lyx_mirror/src/Font.cpp
Kornel Benko 62ab563c25 FindAdv: Use private variable for_search
Using the new inline statements
	find_effective(), find_with_non_output(), find_with_deleted(),
	find_set_feature(), find_add_feature() and find_clean_features()
makes the code a slightly better readable.
2022-05-09 22:11:38 +02:00

875 lines
23 KiB
C++

/**
* \file src/Font.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Lars Gullik Bjønnes
* \author Jean-Marc Lasgouttes
* \author Angus Leeming
* \author André Pönitz
* \author Dekel Tsur
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "Font.h"
#include "BufferParams.h" // stateText
#include "ColorSet.h"
#include "Encoding.h"
#include "Language.h"
#include "LaTeXFeatures.h"
#include "Lexer.h"
#include "LyXRC.h"
#include "output_latex.h"
#include "OutputParams.h"
#include "texstream.h"
#include "support/lassert.h"
#include "support/convert.h"
#include "support/debug.h"
#include "support/gettext.h"
#include "support/lstrings.h"
#include <cstring>
using namespace std;
using namespace lyx::support;
namespace lyx {
//
// Strings used to read and write .lyx format files
//
// These are defined in FontInfo.cpp
extern char const * LyXFamilyNames[NUM_FAMILIES + 2];
extern char const * LyXSeriesNames[NUM_SERIES + 2];
extern char const * LyXShapeNames[NUM_SHAPE + 2];
extern char const * LyXSizeNames[NUM_SIZE + 4];
extern char const * LyXMiscNames[5];
extern char const * GUIMiscNames[5];
namespace {
//
// Strings used to write LaTeX files
//
char const * LaTeXFamilyCommandNames[NUM_FAMILIES + 2] =
{ "textrm", "textsf", "texttt", "error1", "error2", "error3", "error4",
"error5", "error6", "error7", "error8", "error9", "error10", "error11",
"error12", "error13", "error14" };
char const * LaTeXFamilySwitchNames[NUM_FAMILIES + 2] =
{ "rmfamily", "sffamily", "ttfamily", "error1", "error2", "error3", "error4",
"error5", "error6", "error7", "error8", "error9", "error10", "error11",
"error12", "error13", "error14" };
char const * LaTeXSeriesCommandNames[NUM_SERIES + 2] =
{ "textmd", "textbf", "error4", "error5" };
char const * LaTeXSeriesSwitchNames[NUM_SERIES + 2] =
{ "mdseries", "bfseries", "error4", "error5" };
char const * LaTeXShapeCommandNames[NUM_SHAPE + 2] =
{ "textup", "textit", "textsl", "textsc", "error6", "error7" };
char const * LaTeXShapeSwitchNames[NUM_SHAPE + 2] =
{ "upshape", "itshape", "slshape", "scshape", "error6", "error7" };
char const * LaTeXSizeSwitchNames[NUM_SIZE + 4] =
{ "tiny", "scriptsize", "footnotesize", "small", "normalsize", "large",
"Large", "LARGE", "huge", "Huge", "error8", "error9", "error10", "error11" };
} // namespace
Font::Font(FontInfo bits, Language const * l)
: bits_(bits), lang_(l), open_encoding_(false)
{
if (!lang_)
lang_ = default_language;
}
bool Font::isRightToLeft() const
{
return lang_->rightToLeft();
}
bool Font::isVisibleRightToLeft() const
{
return (lang_->rightToLeft() &&
bits_.number() != FONT_ON);
}
void Font::setLanguage(Language const * l)
{
lang_ = l;
}
/// Updates font settings according to request
void Font::update(Font const & newfont,
Language const * default_lang,
bool toggleall)
{
bits_.update(newfont.fontInfo(), toggleall);
if (newfont.language() == language() && toggleall)
if (language() == default_lang)
setLanguage(default_language);
else
setLanguage(default_lang);
else if (newfont.language() == reset_language)
setLanguage(default_lang);
else if (newfont.language() != ignore_language)
setLanguage(newfont.language());
}
docstring const Font::stateText(BufferParams * params, bool const terse) const
{
odocstringstream os;
os << bits_.stateText(terse);
if ((!params || (language() != params->language))
&& (!terse || language() != ignore_language)) {
// reset_language is a null pointer!
os << bformat(_("Language: %1$s, "),
(language() == reset_language) ? _("Default")
: _(language()->display()));
}
if (bits_.number() != FONT_OFF)
os << " " << bformat(_("Number %1$s"),
_(GUIMiscNames[bits_.number()]));
return rtrim(os.str(), ", ");
}
// Returns size in latex format
string const Font::latexSize() const
{
return LaTeXSizeSwitchNames[bits_.size()];
}
/// Writes the changes from this font to orgfont in .lyx format in file
void Font::lyxWriteChanges(Font const & orgfont,
ostream & os) const
{
os << "\n";
if (orgfont.fontInfo().family() != bits_.family())
os << "\\family " << LyXFamilyNames[bits_.family()] << "\n";
if (orgfont.fontInfo().series() != bits_.series())
os << "\\series " << LyXSeriesNames[bits_.series()] << "\n";
if (orgfont.fontInfo().shape() != bits_.shape())
os << "\\shape " << LyXShapeNames[bits_.shape()] << "\n";
if (orgfont.fontInfo().size() != bits_.size())
os << "\\size " << LyXSizeNames[bits_.size()] << "\n";
// FIXME: shall style be handled there? Probably not.
if (orgfont.fontInfo().emph() != bits_.emph())
os << "\\emph " << LyXMiscNames[bits_.emph()] << "\n";
if (orgfont.fontInfo().number() != bits_.number())
os << "\\numeric " << LyXMiscNames[bits_.number()] << "\n";
if (orgfont.fontInfo().nospellcheck() != bits_.nospellcheck())
os << "\\nospellcheck " << LyXMiscNames[bits_.nospellcheck()] << "\n";
if (orgfont.fontInfo().underbar() != bits_.underbar()) {
// This is only for backwards compatibility
switch (bits_.underbar()) {
case FONT_OFF: os << "\\bar no\n"; break;
case FONT_ON: os << "\\bar under\n"; break;
case FONT_TOGGLE: lyxerr << "Font::lyxWriteFontChanges: "
"FONT_TOGGLE should not appear here!"
<< endl;
break;
case FONT_INHERIT: os << "\\bar default\n"; break;
case FONT_IGNORE: lyxerr << "Font::lyxWriteFontChanges: "
"IGNORE should not appear here!"
<< endl;
break;
}
}
if (orgfont.fontInfo().strikeout() != bits_.strikeout()) {
os << "\\strikeout " << LyXMiscNames[bits_.strikeout()] << "\n";
}
if (orgfont.fontInfo().xout() != bits_.xout()) {
os << "\\xout " << LyXMiscNames[bits_.xout()] << "\n";
}
if (orgfont.fontInfo().uuline() != bits_.uuline()) {
os << "\\uuline " << LyXMiscNames[bits_.uuline()] << "\n";
}
if (orgfont.fontInfo().uwave() != bits_.uwave()) {
os << "\\uwave " << LyXMiscNames[bits_.uwave()] << "\n";
}
if (orgfont.fontInfo().noun() != bits_.noun()) {
os << "\\noun " << LyXMiscNames[bits_.noun()] << "\n";
}
if (orgfont.fontInfo().color() != bits_.color())
os << "\\color " << lcolor.getLyXName(bits_.color()) << '\n';
// FIXME: uncomment this when we support background.
//if (orgfont.fontInfo().background() != bits_.background())
// os << "\\color " << lcolor.getLyXName(bits_.background()) << '\n';
if (orgfont.language() != language() &&
language() != latex_language) {
if (language())
os << "\\lang " << language()->lang() << "\n";
else
os << "\\lang unknown\n";
}
}
/// Writes the head of the LaTeX needed to impose this font
// Returns number of chars written.
int Font::latexWriteStartChanges(otexstream & os, BufferParams const & bparams,
OutputParams const & runparams,
Font const & base,
Font const & prev,
bool non_inherit_inset,
bool needs_cprotection) const
{
int count = 0;
// polyglossia or babel?
if (runparams.use_polyglossia
&& language()->lang() != base.language()->lang()
&& language() != prev.language()) {
if (!language()->polyglossia().empty()) {
string tmp;
if (needs_cprotection)
tmp += "\\cprotect";
tmp += "\\text" + language()->polyglossia();
if (!language()->polyglossiaOpts().empty()) {
tmp += "[" + language()->polyglossiaOpts() + "]";
if (runparams.use_hyperref && runparams.moving_arg) {
// We need to strip the command for
// the pdf string, see #11813
string tmpp;
if (needs_cprotection)
tmpp = "\\cprotect";
tmp = tmpp + "\\texorpdfstring{" + tmp + "}{}";
}
}
tmp += "{";
os << from_ascii(tmp);
count += tmp.length();
pushLanguageName(language()->polyglossia(), true);
} else if (language()->encoding()->package() != Encoding::CJK) {
os << '{';
count += 1;
}
} else if (language()->babel() != base.language()->babel() &&
language() != prev.language()) {
if (language()->lang() == "farsi") {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\textFR{";
count += 8;
} else if (!isRightToLeft() &&
base.language()->lang() == "farsi") {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\textLR{";
count += 8;
} else if (language()->lang() == "arabic_arabi") {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\textAR{";
count += 8;
} else if (!isRightToLeft() &&
base.language()->lang() == "arabic_arabi") {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\textLR{";
count += 8;
// currently the remaining RTL languages are arabic_arabtex and hebrew
} else if (isRightToLeft() != prev.isRightToLeft()) {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
if (isRightToLeft()) {
os << "\\R{";
count += 3;
} else {
os << "\\L{";
count += 3;
}
} else if (!language()->babel().empty()) {
string const tmp =
subst(lyxrc.language_command_local,
"$$lang", language()->babel());
os << from_ascii(tmp);
count += tmp.length();
if (!lyxrc.language_command_end.empty())
pushLanguageName(language()->babel(), true);
} else if (language()->encoding()->package() != Encoding::CJK) {
os << '{';
count += 1;
}
}
if (language()->encoding()->package() == Encoding::CJK) {
pair<bool, int> const c = switchEncoding(os.os(), bparams,
runparams, *(language()->encoding()));
if (c.first) {
open_encoding_ = true;
count += c.second;
runparams.encoding = language()->encoding();
}
}
FontInfo f = bits_;
f.reduce(base.bits_);
FontInfo p = bits_;
p.reduce(prev.bits_);
if (f.size() != INHERIT_SIZE) {
if (!runparams.find_effective()) {
os << '{';
++count;
os << '\\'
<< LaTeXSizeSwitchNames[f.size()] << termcmd;
count += strlen(LaTeXSizeSwitchNames[f.size()]) + 1;
}
else {
os << '\\'
<< LaTeXSizeSwitchNames[f.size()] << '{';
count += strlen(LaTeXSizeSwitchNames[f.size()]) + 2;
}
}
if (f.family() != INHERIT_FAMILY) {
if (non_inherit_inset) {
os << '{';
++count;
os << '\\' << LaTeXFamilySwitchNames[f.family()] << termcmd;
count += strlen(LaTeXFamilySwitchNames[f.family()]) + 1;
} else {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << '\\'
<< LaTeXFamilyCommandNames[f.family()]
<< '{';
count += strlen(LaTeXFamilyCommandNames[f.family()]) + 2;
}
}
if (f.series() != INHERIT_SERIES) {
if (non_inherit_inset) {
os << '{';
++count;
os << '\\' << LaTeXSeriesSwitchNames[f.series()] << termcmd;
count += strlen(LaTeXSeriesSwitchNames[f.series()]) + 1;
} else {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << '\\'
<< LaTeXSeriesCommandNames[f.series()]
<< '{';
count += strlen(LaTeXSeriesCommandNames[f.series()]) + 2;
}
}
if (f.shape() != INHERIT_SHAPE) {
if (non_inherit_inset) {
os << '{';
++count;
os << '\\' << LaTeXShapeSwitchNames[f.shape()] << termcmd;
count += strlen(LaTeXShapeSwitchNames[f.shape()]) + 1;
} else {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << '\\'
<< LaTeXShapeCommandNames[f.shape()]
<< '{';
count += strlen(LaTeXShapeCommandNames[f.shape()]) + 2;
}
}
if (f.color() != Color_inherit && f.color() != Color_ignore) {
if (f.color() == Color_none && p.color() != Color_none) {
// Color none: Close previous color, if any
os << '}';
++count;
} else if (f.color() != Color_none) {
os << "\\textcolor{"
<< from_ascii(lcolor.getLaTeXName(f.color()))
<< "}{";
count += lcolor.getLaTeXName(f.color()).length() + 13;
}
}
// FIXME: uncomment this when we support background.
/*
if (f.background() != Color_inherit && f.background() != Color_ignore) {
os << "\\textcolor{"
<< from_ascii(lcolor.getLaTeXName(f.background()))
<< "}{";
count += lcolor.getLaTeXName(f.background()).length() + 13;
env = true; //We have opened a new environment
}
*/
// If the current language is Hebrew, Arabic, or Farsi
// the numbers are written Left-to-Right. ArabTeX package
// and bidi (polyglossia with XeTeX) reorder the number automatically
// but the packages used for Hebrew and Farsi (Arabi) do not.
if (!runparams.useBidiPackage()
&& !runparams.pass_thru
&& bits_.number() == FONT_ON
&& prev.fontInfo().number() != FONT_ON
&& (language()->lang() == "hebrew"
|| language()->lang() == "farsi"
|| language()->lang() == "arabic_arabi")) {
if (runparams.use_polyglossia) {
// LuaTeX/luabidi
os << "\\LR{";
count += 5;
} else {
os << "{\\beginL ";
count += 9;
}
}
if (f.emph() == FONT_ON) {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\emph{";
count += 6;
}
// \noun{} is a LyX special macro
if (f.noun() == FONT_ON) {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\noun{";
count += 6;
}
// The ulem commands need to be on the deepest nesting level
// because ulem puts every nested group or macro in a box,
// which prevents linebreaks (#8424, #8733)
if (f.underbar() == FONT_ON) {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\uline{";
count += 7;
++runparams.inulemcmd;
}
if (f.uuline() == FONT_ON) {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\uuline{";
count += 8;
++runparams.inulemcmd;
}
if (f.strikeout() == FONT_ON) {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\sout{";
count += 6;
++runparams.inulemcmd;
}
if (f.xout() == FONT_ON) {
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\xout{";
count += 6;
++runparams.inulemcmd;
}
if (f.uwave() == FONT_ON) {
if (runparams.inulemcmd) {
// needed with nested uwave in xout
// see https://tex.stackexchange.com/a/263042
os << "\\ULdepth=1000pt";
count += 15;
}
if (needs_cprotection) {
os << "\\cprotect";
count += 9;
}
os << "\\uwave{";
count += 7;
++runparams.inulemcmd;
}
return count;
}
/// Writes ending block of LaTeX needed to close use of this font
// Returns number of chars written
// This one corresponds to latexWriteStartChanges(). (Asger)
int Font::latexWriteEndChanges(otexstream & os, BufferParams const & bparams,
OutputParams const & runparams,
Font const & base,
Font const & next,
bool & needPar,
bool closeLanguage) const
{
int count = 0;
// reduce the current font to changes against the base
// font (of the layout). We use a temporary for this to
// avoid changing this font instance, as that would break
FontInfo f = bits_;
f.reduce(base.bits_);
if (f.family() != INHERIT_FAMILY) {
os << '}';
++count;
}
if (f.series() != INHERIT_SERIES) {
os << '}';
++count;
}
if (f.shape() != INHERIT_SHAPE) {
os << '}';
++count;
}
if (f.color() != Color_inherit && f.color() != Color_ignore && f.color() != Color_none) {
os << '}';
++count;
}
if (f.emph() == FONT_ON) {
os << '}';
++count;
}
if (f.noun() == FONT_ON) {
os << '}';
++count;
}
if (f.size() != INHERIT_SIZE) {
// We do not close size group in front of
// insets with InheritFont() false (as opposed
// to all other font properties) (#8384)
if (needPar && !closeLanguage) {
os << "\\par";
count += 4;
needPar = false;
}
os << '}';
++count;
}
if (f.underbar() == FONT_ON) {
os << '}';
++count;
--runparams.inulemcmd;
}
if (f.strikeout() == FONT_ON) {
os << '}';
++count;
--runparams.inulemcmd;
}
if (f.xout() == FONT_ON) {
os << '}';
++count;
--runparams.inulemcmd;
}
if (f.uuline() == FONT_ON) {
os << '}';
++count;
--runparams.inulemcmd;
}
if (f.uwave() == FONT_ON) {
os << '}';
++count;
--runparams.inulemcmd;
}
// If the current language is Hebrew, Arabic, or Farsi
// the numbers are written Left-to-Right. ArabTeX package
// and bidi (polyglossia with XeTeX) reorder the number automatically
// but the packages used for Hebrew and Farsi (Arabi) do not.
if (!runparams.useBidiPackage()
&& !runparams.pass_thru
&& bits_.number() == FONT_ON
&& next.fontInfo().number() != FONT_ON
&& (language()->lang() == "hebrew"
|| language()->lang() == "farsi"
|| language()->lang() == "arabic_arabi")) {
if (runparams.use_polyglossia) {
// LuaTeX/luabidi
os << "}";
count += 1;
} else {
os << "\\endL}";
count += 6;
}
}
if (open_encoding_) {
// We need to close the encoding even if it does not change
// to do correct environment nesting
Encoding const * const ascii = encodings.fromLyXName("ascii");
pair<bool, int> const c = switchEncoding(os.os(), bparams,
runparams, *ascii);
LATTEST(c.first);
count += c.second;
runparams.encoding = ascii;
open_encoding_ = false;
}
if (closeLanguage
&& language() != base.language() && language() != next.language()
&& (language()->encoding()->package() != Encoding::CJK)) {
os << '}';
++count;
bool const using_begin_end =
runparams.use_polyglossia ||
!lyxrc.language_command_end.empty();
if (using_begin_end && !languageStackEmpty())
popLanguageName();
}
return count;
}
string Font::toString(bool const toggle) const
{
string const lang = (language() == reset_language)
? "reset" : language()->lang();
ostringstream os;
os << "family " << bits_.family() << '\n'
<< "series " << bits_.series() << '\n'
<< "shape " << bits_.shape() << '\n'
<< "size " << bits_.size() << '\n'
<< "emph " << bits_.emph() << '\n'
<< "underbar " << bits_.underbar() << '\n'
<< "strikeout " << bits_.strikeout() << '\n'
<< "xout " << bits_.xout() << '\n'
<< "uuline " << bits_.uuline() << '\n'
<< "uwave " << bits_.uwave() << '\n'
<< "noun " << bits_.noun() << '\n'
<< "number " << bits_.number() << '\n'
<< "nospellcheck " << bits_.nospellcheck() << '\n'
<< "color " << bits_.color() << '\n'
<< "language " << lang << '\n'
<< "toggleall " << convert<string>(toggle);
return os.str();
}
bool Font::fromString(string const & data, bool & toggle)
{
istringstream is(data);
Lexer lex;
lex.setStream(is);
int nset = 0;
while (lex.isOK()) {
string token;
if (lex.next())
token = lex.getString();
if (token.empty() || !lex.next())
break;
if (token == "family") {
int const next = lex.getInteger();
bits_.setFamily(FontFamily(next));
} else if (token == "series") {
int const next = lex.getInteger();
bits_.setSeries(FontSeries(next));
} else if (token == "shape") {
int const next = lex.getInteger();
bits_.setShape(FontShape(next));
} else if (token == "size") {
int const next = lex.getInteger();
bits_.setSize(FontSize(next));
// FIXME: shall style be handled there? Probably not.
} else if (token == "emph" || token == "underbar"
|| token == "noun" || token == "number"
|| token == "uuline" || token == "uwave"
|| token == "strikeout" || token == "xout"
|| token == "nospellcheck") {
int const next = lex.getInteger();
FontState const misc = FontState(next);
if (token == "emph")
bits_.setEmph(misc);
else if (token == "underbar")
bits_.setUnderbar(misc);
else if (token == "strikeout")
bits_.setStrikeout(misc);
else if (token == "xout")
bits_.setXout(misc);
else if (token == "uuline")
bits_.setUuline(misc);
else if (token == "uwave")
bits_.setUwave(misc);
else if (token == "noun")
bits_.setNoun(misc);
else if (token == "number")
bits_.setNumber(misc);
else if (token == "nospellcheck")
bits_.setNoSpellcheck(misc);
} else if (token == "color") {
int const next = lex.getInteger();
bits_.setColor(ColorCode(next));
/**
} else if (token == "background") {
int const next = lex.getInteger();
bits_.setBackground(ColorCode(next));
*/
} else if (token == "language") {
string const next = lex.getString();
setLanguage(languages.getLanguage(next));
} else if (token == "toggleall") {
toggle = lex.getBool();
} else {
// Unrecognised token
break;
}
++nset;
}
return (nset > 0);
}
void Font::validate(LaTeXFeatures & features) const
{
BufferParams const & bparams = features.bufferParams();
Language const * doc_language = bparams.language;
if (bits_.noun() == FONT_ON) {
LYXERR(Debug::OUTFILE, "font.noun: " << bits_.noun());
features.require("noun");
LYXERR(Debug::OUTFILE, "Noun enabled. Font: " << to_utf8(stateText()));
}
if (bits_.underbar() == FONT_ON) {
LYXERR(Debug::OUTFILE, "font.underline: " << bits_.underbar());
features.require("ulem");
LYXERR(Debug::OUTFILE, "Underline enabled. Font: " << to_utf8(stateText()));
}
if (bits_.strikeout() == FONT_ON) {
LYXERR(Debug::OUTFILE, "font.strikeout: " << bits_.strikeout());
features.require("ulem");
LYXERR(Debug::OUTFILE, "Strike out enabled. Font: " << to_utf8(stateText()));
}
if (bits_.xout() == FONT_ON) {
LYXERR(Debug::OUTFILE, "font.xout: " << bits_.xout());
features.require("ulem");
LYXERR(Debug::OUTFILE, "Cross out enabled. Font: " << to_utf8(stateText()));
}
if (bits_.uuline() == FONT_ON) {
LYXERR(Debug::OUTFILE, "font.uuline: " << bits_.uuline());
features.require("ulem");
LYXERR(Debug::OUTFILE, "Double underline enabled. Font: " << to_utf8(stateText()));
}
if (bits_.uwave() == FONT_ON) {
LYXERR(Debug::OUTFILE, "font.uwave: " << bits_.uwave());
features.require("ulem");
LYXERR(Debug::OUTFILE, "Wavy underline enabled. Font: " << to_utf8(stateText()));
}
switch (bits_.color()) {
case Color_none:
case Color_inherit:
case Color_ignore:
// probably we should put here all interface colors used for
// font displaying! For now I just add this ones I know of (Jug)
case Color_latex:
case Color_notelabel:
break;
case Color_brown:
case Color_darkgray:
case Color_gray:
case Color_lightgray:
case Color_lime:
case Color_olive:
case Color_orange:
case Color_pink:
case Color_purple:
case Color_teal:
case Color_violet:
features.require("xcolor");
break;
default:
features.require("color");
LYXERR(Debug::OUTFILE, "Color enabled. Font: " << to_utf8(stateText()));
}
// FIXME: Do something for background and soul package?
if (((features.usePolyglossia() && lang_->polyglossia() != doc_language->polyglossia())
|| (features.useBabel() && lang_->babel() != doc_language->babel())
|| (doc_language->encoding()->package() == Encoding::CJK && lang_ != doc_language))
&& lang_ != ignore_language
&& lang_ != latex_language)
{
features.useLanguage(lang_);
LYXERR(Debug::OUTFILE, "Found language " << lang_->lang());
}
}
ostream & operator<<(ostream & os, FontState fms)
{
return os << int(fms);
}
ostream & operator<<(ostream & os, FontInfo const & f)
{
return os << "font:"
<< " family " << f.family()
<< " series " << f.series()
<< " shape " << f.shape()
<< " size " << f.size()
<< " style " << f.style()
<< " color " << f.color()
// FIXME: uncomment this when we support background.
//<< " background " << f.background()
<< " emph " << f.emph()
<< " underbar " << f.underbar()
<< " strikeout " << f.strikeout()
<< " xout " << f.xout()
<< " uuline " << f.uuline()
<< " uwave " << f.uwave()
<< " noun " << f.noun()
<< " number " << f.number()
<< " nospellcheck " << f.nospellcheck();
}
ostream & operator<<(ostream & os, Font const & font)
{
return os << font.bits_
<< " lang: " << (font.lang_ ? font.lang_->lang() : "");
}
} // namespace lyx