*/
HSpace indentation;
VSpace defskip;
+ HSpace math_indentation;
PDFOptions pdfoptions;
LayoutFileIndex baseClass_;
FormatList exportableFormatList;
cite_engine_type_ = ENGINE_TYPE_DEFAULT;
makeDocumentClass();
paragraph_separation = ParagraphIndentSeparation;
+ is_math_indent = false;
+ math_indentation = "default";
quotes_style = InsetQuotesParams::EnglishQuotes;
dynamic_quotes = false;
fontsize = "default";
use_geometry = false;
biblio_style = "plain";
use_bibtopic = false;
+ multibib = string();
use_indices = false;
save_transient_properties = true;
track_changes = false;
fonts_default_family = "default";
useNonTeXFonts = false;
use_microtype = false;
+ use_dash_ligatures = true;
fonts_expert_sc = false;
fonts_old_figures = false;
fonts_sans_scale[0] = 100;
}
+bool BufferParams::useBibtopic() const
+{
+ if (useBiblatex())
+ return false;
+ return (use_bibtopic || (!multibib.empty() && multibib != "child"));
+}
+
+
AuthorList & BufferParams::authors()
{
return pimpl_->authorlist;
}
+HSpace const & BufferParams::getMathIndentation() const
+{
+ return pimpl_->math_indentation;
+}
+
+
+void BufferParams::setMathIndentation(HSpace const & indent)
+{
+ pimpl_->math_indentation = indent;
+}
+
+
HSpace const & BufferParams::getIndentation() const
{
return pimpl_->indentation;
lex >> fonts_cjk;
} else if (token == "\\use_microtype") {
lex >> use_microtype;
+ } else if (token == "\\use_dash_ligatures") {
+ lex >> use_dash_ligatures;
} else if (token == "\\paragraph_separation") {
string parsep;
lex >> parsep;
if (pimpl_->defskip.kind() == VSpace::DEFSKIP)
// that is invalid
pimpl_->defskip = VSpace(VSpace::MEDSKIP);
+ } else if (token == "\\is_math_indent") {
+ lex >> is_math_indent;
+ } else if (token == "\\math_indentation") {
+ lex.next();
+ string math_indentation = lex.getString();
+ pimpl_->math_indentation = HSpace(math_indentation);
} else if (token == "\\quotes_style") {
string qstyle;
lex >> qstyle;
} else if (token == "\\biblio_style") {
lex.eatLine();
biblio_style = lex.getString();
+ } else if (token == "\\biblio_options") {
+ lex.eatLine();
+ biblio_opts = trim(lex.getString());
+ } else if (token == "\\biblatex_bibstyle") {
+ lex.eatLine();
+ biblatex_bibstyle = trim(lex.getString());
+ } else if (token == "\\biblatex_citestyle") {
+ lex.eatLine();
+ biblatex_citestyle = trim(lex.getString());
} else if (token == "\\use_bibtopic") {
lex >> use_bibtopic;
+ } else if (token == "\\multibib") {
+ lex >> multibib;
} else if (token == "\\use_indices") {
lex >> use_indices;
} else if (token == "\\tracking_changes") {
os << "\\font_cjk " << fonts_cjk << '\n';
}
os << "\\use_microtype " << convert<string>(use_microtype) << '\n';
+ os << "\\use_dash_ligatures " << convert<string>(use_dash_ligatures) << '\n';
os << "\\graphics " << graphics_driver << '\n';
os << "\\default_output_format " << default_output_format << '\n';
os << "\\output_sync " << output_sync << '\n';
os << "basic";
}
- os << "\n\\cite_engine_type " << theCiteEnginesList.getTypeAsString(cite_engine_type_)
- << "\n\\biblio_style " << biblio_style
- << "\n\\use_bibtopic " << convert<string>(use_bibtopic)
+ os << "\n\\cite_engine_type " << theCiteEnginesList.getTypeAsString(cite_engine_type_);
+
+ if (!biblio_style.empty())
+ os << "\n\\biblio_style " << biblio_style;
+ if (!biblio_opts.empty())
+ os << "\n\\biblio_options " << biblio_opts;
+ if (!biblatex_bibstyle.empty())
+ os << "\n\\biblatex_bibstyle " << biblatex_bibstyle;
+ if (!biblatex_citestyle.empty())
+ os << "\n\\biblatex_citestyle " << biblatex_citestyle;
+ if (!multibib.empty())
+ os << "\n\\multibib " << multibib;
+
+ os << "\n\\use_bibtopic " << convert<string>(use_bibtopic)
<< "\n\\use_indices " << convert<string>(use_indices)
<< "\n\\paperorientation " << string_orientation[orientation]
<< "\n\\suppress_date " << convert<string>(suppress_date)
os << "\n\\paragraph_indentation " << getIndentation().asLyXCommand();
else
os << "\n\\defskip " << getDefSkip().asLyXCommand();
+ os << "\n\\is_math_indent " << is_math_indent;
+ if (is_math_indent && getMathIndentation().asLyXCommand() != "default")
+ os << "\n\\math_indentation " << getMathIndentation().asLyXCommand();
os << "\n\\quotes_style "
<< string_quotes_style[quotes_style]
<< "\n\\dynamic_quotes " << dynamic_quotes
&& orientation == ORIENTATION_LANDSCAPE)
clsoptions << "landscape,";
+ if (is_math_indent)
+ clsoptions << "fleqn,";
+
// language should be a parameter to \documentclass
if (language->babel() == "hebrew"
&& default_language->babel() != "hebrew")
// if we use fontspec or newtxmath, we have to load the AMS packages here
string const ams = features.loadAMSPackages();
- bool const ot1 = (font_encoding() == "default" || font_encoding() == "OT1");
+ bool const ot1 = (main_font_encoding() == "default" || main_font_encoding() == "OT1");
bool const use_newtxmath =
theLaTeXFonts().getLaTeXFont(from_ascii(fontsMath())).getUsedPackage(
ot1, false, false) == "newtxmath";
// set font encoding
// XeTeX and LuaTeX (with OS fonts) do not need fontenc
if (!useNonTeXFonts && !features.isProvided("fontenc")
- && font_encoding() != "default") {
+ && main_font_encoding() != "default") {
// get main font encodings
vector<string> fontencs = font_encodings();
// get font encodings of secondary languages
}
}
+ if (is_math_indent) {
+ // when formula indentation
+ // only output something when it is not the default
+ if (getMathIndentation().asLyXCommand() != "default") {
+ os << "\\setlength{\\mathindent}{"
+ << from_utf8(getMathIndentation().asLatexCommand())
+ << "}\n";
+ }
+ }
+
// Now insert the LyX specific LaTeX commands...
features.resolveAlternatives();
features.expandMultiples();
IndicesList::const_iterator iit = indiceslist().begin();
IndicesList::const_iterator iend = indiceslist().end();
for (; iit != iend; ++iit) {
- pair<docstring, docstring> indexname_latex =
- features.runparams().encoding->latexString(iit->index(),
- features.runparams().dryrun);
- if (!indexname_latex.second.empty()) {
- // issue a warning about omitted characters
- // FIXME: should be passed to the error dialog
- frontend::Alert::warning(_("Uncodable characters"),
- bformat(_("The following characters that are used in an index name are not\n"
- "representable in the current encoding and therefore have been omitted:\n%1$s."),
- indexname_latex.second));
- }
- os << "\\newindex[";
- os << indexname_latex.first;
- os << "]{";
+ os << "\\newindex{";
os << escape(iit->shortcut());
os << "}\n";
}
os << "}\n";
}
- // xunicode needs to be loaded at least after amsmath, amssymb,
+ // xunicode only needs to be loaded if tipa is used
+ // (the rest is obsoleted by the new TU encoding).
+ // It needs to be loaded at least after amsmath, amssymb,
// esint and the other packages that provide special glyphs
- // The package only supports XeTeX currently.
- if (features.runparams().flavor == OutputParams::XETEX
- && useNonTeXFonts)
+ if (features.mustProvide("tipa") && useNonTeXFonts) {
+ // The package officially only supports XeTeX, but also works
+ // with LuaTeX. Thus we work around its XeTeX test.
+ if (features.runparams().flavor != OutputParams::XETEX) {
+ os << "% Pretend to xunicode that we are XeTeX\n"
+ << "\\def\\XeTeXpicfile{}\n";
+ }
os << "\\usepackage{xunicode}\n";
+ }
- // Polyglossia must be loaded last
+ // Polyglossia must be loaded last ...
if (use_polyglossia) {
// call the package
os << "\\usepackage{polyglossia}\n";
}
}
+ // ... but before biblatex (see #7065)
+ if (features.mustProvide("biblatex")) {
+ string delim = "";
+ string opts;
+ os << "\\usepackage";
+ if (!biblatex_bibstyle.empty()
+ && (biblatex_bibstyle == biblatex_citestyle)) {
+ opts = "style=" + biblatex_bibstyle;
+ delim = ",";
+ } else {
+ if (!biblatex_bibstyle.empty()) {
+ opts = "bibstyle=" + biblatex_bibstyle;
+ delim = ",";
+ }
+ if (!biblatex_citestyle.empty()) {
+ opts += delim + "citestyle=" + biblatex_citestyle;
+ delim = ",";
+ }
+ }
+ if (!multibib.empty() && multibib != "child") {
+ opts += delim + "refsection=" + multibib;
+ delim = ",";
+ }
+ if (bibtexCommand() == "bibtex8"
+ || prefixIs(bibtexCommand(), "bibtex8 ")) {
+ opts += delim + "backend=bibtex8";
+ delim = ",";
+ } else if (bibtexCommand() == "bibtex"
+ || prefixIs(bibtexCommand(), "bibtex ")) {
+ opts += delim + "backend=bibtex";
+ delim = ",";
+ }
+ if (!biblio_opts.empty())
+ opts += delim + biblio_opts;
+ if (!opts.empty())
+ os << "[" << opts << "]";
+ os << "{biblatex}\n";
+ }
+
+
// Load custom language package here
if (features.langPackage() == LaTeXFeatures::LANG_PACK_CUSTOM) {
if (lang_package == "default")
}
-string const BufferParams::font_encoding() const
+string const BufferParams::main_font_encoding() const
{
return font_encodings().empty() ? "default" : font_encodings().back();
}
}
// Tex Fonts
- bool const ot1 = (font_encoding() == "default" || font_encoding() == "OT1");
+ bool const ot1 = (main_font_encoding() == "default" || main_font_encoding() == "OT1");
bool const dryrun = features.runparams().dryrun;
bool const complete = (fontsSans() == "default" && fontsTypewriter() == "default");
bool const nomath = (fontsMath() == "default");
string const & BufferParams::defaultBiblioStyle() const
{
- map<string, string> bs = documentClass().defaultBiblioStyle();
- return bs[documentClass().opt_enginetype()];
+ map<string, string> const & bs = documentClass().defaultBiblioStyle();
+ auto cit = bs.find(theCiteEnginesList.getTypeAsString(citeEngineType()));
+ if (cit != bs.end())
+ return cit->second;
+ else
+ return empty_string();
}
string BufferParams::getCiteAlias(string const & s) const
{
+ vector<string> commands =
+ documentClass().citeCommands(citeEngineType());
+ // If it is a real command, don't treat it as an alias
+ if (find(commands.begin(), commands.end(), s) != commands.end())
+ return string();
map<string,string> aliases = documentClass().citeCommandAliases();
if (aliases.find(s) != aliases.end())
return aliases[s];
}
-string const & BufferParams::bibtexCommand() const
+string const BufferParams::bibtexCommand() const
{
+ // Return document-specific setting if available
if (bibtex_command != "default")
return bibtex_command;
- else if (encoding().package() == Encoding::japanese)
- return lyxrc.jbibtex_command;
- else
+
+ // If we have "default" in document settings, consult the prefs
+ // 1. Japanese (uses a specific processor)
+ if (encoding().package() == Encoding::japanese) {
+ if (lyxrc.jbibtex_command != "automatic")
+ // Return the specified program, if "automatic" is not set
+ return lyxrc.jbibtex_command;
+ else if (!useBiblatex()) {
+ // With classic BibTeX, return pbibtex, jbibtex, bibtex
+ if (lyxrc.jbibtex_alternatives.find("pbibtex") != lyxrc.jbibtex_alternatives.end())
+ return "pbibtex";
+ if (lyxrc.jbibtex_alternatives.find("jbibtex") != lyxrc.jbibtex_alternatives.end())
+ return "jbibtex";
+ return "bibtex";
+ }
+ }
+ // 2. All other languages
+ else if (lyxrc.bibtex_command != "automatic")
+ // Return the specified program, if "automatic" is not set
return lyxrc.bibtex_command;
+
+ // 3. Automatic: find the most suitable for the current cite framework
+ if (useBiblatex()) {
+ // For Biblatex, we prefer biber (also for Japanese)
+ // and fall back to bibtex8 and, as last resort, bibtex
+ if (lyxrc.bibtex_alternatives.find("biber") != lyxrc.bibtex_alternatives.end())
+ return "biber";
+ else if (lyxrc.bibtex_alternatives.find("bibtex8") != lyxrc.bibtex_alternatives.end())
+ return "bibtex8";
+ }
+ return "bibtex";
+}
+
+
+bool BufferParams::useBiblatex() const
+{
+ return theCiteEnginesList[citeEngine().list().front()]
+ ->getCiteFramework() == "biblatex";
}