \_fi
}
\_public \famvardef ;

   \_doc -----------------------------
   The \`\fontfam` `[<Font Family>]` does:
   \begitems
   * Convert its parameter to lower case and without spaces, e.g.\ `<fontfamily>`.
   * If the file `f-<fontfamily>.opm` exists read it and finish.
   * Try to load user defined `fams-local.opm`.
   * If the `<fontfamily>` is declared in `fams-local.opm` or `fams-ini.opm`
     read relevant file and finish.
   * Print the list of declared families.
   \enditems
   The `fams-local.opm` is read by the \`\_tryloadfamslocal` macro. It sets
   itself to `\_relax` because we need not load this file twice.
   The \`\_listfamnames` macro prints registered font families to the
   terminal and to the log file.
   \_cod -----------------------------

\_def\_fontfam[#1]{%
   \_lowercase{\_edef\_famname{\_ea\_removespaces #1 {} }}%
   \_isfile {f-\_famname.opm}\_iftrue \_opinput {f-\_famname.opm}%
   \_else
       \_tryloadfamslocal
       \_edef\_famfile{\_trycs{_famf:\_famname}{}}%
       \_ifx\_famfile\_empty \_listfamnames
       \_else \_opinput {\_famfile.opm}%
   \_fi\_fi
}
\_def\_tryloadfamslocal{%
   \_isfile {fams-local.opm}\_iftrue
      \_opinput {fams-local.opm}\_famfrom={}%
   \_fi
   \_let \_tryloadfamslocal=\_relax  % need not to load fams-local.opm twice
}
\_def\_listfamnames {%
   \_wterm{===== List of font families ======}
   \_begingroup
       \_let\_famtext=\_wterm
       \_def\_faminfo [##1]##2##3##4{%
           \_wterm{ \_space\_noexpand\fontfam [##1] -- ##2}%
       \_let\_famalias=\_famaliasA}%
       \_opinput {fams-ini.opm}%
       \_isfile {fams-local.opm}\_iftrue \_opinput {fams-local.opm}\_fi
       \_message{^^J}%
   \_endgroup
}
\_def\_famaliasA{\_message{ \_space\_space\_space\_space -- alias:}
   \_def\_famalias[##1]{\_message{[##1]}}\_famalias
}
\_public \fontfam ;

   \_doc -----------------------------
   When the `fams-ini.opm` or `fams-local.opm` files are read then we need
   to save only a mapping from family names or alias names to the font family file
   names. All other information is ignored in this case. But if these files
   are read by the `\_listfamnames` macro or when printing a catalog then more
   information is used and printed.\nl
   \`\_famtext` does nothing or prints the text on the terminal.
   \nl
   \`\_faminfo` `[<Family Name>] {<comments>} {<file-name>} {<mod-plus-vars>}`
   does\nl `\_def \_famf:<familyname> {<file-name>}` or prints information on
   the terminal.
   \nl
   \`\_famalias` `[<Family Alias>]` does `\def \_famf:<familyalias> {<file-name>}`
   where `<file-name>` is stored from the previous `\_faminfo` command. Or
   prints information on the terminal.
   \nl
   \`\_famfrom` declares type foundry or owner or designer of the font family.
   It can be used in `fams-ini.opm` or `fams-local.opm` and it is printed
   in the font catalog.
   \_cod -----------------------------

\_def\_famtext #1{}
\_def\_faminfo [#1]#2#3#4{%
   \_lowercase{\_edef\_tmp{\_ea\_removespaces #1 {} }}%
   \_sdef{_famf:\_tmp}{#3}%
   \_def\_famfile{#3}%
}
\_def\_famalias [#1]{%
   \_lowercase{\_edef\_tmpa{\_ea\_removespaces #1 {} }}%
   \_sdef{_famf:\_tmpa\_ea}\_ea{\_famfile}%
}
\_newtoks\_famfrom
\_input fams-ini.opm
\_let\_famfile=\_undefined
\_famfrom={}

   \_doc -----------------------------
   When the \^`\fontfam``[catalog]` is used then the file
   `fonts-catalog.opm` is read. The macro \^`\_faminfo` is redefined here
   in order to print catalog samples of all declared modifiers/variant
   pairs. The user can declare different samples and different behavior of
   the catalog, see the end of catalog listing for more information.
   The default parameters
   \`\catalogsample`, \`\catalogmathsample`, \`\catalogonly` and
   \`\catalogexclude` of the catalog are declared here.
   \_cod -----------------------------

\_newtoks \_catalogsample
\_newtoks \_catalogmathsample
\_newtoks \_catalogonly
\_newtoks \_catalogexclude
\_catalogsample={ABCDabcd Qsty fi fl áéíóúüů řžč ÁÉÍÓÚ ŘŽČ 0123456789}

\_public \catalogonly \catalogexclude \catalogsample \catalogmathsample ;

   \_doc -----------------------------
   The font features are managed in the \`\_fontfeatures` macro.
   They have their implicit values saved in the \`\_defaultfontfeatures`
   and the \`\setff` `{<features>}`
   can add next font features. If there is the same font feature as the newly
   added one then the old value is removed from the `\_fontfeatures` list.
   \_cod -----------------------------

\_def \_defaultfontfeatures {+tlig;}
\_def \_setff #1{%
   \_ifx^#1^\_let \_fontfeatures=\_defaultfontfeatures
   \_else \_edef\_fontfeatures{\_fontfeatures #1;}\_fi
   \_reloading
}
\_setff {} % default font features: +tlig;
\_def\_removefeature #1{%
    \_isinlist\_fontfeatures{#1}\_iftrue
        \_def\_tmp ##1#1##2;##3\_relax{\_def\_fontfeatures{##1##3}}%
        \_ea \_tmp \_fontfeatures \_relax
    \_fi
}
\_public \setff ;

   \_doc -----------------------------
   The \`\setfontcolor` and \`\setletterspace` are macros based on the
   special font features provided by \LuaTeX/ (and by \XeTeX/ too but it is not
   our business). The \`\setwordspace` recalulates the `\fontdimen2,3,4`
   of the font using the \`\setwsp` macro which is used by the
   \^`\_doresizeunifont` macro. It activates a dummy font feature `+Ws` too in
   order the font is reloded by the `\font` primitive (with independent
   `\fontdimen` registers).
   \_cod -----------------------------

\_def\_savedfontcolor{}
\_def\_savedletterspace{}
\_def\_savedwsp{}

\_def \_setfontcolor #1{\_removefeature{color=}%
    \_edef\_tmp{\_calculatefontcolor{#1}}%
    \_ifx\_tmp\_empty \_else \_edef\_fontfeatures{\_fontfeatures color=\_tmp;}\_fi
    \_reloading
}
\_def \_setletterspace #1{\_removefeature{letterspace=}%
    \_if^#1^\_else \_edef\_fontfeatures{\_fontfeatures letterspace=#1;}\_fi
    \_reloading
}
\_def \_setwordspace #1{%
   \_if^#1^\_def\_setwsp##1{}\_removefeature{+Ws}%
   \_else \_def\_setwsp{\_setwspA{#1}}\_setff{+Ws}\_fi
   \_reloading
}
\_def\_setwsp #1{}
\_def\_setwspA #1#2{\_fontdimen2#2=#1\_fontdimen2#2%
   \_fontdimen3#2=#1\_fontdimen3#2\_fontdimen4#2=#1\_fontdimen4#2}

\_def\_calculatefontcolor#1{\_trycs{_fc:#1}{#1}} % you can define more smart macro ...
\_sdef{_fc:red}{FF0000FF}    \_sdef{_fc:green}{00FF00FF} \_sdef{_fc:blue}{0000FFFF}
\_sdef{_fc:yellow}{FFFF00FF} \_sdef{_fc:cyan}{00FFFFFF}  \_sdef{_fc:magenta}{FF00FFFF}
\_sdef{_fc:white}{FFFFFFFF}  \_sdef{_fc:grey}{00000080}  \_sdef{_fc:lgrey}{00000025}
\_sdef{_fc:black}{} % ... you can declare more colors...

\_public \setfontcolor \setletterspace \setwordspace ;

\_endcode %---------------------------------------------------


\sec[fontsystem] The Font Selection System
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

The basic principles of the Font Selection System used in \OpTeX/
was documented in the section~\ref[fontfam].

\secc Terminology

We distinguish between
\begitems
* {\em font switchers}, they are declared by the `\font` primitive or by
  \^`\fontlet` or \~`\fontdef` macros, they select given font.
* {\em variant selectors}, there are four basic variant selectors
  \^`\rm`, \^`\bf`, \^`\it`, \^`\bi`, there is a special selector \^`\currvar`.
  More variant selectors can be declared by the \~`\famvardef` macro.
  They select the font depending on the given variant and on the {\em font context}
  (i.e.\ on current family and on more features given by font modifiers).
  In addition, \OpTeX/ defines \~`\tt` as variant selector
  independent of chosen font family. It selects typewriter-like font.
* {\em font modifiers} are declared in a family (`\cond`, `\caps`) or are
  \"build in" (\^`\setfontsize``{<size spec>}`, \~`\setff{<features>}`).
  They do appropriate change in the {\em font context} but do not select
  the font.
* {\em family selectors} (for example `\Termes`, `\LMfonts`),
  they are declared typically in the {\em font family files}.
  They enable to switch between font families, they do appropriate
  change in the {\em font context} but do not select
  the font.
\enditems

These commands set their values locally. When the \TeX/ group is
left then the selected font and the {\em font context} are returned back to the values
used when the group was opened. They have the following features:

The {\em font context} is a set of macro values that will affect the
selection of real font when the variant selector is processed. It includes the
value of {\em current family}, current font size, and
more values stored by font modifiers.

The {\em family context} is the current family value stored in the font
context. The variant selectors declared by \~`\famvardef` and
font modifiers declared by \~`\moddef` are dependent on the {\em family context}.
They can have the same names but different behavior in different families.

The fonts registered in \OpTeX/ have their macros in the {\em font family files},
each family is declared in one font family file with the name `f-famname.opm`.
All families are collected in `fams-ini.opm` and users can give more
declarations in the file `fams-local.opm`.

\secc Font families, selecting fonts

The \^`\fontfam` `[<Font Family>]` opens the relevant font family file where
the `<Font Family>` is declared. The family selector is defined here by rules
described in the section~\ref[fontfamfiles]. Font modifiers and variant
selectors may be declared here.
The loaded family is set as current and `\rm` variant selector is processed.

The available declared font modifiers and declared variant selectors are
listed in the log file when the font family is load. Or you can print
`\fontfam[catalog]` to show available font modifiers and variant selectors.

The font modifiers can be independent, like `\cond` and `\light`. They can
be arbitrarily combined (in arbitrary order) and if the font family disposes
of all such sub-variants then the desired font is selected (after variant
selector is used). On the other hand, there are font modifiers that negates
the previous font modifier, for example: `\cond`, `\extend`. You can reset
all modifiers to their initial value by the \^`\resetmod` command.

You can open more font families by more \^`\fontfam` commands. Then the
general method to selecting the individual font is:

\begtt \catcode`\<=13
<family selector> <font modifiers> <variant selector>
\endtt
For example:
\begtt
\fontfam [Heros]  % Heros family is active here, default \rm variant.
\fontfam [Termes] % Termes family is active here, default \rm variant.
{\Heros \caps \cond \it The caps+condensed italics in Heros family is here.}
The Termes roman is here.
\endtt

There is one special command \^`\currvar` which acts as a variant selector.
It keeps the current variant and the font of such variant is
reloaded with respect to the current font context by the previously given family
selector and font modifiers.

You can use the \^`\setfontsize` `{<sizespec>}` command in the same sense as
other font modifiers. It saves information about font size to the font
context. See section~\ref[setfontsize]. Example:

\begtt
\rm default size \setfontsize{at14pt}\rm here is 14pt size \it italic is
in 14pt size too \bf bold too.
\endtt

A much more comfortable way to resize fonts is using OPmac-like commands
\~`\typosize` and \~`\typoscale`.
These commands prepare the right sizes for math
fonts too and they re-calculate many internal parameters like `\baselineskip`.
See section~\ref[opmac-fonts] for more information.


\secc Math Fonts
%---------------

Most font families are connected with a preferred Unicode-math font. This
Unicode-math is activated when the font family is loaded. If you don't prefer
this and you are satisfied with 8bit math CM+AMS fonts preloaded in the
\OpTeX/ format then you can use command \^`\noloadmath` before you load a first
font family.

If you want to use your specially selected Unicode-math font then use
\^`\loadmath` `{[<font_file>]}` or \^`\loadmath` `{<font_name>}` before first
`\fontfam` is used.


\secc[fontcommands] Declaring font commands
%----------------------------

Font commands can be font switches, variant selectors, font modifiers,
family selectors and defined font macros doing something with fonts.

\begitems
* Font switches can be decared by `\font` primitive (see
  section~\ref[fontprimitive]) or by \^`\fontlet` command (see
  section~\ref[fontlet]) or by \~`\fontdef` command (see
  sections~\ref[fontdef2] and~\ref[fontdef]).
  When the font switches are used then they select the given font independently
  of the current font context. They can be used
  in `\output` routine (for example) because we need to set fixed fonts
  in headers and footers.
* Variant selectors are \^`\rm`, \^`\bf`, \^`\it`, \^`\bi`, \~`\tt` and \^`\currvar`. More
  variant selectors can be declared by \~`\famvardef` command. They select a
  font dependent on the current font context, see section~\ref[famvardef].
  The `\tt` selector is documented in section~\ref[tt].
* Font modifiers are \"build in" or declared by \~`\moddef` command.
  They do modifications in the font context but don't select any font.
  \begitems
  * \"build-in" font modifiers are \^`\setfontsize` (see
    section~\ref[setfontsize]), \~`\setff` (see section~\ref[setff]),
    \~`\setfontcolor`, \~`\setletterspace` and \~`\setwordspace`
    (see section~\ref[specff]). They are independent of font family.
  * Font modifiers declared by \~`\moddef` depend on the font family and they
    are typically declared in font family files, see
    section~\ref[fontfamfiles].
  \enditems
* Family selectors set the given
  font family as current and re-set data used by the family-dependent font
  modifiers to initial values and to the currently used modifiers.
  They are declared in font family files
  by \~`\_famdecl` macro, see section~\ref[fontfamfiles].
* Font macros can be defined arbitrarily by `\def` primitive by users.
  See an example in section~\ref[fontmacros].
\enditems

All declaration commands mentioned here: `\font`, `\fontlet`, `\fontdef`, `\famvardef`,
`\moddef`, `\_famdecl` and `\def` make local assignment.

\secc[fontdef2] The `\fontdef` declarator in detail

The general format for \^`\fontdef` usage is
\begtt \catcode`\<=13
\fontdef\<font switch> {\<family selector> <font modifiers> \<variant selector>}
\endtt
%
where `\<family selector>` and `<font modifiers>` are optional and
`\<variant selector>` is mandatory.

The \^`\fontdef` does the following steps.
It pushes the current font context to a stack, it does modifications of the font
context by given `\<family selector>` and/or `<font modifiers>` and it
finds the real font by `\<variant selector>`. This font is not selected but
it is assigned to the declared `\<font switch>` (like `\font` primitive does
it). Finally, `\fontdef` pops the font context stack, so the current
font context is the same as it was before `\fontdef` is used.

More about `\fontdef` command including examples is written in
section~\ref[fontdef].


\secc[famvardef] The `\famvardef` declarator

You can declare a new variant selector by the \^`\famvardef` macro. This
macro has similar syntax as \^`\fontdef`:
\begtt \catcode`\<=13
\famvardef\<new variant selector> {\<family selector> <font modifiers> \<variant selector>}
\endtt
%
where `\<family selector>` and `<font modifiers>` are optional and
`\<variant selector>` is mandatory.
The `\<new variant selector>` should be used in the same sense as `\rm`,
`\bf` etc. It can be used as the final command in next
\^`\fontdef` or \^`\famvardef` declarators
too. When the `\<new variant selector>` is used in the normal text then it does
the following steps: pushes current font context to a stack, modifies font
context by declared `\<family selector>` and/or `<font modifiers>`,
runs following `\<variant selector>`.
This last one selects a real font. Then pops the font context stack.
The new font is selected but the font context has its original values.
This is main difference between `\famvardef\foo{...}` and `\def\foo{...}`.

Moreover, the \^`\famvardef` creates the `\<new variant selector>` family dependent.
When the selector is used in another family context than it is defined then a warning is
printed on the terminal \"<var selector> is undeclared in the current family"
and nothing happens. But you can declare the same variant selector by
\^`\famvardef` macro in the context of a new family. Then the same command
may do different work depending on the current font family.

Suppose that the selected font family provides the font modifier `\medium` for
mediate weight of fonts. Then you can declare:
\begtt
\famvardef \mf {\medium\rm}
\famvardef \mi {\medium\it}
\endtt
Now, you can use six independent variant selectors `\rm`, `\bf`, `\it`,
`\bi`, `\mf` and  `\mi` in the selected font family.

A `\<family selector>` can be written before `<font modifiers>` in the
`\famvardef` parameter. Then the `\<new variant selector>` is declared in
the current family but it can use fonts from another family represented by
the `\<family selector>`.

When you are mixing fonts from more families then you probably run
into a problem with incompatible ex-heights. This problem can be solved using
\^`\setfontsize` and \^`\famvardef` macros:
\begtt
\fontfam[Heros]  \fontfam[Termes]

\def\exhcorr{\setfontsize{mag.88}}
\famvardef\rmsans{\Heros\exhcorr\rm}
\famvardef\itsans{\Heros\exhcorr\it}

Compare ex-height of Termes \rmsans with Heros \rm and Termes.
\endtt

The variant selectors (declared by \~`\famvardef`) or font
modifiers (declared by \~`\moddef`) are (typically) control sequences in user name
space (`\mf`, `\caps`). They are most often declared in font family files and
they are loaded by \^`\fontfam`. A conflict with such names in
user namespace can be here. For example: if `\mf` is defined by a user and then
`\fontfam[Roboto]` is used then `\famvardef\mf` is performed for Roboto
family and the original meaning of `\mf` is lost. But \OpTeX/ prints warning
about it. There are two cases:

\begtt
\def\mf{Metafont}
\fontfam[Roboto]  % warning: "The \mf is redefined by \famvardef" is printed
  or
\fontfam[Roboto]
\def\mf{Metafont} % \mf variant selector redefined by user, we suppose that \mf
                  % is used only in the meaning of "Metafont" in the document.
\endtt

\secc[tt] The `\tt` variant selector

\^`\tt` is an additional special variant selector which is defined as \"select typewriter
font independently of the current font family". By default, the typewriter font-face
from LatinModern font family is used.

The \^`\tt` variant selector is used in \OpTeX/ internal macros
\^`\_ttfont` (verbatim texts) and \^`\_urlfont` (printing URL's).

You can redefine the behavior of `\tt` by \^`\famvardef`. For example:

\begtt
\fontfam[Cursor]
\fontfam[Heros]
\fontfam[Termes]
\famvardef\tt{\Cursor\setff{-liga;-tlig}\rm}

Test in Termes: {\tt text}. {\Heros\rm Test in Heros: {\tt text}}.
Test in URL \url{http://something.org}.
\endtt
%
You can see that `\tt` stay family independent. This is a special feature only
for `\tt` selector. New definition is used in \^`\_ttfont` and \^`\_urlfont` too.
It is recommended to use `\setff{-liga;-tlig}` to suppress the
ligatures in typewriter fonts.

If Unicode math font is loaded then the `\tt` macro selects typewriter
font-face in math mode too. This face
is selected from used Unicode math font and it is independent of
`\famvardef\tt` declaration.


\secc[fontmacros] Font commands defined by `\def`

Such font commands can be used as fonts selectors for titles, footnotes,
citations, etc. Users can define them.

The following example shows how to define a \"title-font selector".
Titles are not only bigger but they are typically in the bold variant. When a user puts
`{\it...}` into the title text then he/she expects bold italic here, no normal
italic. You can remember the great song by John Lennon \"Let It Be" and
define:

\begtt
\def\titlefont{\setfontsize{at14pt}\bf \let\it\bi}
...
{\titlefont Title in bold 14pt font and {\it bold 14pt italics} too}
\endtt

\OpTeX/ defines similar internal commands \^`\_titfont`, \^`\_chapfont`, \^`\_secfont` and
\^`\_seccfont`, see section~\ref[sections]. The commands \^`\typosize` and
\^`\boldify` are used in these macros. They set the math fonts to given size too and they
are defined in section~\ref[opmac-fonts].


\secc[setff] Modifying font features
%----------------------------

Each OTF font provides \"font features". You can list these font features
by `otfinfo -f font.otf`. For example, LinLibertine fonts provide `frac` font
feature. If it is active then fractions like 1/2 are printed in a special
form.

The font features are part of the font context data.
The macro \^`\setff` `{<feature>}` acts like family independent font modifier and
prepares a new <feature>. You must use a variant selector in order to
reinitialize the font with the new font feature. For example
\^`\setff``{+frac}\rm` or \^`\setff``{+frac}`\^`\currvar`. You can declare a new variant
selector too:

\begtt
\fontfam[LinLibertine]
\famvardef \fraclig {\setff{+frac}\currvar}
Compare 1/2 or 1/10 \fraclig to 1/2 or 1/10.
\endtt

If the used font does not support the given font feature then the font is reloaded
without warning nor error, silently. The font feature is not activated.

The `onum` font feature (old-style digits) is connected to `\caps` macro for
Caps+SmallCaps variant in \OpTeX/ font family files. So you need not
create a new modifier, just use `{\caps`\^`\currvar`` 012345}`.


\secc[specff] Special font modifiers
%---------------------------

Despite the font modifiers declared in the font family file (and dependent on
the font family), we have following font modifiers (independent of font
family):

\begtt \catcode`\<=13
\setfontsize{<sizespec>}    % sets the font size
\setff{<font feature>}       % adds the font feature
\setfontcolor{<color>}     % sets font color
\setletterspace{<number>} % sets letter spacing
\setwordspace{<scaling>}    % modifies word spacing
\endtt

The \^`\setfontsize` command is described in the section \ref[setfontsize].
The \^`\setff` command was described in previous subsection.

\^`\setfontcolor` `{<color>}` specifies the color and the opacity of the text.
The <color> parameter should be in the hexadecimal format of four bytes
`<red><green><blue><opacity>`, for example `FF0080FF` means full red, zero
green, half blue and full opacity. You can use names `red`, `green`, `blue`,
`yellow`, `cyan`, `magenta`, `white`, `grey`, `lgrey` (without the backslash)
instead of the hexadecimal specification.
The empty parameter `<color>` means default black color.

These colors of fonts are implemented using \LuaTeX/ internal font feature. This
is different approach than using colors in section \ref[colors].

\^`\setletterspace` `{<number>}` specifies the letter spacing of the font. The
`<number>` is a decimal number without unit. The unit is supposed as 1/100 of
the font size. I.e. `2.5` means 0.25 pt when the font is at 10 pt size. The
empty parameter `<number>` means no letter spacing which is the default.

\^`\setwordspace` `{<scaling>}` scales the default interword space (defined in the
font) and its stretching and shrinking parameters by given `<scaling>`
factor. For example `\setwordspace{2.5}` multiplies interword space by 2.5.

If you need another font transformations, you can use `\setff`
with following font features provided by Lua\TeX/:

\begtt
\setff{embolden=1.5}\rm % font is bolder because outline has nonzero width
\setff{slant=0.2}\rm    % font is slanted by a linear transformation
\setff{extend=1.2}\rm   % font is extended by a linear transformation.
\setff{colr=yes}\rm     % if the font includes colored characters, use colors
\setff{upper}\rm        % to uppercase (lower=lowecase) conversion at font level
\endtt

Use font transformations mentioned above and \^`\setletterspace`,
\^`\setwordspace` with care. The best setting of these values is the default
setting in every font, of course. If you really need to set a different
letter spacing then it is strongly recommended to add `\setff{-liga}`
to disable ligatures. And setting a positive letter spacing probably
needs to scale interword spacing too.

All mentioned font modifiers (except for `\setfontsize`) work only
with Unicode fonts loaded by \^`\fontfam`.

\secc[fontfamfiles] How to create the font family file
%------------------------------------------------------

\printdoctail f-heros.opm

\printdoctail f-lmfonts.opm

\secc How to register the font family in the Font Selection System
%---------------------------------------------------------------

\printdoctail fams-ini.opm

\secc[exfont] Notices about extension of `\font` primitive
%---------------------------------------------------------

Unicode fonts are loaded by extended `\font` primitive. This extension is
not activated in \OpTeX/ by default, \^`\initunifonts` macro activates it.
You need not use \^`\initunifonts` explicitly if \^`\fontfam` macro is
used because \^`\fontfam` runs it internally.

The \^`\initunifonts` loads the Lua code from the Luaotfload package which
implements the `\font` primitive extension. See its
documentation `luaotfload-latex.pdf` for information about
all possibilities of extended `\font` primitive.

The \OpTeX/ format is initialized by `luatex` engine by default but
you can initialize it by `luahbtex` engine too. Then the harfbuzz library is
ready to use for font rendering as an alternative to build-in font renderer
from Luaotfload. The harfbuzz library gives more features for rendering
Indic and Arabic scripts. But it is not used as default, you need to specify
`mode=harf` in the fontfeatures field when `\font` is used. Moreover, when
`mode=harf` is used, then you must specify `script` too. For example

\begtt
\font\devafont=[NotoSansDevanagari-Regular]:mode=harf;script=dev2
\endtt
%
If the `luahbtex` engine is not used then `mode=harf` is ignored. See
Luaotfload documentation for more information.

\endinput

2021-02-25  \_ttunifont introduced
2021-01-27  lua hack (print function) removed because luaotfload 3.17 removes bug.
2020-12-12  \_modlist added, doc improved
2020-04-18  \_tryloadfamslocal introduced
            \_fontdecl -> \_famdecl with different concept
2020-03-18  released