lyx_mirror/src/tex2lyx/Preamble.cpp
2020-10-03 13:39:51 +02:00

3247 lines
96 KiB
C++

/**
* \file Preamble.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author André Pönitz
* \author Uwe Stöhr
*
* Full author contact details are available in file CREDITS.
*/
// {[(
#include <config.h>
#include "Preamble.h"
#include "tex2lyx.h"
#include "Encoding.h"
#include "LayoutFile.h"
#include "Layout.h"
#include "Lexer.h"
#include "TextClass.h"
#include "version.h"
#include "support/convert.h"
#include "support/FileName.h"
#include "support/filetools.h"
#include "support/lstrings.h"
#include "support/regex.h"
#include <algorithm>
#include <iostream>
using namespace std;
using namespace lyx::support;
namespace lyx {
Preamble preamble;
namespace {
// CJK languages are handled in text.cpp, polyglossia languages are listed
// further down.
/**
* known babel language names (including synonyms)
* not in standard babel: arabic, arabtex, armenian, belarusian, serbian-latin, thai
* please keep this in sync with known_coded_languages line by line!
*/
const char * const known_languages[] = {"acadian", "afrikaans", "albanian",
"american", "arabic", "arabtex", "australian", "austrian", "azerbaijani", "bahasa", "bahasai",
"bahasam", "basque", "belarusian", "bosnian", "brazil", "brazilian", "breton", "british",
"bulgarian", "canadian", "canadien", "catalan", "croatian", "czech", "danish",
"dutch", "english", "esperanto", "estonian", "farsi", "finnish", "francais",
"french", "frenchb", "frenchle", "frenchpro", "friulan", "galician", "german", "germanb",
"georgian", "greek", "hebrew", "hungarian", "icelandic", "indon", "indonesian",
"interlingua", "irish", "italian", "japanese", "kazakh", "kurmanji", "latin",
"latvian", "lithuanian", "lowersorbian", "lsorbian", "macedonian", "magyar", "malay", "meyalu",
"mongolian", "naustrian", "newzealand", "ngerman", "ngermanb", "norsk", "nswissgerman",
"nynorsk", "piedmontese", "polutonikogreek", "polish", "portuges", "portuguese",
"romanian", "romansh", "russian", "russianb", "samin", "scottish", "serbian", "serbian-latin",
"slovak", "slovene", "spanish", "swedish", "swissgerman", "thai", "turkish", "turkmen",
"ukraineb", "ukrainian", "uppersorbian", "UKenglish", "USenglish", "usorbian",
"vietnam", "welsh",
0};
/**
* the same as known_languages with .lyx names
* please keep this in sync with known_languages line by line!
*/
const char * const known_coded_languages[] = {"french", "afrikaans", "albanian",
"american", "arabic_arabi", "arabic_arabtex", "australian", "austrian", "azerbaijani", "bahasa", "bahasa",
"bahasam", "basque", "belarusian", "bosnian", "brazilian", "brazilian", "breton", "british",
"bulgarian", "canadian", "canadien", "catalan", "croatian", "czech", "danish",
"dutch", "english", "esperanto", "estonian", "farsi", "finnish", "french",
"french", "french", "french", "french", "friulan", "galician", "german", "german",
"georgian", "greek", "hebrew", "magyar", "icelandic", "bahasa", "bahasa",
"interlingua", "irish", "italian", "japanese", "kazakh", "kurmanji", "latin",
"latvian", "lithuanian", "lowersorbian", "lowersorbian", "macedonian", "magyar", "bahasam", "bahasam",
"mongolian", "naustrian", "newzealand", "ngerman", "ngerman", "norsk", "german-ch",
"nynorsk", "piedmontese", "polutonikogreek", "polish", "portuguese", "portuguese",
"romanian", "romansh", "russian", "russian", "samin", "scottish", "serbian", "serbian-latin",
"slovak", "slovene", "spanish", "swedish", "german-ch-old", "thai", "turkish", "turkmen",
"ukrainian", "ukrainian", "uppersorbian", "english", "english", "uppersorbian",
"vietnamese", "welsh",
0};
/// languages with british quotes (.lyx names)
const char * const known_british_quotes_languages[] = {"british", "welsh", 0};
/// languages with cjk quotes (.lyx names)
const char * const known_cjk_quotes_languages[] = {"chinese-traditional",
"japanese", "japanese-cjk", 0};
/// languages with cjk-angle quotes (.lyx names)
const char * const known_cjkangle_quotes_languages[] = {"korean", 0};
/// languages with danish quotes (.lyx names)
const char * const known_danish_quotes_languages[] = {"danish", 0};
/// languages with english quotes (.lyx names)
const char * const known_english_quotes_languages[] = {"american", "australian",
"bahasa", "bahasam", "bengali", "brazilian", "canadian", "chinese-simplified", "english",
"esperanto", "farsi", "interlingua", "irish", "newzealand", "scottish",
"thai", "turkish", "vietnamese", 0};
/// languages with french quotes (.lyx names)
const char * const known_french_quotes_languages[] = {"ancientgreek",
"arabic_arabi", "arabic_arabtex", "asturian", "belarusian", "breton",
"canadien", "catalan", "french", "friulan", "galician", "italian", "occitan",
"piedmontese", "portuguese", "spanish", "spanish-mexico", 0};
/// languages with german quotes (.lyx names)
const char * const known_german_quotes_languages[] = {"austrian", "bulgarian",
"czech", "estonian", "georgian", "german", "icelandic", "latvian", "lithuanian",
"lowersorbian", "macedonian", "naustrian", "ngerman", "romansh", "slovak", "slovene",
"uppersorbian", 0};
/// languages with polish quotes (.lyx names)
const char * const known_polish_quotes_languages[] = {"afrikaans", "bosnian", "croatian",
"dutch", "magyar", "polish", "romanian", "serbian", "serbian-latin", 0};
/// languages with russian quotes (.lyx names)
const char * const known_russian_quotes_languages[] = {"azerbaijani", "oldrussian",
"russian", "ukrainian", 0};
/// languages with swedish quotes (.lyx names)
const char * const known_swedish_quotes_languages[] = {"finnish", "swedish", 0};
/// languages with swiss quotes (.lyx names)
const char * const known_swiss_quotes_languages[] = {"albanian",
"armenian", "basque", "churchslavonic", "german-ch", "german-ch-old",
"norsk", "nynorsk", "turkmen", "ukrainian", "vietnamese", 0};
/// known language packages from the times before babel
const char * const known_old_language_packages[] = {"french", "frenchle",
"frenchpro", "german", "ngerman", "pmfrench", 0};
char const * const known_fontsizes[] = { "10pt", "11pt", "12pt", 0 };
const char * const known_roman_font_packages[] = { "ae", "beraserif", "bookman",
"ccfonts", "chancery", "charter", "cmr", "cochineal", "crimson", "CrimsonPro", "DejaVuSerif",
"DejaVuSerifCondensed", "fourier", "garamondx", "libertine", "libertineRoman", "libertine-type1",
"lmodern", "mathdesign", "mathpazo", "mathptmx", "MinionPro", "newcent", "noto", "noto-serif",
"PTSerif", "tgbonum", "tgchorus", "tgpagella", "tgschola", "tgtermes", "utopia", "xcharter", 0 };
const char * const known_sans_font_packages[] = { "avant", "berasans", "biolinum",
"biolinum-type1", "cantarell", "Chivo", "cmbr", "cmss", "DejaVuSans", "DejaVuSansCondensed", "FiraSans", "helvet", "iwona",
"iwonac", "iwonal", "iwonalc", "kurier", "kurierc", "kurierl", "kurierlc", "LibertinusSans-LF", "lmss", "noto-sans", "PTSans",
"tgadventor", "tgheros", "uop", 0 };
const char * const known_typewriter_font_packages[] = { "beramono", "cmtl", "cmtt", "courier", "DejaVuSansMono",
"FiraMono", "lmtt", "luximono", "libertineMono", "libertineMono-type1", "LibertinusMono-TLF", "lmodern",
"mathpazo", "mathptmx", "newcent", "noto-mono", "PTMono", "tgcursor", "txtt", 0 };
const char * const known_math_font_packages[] = { "eulervm", "newtxmath", 0};
const char * const known_latex_paper_sizes[] = { "a0paper", "b0paper", "c0paper",
"a1paper", "b1paper", "c1paper", "a2paper", "b2paper", "c2paper", "a3paper",
"b3paper", "c3paper", "a4paper", "b4paper", "c4paper", "a5paper", "b5paper",
"c5paper", "a6paper", "b6paper", "c6paper", "executivepaper", "legalpaper",
"letterpaper", "b0j", "b1j", "b2j", "b3j", "b4j", "b5j", "b6j", 0};
const char * const known_paper_margins[] = { "lmargin", "tmargin", "rmargin",
"bmargin", "headheight", "headsep", "footskip", "columnsep", 0};
const char * const known_coded_paper_margins[] = { "leftmargin", "topmargin",
"rightmargin", "bottommargin", "headheight", "headsep", "footskip",
"columnsep", 0};
/// commands that can start an \if...\else...\endif sequence
const char * const known_if_commands[] = {"if", "ifarydshln", "ifbraket",
"ifcancel", "ifcolortbl", "ifeurosym", "ifmarginnote", "ifmmode", "ifpdf",
"ifsidecap", "ifupgreek", 0};
const char * const known_basic_colors[] = {"black", "blue", "brown", "cyan",
"darkgray", "gray", "green", "lightgray", "lime", "magenta", "orange", "olive",
"pink", "purple", "red", "teal", "violet", "white", "yellow", 0};
const char * const known_basic_color_codes[] = {"#000000", "#0000ff", "#964B00", "#00ffff",
"#a9a9a9", "#808080", "#00ff00", "#d3d3d3", "#bfff00", "#ff00ff", "#ff7f00", "#808000",
"#ffc0cb", "#800080", "#ff0000", "#008080", "#8f00ff", "#ffffff", "#ffff00", 0};
/// conditional commands with three arguments like \@ifundefined{}{}{}
const char * const known_if_3arg_commands[] = {"@ifundefined", "IfFileExists",
0};
/*!
* Known file extensions for TeX files as used by \\includeonly
*/
char const * const known_tex_extensions[] = {"tex", 0};
/// packages that work only in xetex
/// polyglossia is handled separately
const char * const known_xetex_packages[] = {"arabxetex", "fixlatvian",
"fontbook", "fontwrap", "mathspec", "philokalia", "unisugar",
"xeCJK", "xecolor", "xecyr", "xeindex", "xepersian", "xunicode", 0};
/// packages that are automatically skipped if loaded by LyX
const char * const known_lyx_packages[] = {"amsbsy", "amsmath", "amssymb",
"amstext", "amsthm", "array", "babel", "booktabs", "calc", "CJK", "color",
"float", "fontspec", "framed", "graphicx", "hhline", "ifthen", "longtable",
"makeidx", "minted", "multirow", "nomencl", "parskip", "pdfpages", "prettyref", "refstyle",
"rotating", "rotfloat", "splitidx", "setspace", "subscript", "tabularx","textcomp", "tipa",
"tipx", "tone", "ulem", "url", "varioref", "verbatim", "wrapfig", "xcolor", "xltabular",
"xunicode", 0};
// codes used to remove packages that are loaded automatically by LyX.
// Syntax: package_beg_sep<name>package_mid_sep<package loading code>package_end_sep
const char package_beg_sep = '\001';
const char package_mid_sep = '\002';
const char package_end_sep = '\003';
// returns true if at least one of the options in what has been found
bool handle_opt(vector<string> & opts, char const * const * what, string & target)
{
if (opts.empty())
return false;
bool found = false;
// the last language option is the document language (for babel and LyX)
// the last size option is the document font size
vector<string>::iterator it;
vector<string>::iterator position = opts.begin();
for (; *what; ++what) {
it = find(opts.begin(), opts.end(), *what);
if (it != opts.end()) {
if (it >= position) {
found = true;
target = *what;
position = it;
}
}
}
return found;
}
void delete_opt(vector<string> & opts, char const * const * what)
{
if (opts.empty())
return;
// remove found options from the list
// do this after handle_opt to avoid potential memory leaks
vector<string>::iterator it;
for (; *what; ++what) {
it = find(opts.begin(), opts.end(), *what);
if (it != opts.end())
opts.erase(it);
}
}
/*!
* Split a package options string (keyval format) into a vector.
* Example input:
* authorformat=smallcaps,
* commabeforerest,
* titleformat=colonsep,
* bibformat={tabular,ibidem,numbered}
*/
vector<string> split_options(string const & input)
{
vector<string> options;
string option;
Parser p(input);
while (p.good()) {
Token const & t = p.get_token();
if (t.asInput() == ",") {
options.push_back(trimSpaceAndEol(option));
option.erase();
} else if (t.asInput() == "=") {
option += '=';
p.skip_spaces(true);
if (p.next_token().asInput() == "{")
option += '{' + p.getArg('{', '}') + '}';
} else if (t.cat() != catSpace && t.cat() != catComment)
option += t.asInput();
}
if (!option.empty())
options.push_back(trimSpaceAndEol(option));
return options;
}
/*!
* Retrieve a keyval option "name={value with=sign}" named \p name from
* \p options and return the value.
* The found option is also removed from \p options.
*/
string process_keyval_opt(vector<string> & options, string const & name)
{
for (size_t i = 0; i < options.size(); ++i) {
vector<string> option;
split(options[i], option, '=');
if (option.size() < 2)
continue;
if (option[0] == name) {
options.erase(options.begin() + i);
option.erase(option.begin());
return join(option, "=");
}
}
return "";
}
} // anonymous namespace
/**
* known polyglossia language names (including variants)
* FIXME: support spelling=old for german variants (german vs. ngerman LyX names etc)
*/
const char * const Preamble::polyglossia_languages[] = {
"albanian", "american", "amharic", "ancient", "arabic", "armenian", "asturian", "australian",
"bahasai", "bahasam", "basque", "bengali", "brazil", "brazilian", "breton", "british", "bulgarian",
"catalan", "churchslavonic", "coptic", "croatian", "czech", "danish", "divehi", "dutch",
"english", "esperanto", "estonian", "farsi", "finnish", "french", "friulan",
"galician", "greek", "monotonic", "hebrew", "hindi",
"icelandic", "interlingua", "irish", "italian", "kannada", "khmer", "korean",
"lao", "latin", "latvian", "lithuanian", "lsorbian", "magyar", "malayalam", "marathi",
"austrian", "newzealand", "german", "norsk", "nynorsk", "occitan", "oldrussian",
"piedmontese", "polish", "polytonic", "portuges", "romanian", "romansh", "russian",
"samin", "sanskrit", "scottish", "serbian", "slovak", "slovenian", "spanish", "swedish", "syriac",
"tamil", "telugu", "thai", "tibetan", "turkish", "turkmen",
"ukrainian", "urdu", "usorbian", "vietnamese", "welsh", 0};
// not yet supported by LyX: "korean", "nko"
/**
* the same as polyglossia_languages with .lyx names
* please keep this in sync with polyglossia_languages line by line!
*/
const char * const Preamble::coded_polyglossia_languages[] = {
"albanian", "american", "amharic", "ancientgreek", "arabic_arabi", "armenian", "asturian", "australian",
"bahasa", "bahasam", "basque", "bengali", "brazilian", "brazilian", "breton", "british", "bulgarian",
"catalan", "churchslavonic", "coptic", "croatian", "czech", "danish", "divehi", "dutch",
"english", "esperanto", "estonian", "farsi", "finnish", "french", "friulan",
"galician", "greek", "greek", "hebrew", "hindi",
"icelandic", "interlingua", "irish", "italian", "kannada", "khmer", "korean",
"lao", "latin", "latvian", "lithuanian", "lowersorbian", "magyar", "malayalam", "marathi",
"naustrian","newzealand", "ngerman", "norsk", "nynorsk", "occitan", "oldrussian",
"piedmontese", "polish", "polutonikogreek", "portuges", "romanian", "romansh", "russian",
"samin", "sanskrit", "scottish", "serbian", "slovak", "slovene", "spanish", "swedish", "syriac",
"tamil", "telugu", "thai", "tibetan", "turkish", "turkmen",
"ukrainian", "urdu", "uppersorbian", "vietnamese", "welsh", 0};
// not yet supported by LyX: "korean-polyglossia", "nko"
bool Preamble::usePolyglossia() const
{
return h_use_non_tex_fonts && h_language_package == "default";
}
bool Preamble::indentParagraphs() const
{
return h_paragraph_separation == "indent";
}
bool Preamble::isPackageUsed(string const & package) const
{
return used_packages.find(package) != used_packages.end();
}
bool Preamble::isPackageAutoLoaded(string const & package) const
{
return auto_packages.find(package) != auto_packages.end();
}
vector<string> Preamble::getPackageOptions(string const & package) const
{
map<string, vector<string> >::const_iterator it = used_packages.find(package);
if (it != used_packages.end())
return it->second;
return vector<string>();
}
void Preamble::registerAutomaticallyLoadedPackage(std::string const & package)
{
auto_packages.insert(package);
}
void Preamble::addModule(string const & module)
{
for (auto const & m : used_modules) {
if (m == module)
return;
}
used_modules.push_back(module);
}
void Preamble::suppressDate(bool suppress)
{
if (suppress)
h_suppress_date = "true";
else
h_suppress_date = "false";
}
void Preamble::registerAuthor(std::string const & name, string const & initials)
{
Author author(from_utf8(name), empty_docstring(), from_utf8(initials));
author.setUsed(true);
authors_.record(author);
h_tracking_changes = "true";
h_output_changes = "true";
}
Author const & Preamble::getAuthor(std::string const & name) const
{
Author author(from_utf8(name), empty_docstring(), empty_docstring());
for (AuthorList::Authors::const_iterator it = authors_.begin();
it != authors_.end(); ++it)
if (*it == author)
return *it;
static Author const dummy;
return dummy;
}
int Preamble::getSpecialTableColumnArguments(char c) const
{
map<char, int>::const_iterator it = special_columns_.find(c);
if (it == special_columns_.end())
return -1;
return it->second;
}
void Preamble::add_package(string const & name, vector<string> & options)
{
// every package inherits the global options
if (used_packages.find(name) == used_packages.end())
used_packages[name] = split_options(h_options);
// Insert options passed via PassOptionsToPackage
for (auto const & p : extra_package_options_) {
if (p.first == name) {
vector<string> eo = getVectorFromString(p.second);
for (auto const & eoi : eo)
options.push_back(eoi);
}
}
vector<string> & v = used_packages[name];
v.insert(v.end(), options.begin(), options.end());
if (name == "jurabib") {
// Don't output the order argument (see the cite command
// handling code in text.cpp).
vector<string>::iterator end =
remove(options.begin(), options.end(), "natbiborder");
end = remove(options.begin(), end, "jurabiborder");
options.erase(end, options.end());
}
}
void Preamble::setTextClass(string const & tclass, TeX2LyXDocClass & tc)
{
h_textclass = tclass;
tc.setName(h_textclass);
if (!LayoutFileList::get().haveClass(h_textclass) || !tc.load()) {
cerr << "Error: Could not read layout file for textclass \"" << h_textclass << "\"." << endl;
exit(EXIT_FAILURE);
}
}
namespace {
// Given is a string like "scaled=0.9" or "scale=0.9", return 0.9 * 100
bool scale_as_percentage(string const & scale, string & percentage)
{
if (contains(scale, '=')) {
string const value = support::split(scale, '=');
if (isStrDbl(value)) {
percentage = convert<string>(
static_cast<int>(100 * convert<double>(value)));
return true;
}
}
return false;
}
string remove_braces(string const & value)
{
if (value.empty())
return value;
if (value[0] == '{' && value[value.length()-1] == '}')
return value.substr(1, value.length()-2);
return value;
}
} // anonymous namespace
Preamble::Preamble() : one_language(true), explicit_babel(false),
title_layout_found(false), index_number(0), h_font_cjk_set(false)
{
//h_backgroundcolor;
//h_boxbgcolor;
h_biblio_style = "plain";
h_bibtex_command = "default";
h_cite_engine = "basic";
h_cite_engine_type = "default";
h_color = "#008000";
h_defskip = "medskip";
h_dynamic_quotes = false;
//h_float_placement;
//h_fontcolor;
h_fontencoding = "default";
h_font_roman[0] = "default";
h_font_roman[1] = "default";
h_font_sans[0] = "default";
h_font_sans[1] = "default";
h_font_typewriter[0] = "default";
h_font_typewriter[1] = "default";
h_font_math[0] = "auto";
h_font_math[1] = "auto";
h_font_default_family = "default";
h_use_non_tex_fonts = false;
h_font_sc = "false";
h_font_roman_osf = "false";
h_font_sans_osf = "false";
h_font_typewriter_osf = "false";
h_font_sf_scale[0] = "100";
h_font_sf_scale[1] = "100";
h_font_tt_scale[0] = "100";
h_font_tt_scale[1] = "100";
// h_font_roman_opts;
// h_font_sans_opts;
// h_font_typewriter_opts;
//h_font_cjk
h_is_mathindent = "0";
h_math_numbering_side = "default";
h_graphics = "default";
h_default_output_format = "default";
h_html_be_strict = "false";
h_html_css_as_file = "0";
h_html_math_output = "0";
h_docbook_table_output = "0";
h_index[0] = "Index";
h_index_command = "default";
h_inputencoding = "auto-legacy";
h_justification = "true";
h_language = "english";
h_language_package = "none";
//h_listings_params;
h_maintain_unincluded_children = "no";
//h_margins;
//h_notefontcolor;
//h_options;
h_output_changes = "false";
h_change_bars = "false";
h_output_sync = "0";
//h_output_sync_macro
h_papercolumns = "1";
h_paperfontsize = "default";
h_paperorientation = "portrait";
h_paperpagestyle = "default";
//h_papersides;
h_papersize = "default";
h_paragraph_indentation = "default";
h_paragraph_separation = "indent";
//h_pdf_title;
//h_pdf_author;
//h_pdf_subject;
//h_pdf_keywords;
h_pdf_bookmarks = "0";
h_pdf_bookmarksnumbered = "0";
h_pdf_bookmarksopen = "0";
h_pdf_bookmarksopenlevel = "1";
h_pdf_breaklinks = "0";
h_pdf_pdfborder = "0";
h_pdf_colorlinks = "0";
h_pdf_backref = "section";
h_pdf_pdfusetitle = "0";
//h_pdf_pagemode;
//h_pdf_quoted_options;
h_quotes_style = "english";
h_secnumdepth = "3";
h_shortcut[0] = "idx";
h_spacing = "single";
h_save_transient_properties = "true";
h_suppress_date = "false";
h_textclass = "article";
h_tocdepth = "3";
h_tracking_changes = "false";
h_use_bibtopic = "false";
h_use_dash_ligatures = "true";
h_use_indices = "false";
h_use_geometry = "false";
h_use_default_options = "false";
h_use_hyperref = "false";
h_use_microtype = "false";
h_use_lineno = "false";
h_use_refstyle = false;
h_use_minted = false;
h_use_packages["amsmath"] = "1";
h_use_packages["amssymb"] = "0";
h_use_packages["cancel"] = "0";
h_use_packages["esint"] = "1";
h_use_packages["mhchem"] = "0";
h_use_packages["mathdots"] = "0";
h_use_packages["mathtools"] = "0";
h_use_packages["stackrel"] = "0";
h_use_packages["stmaryrd"] = "0";
h_use_packages["undertilde"] = "0";
}
void Preamble::handle_hyperref(vector<string> & options)
{
// FIXME swallow inputencoding changes that might surround the
// hyperref setup if it was written by LyX
h_use_hyperref = "true";
// swallow "unicode=true", since LyX does always write that
vector<string>::iterator it =
find(options.begin(), options.end(), "unicode=true");
if (it != options.end())
options.erase(it);
it = find(options.begin(), options.end(), "pdfusetitle");
if (it != options.end()) {
h_pdf_pdfusetitle = "1";
options.erase(it);
}
string bookmarks = process_keyval_opt(options, "bookmarks");
if (bookmarks == "true")
h_pdf_bookmarks = "1";
else if (bookmarks == "false")
h_pdf_bookmarks = "0";
if (h_pdf_bookmarks == "1") {
string bookmarksnumbered =
process_keyval_opt(options, "bookmarksnumbered");
if (bookmarksnumbered == "true")
h_pdf_bookmarksnumbered = "1";
else if (bookmarksnumbered == "false")
h_pdf_bookmarksnumbered = "0";
string bookmarksopen =
process_keyval_opt(options, "bookmarksopen");
if (bookmarksopen == "true")
h_pdf_bookmarksopen = "1";
else if (bookmarksopen == "false")
h_pdf_bookmarksopen = "0";
if (h_pdf_bookmarksopen == "1") {
string bookmarksopenlevel =
process_keyval_opt(options, "bookmarksopenlevel");
if (!bookmarksopenlevel.empty())
h_pdf_bookmarksopenlevel = bookmarksopenlevel;
}
}
string breaklinks = process_keyval_opt(options, "breaklinks");
if (breaklinks == "true")
h_pdf_breaklinks = "1";
else if (breaklinks == "false")
h_pdf_breaklinks = "0";
string pdfborder = process_keyval_opt(options, "pdfborder");
if (pdfborder == "{0 0 0}")
h_pdf_pdfborder = "1";
else if (pdfborder == "{0 0 1}")
h_pdf_pdfborder = "0";
string backref = process_keyval_opt(options, "backref");
if (!backref.empty())
h_pdf_backref = backref;
string colorlinks = process_keyval_opt(options, "colorlinks");
if (colorlinks == "true")
h_pdf_colorlinks = "1";
else if (colorlinks == "false")
h_pdf_colorlinks = "0";
string pdfpagemode = process_keyval_opt(options, "pdfpagemode");
if (!pdfpagemode.empty())
h_pdf_pagemode = pdfpagemode;
string pdftitle = process_keyval_opt(options, "pdftitle");
if (!pdftitle.empty()) {
h_pdf_title = remove_braces(pdftitle);
}
string pdfauthor = process_keyval_opt(options, "pdfauthor");
if (!pdfauthor.empty()) {
h_pdf_author = remove_braces(pdfauthor);
}
string pdfsubject = process_keyval_opt(options, "pdfsubject");
if (!pdfsubject.empty())
h_pdf_subject = remove_braces(pdfsubject);
string pdfkeywords = process_keyval_opt(options, "pdfkeywords");
if (!pdfkeywords.empty())
h_pdf_keywords = remove_braces(pdfkeywords);
if (!options.empty()) {
if (!h_pdf_quoted_options.empty())
h_pdf_quoted_options += ',';
h_pdf_quoted_options += join(options, ",");
options.clear();
}
}
void Preamble::handle_geometry(vector<string> & options)
{
h_use_geometry = "true";
vector<string>::iterator it;
// paper orientation
if ((it = find(options.begin(), options.end(), "landscape")) != options.end()) {
h_paperorientation = "landscape";
options.erase(it);
}
// paper size
// keyval version: "paper=letter" or "paper=letterpaper"
string paper = process_keyval_opt(options, "paper");
if (!paper.empty())
if (suffixIs(paper, "paper"))
paper = subst(paper, "paper", "");
// alternative version: "letterpaper"
handle_opt(options, known_latex_paper_sizes, paper);
if (suffixIs(paper, "paper"))
paper = subst(paper, "paper", "");
delete_opt(options, known_latex_paper_sizes);
if (!paper.empty())
h_papersize = paper;
// page margins
char const * const * margin = known_paper_margins;
for (; *margin; ++margin) {
string value = process_keyval_opt(options, *margin);
if (!value.empty()) {
int k = margin - known_paper_margins;
string name = known_coded_paper_margins[k];
h_margins += '\\' + name + ' ' + value + '\n';
}
}
}
void Preamble::handle_package(Parser &p, string const & name,
string const & opts, bool in_lyx_preamble,
bool detectEncoding)
{
vector<string> options = split_options(opts);
add_package(name, options);
if (is_known(name, known_xetex_packages)) {
xetex = true;
h_use_non_tex_fonts = true;
registerAutomaticallyLoadedPackage("fontspec");
if (h_inputencoding == "auto-legacy")
p.setEncoding("UTF-8");
}
// vector of all options for easier parsing and
// skipping
vector<string> allopts = getVectorFromString(opts);
// this stores the potential extra options
string xopts;
//
// roman fonts
//
// By default, we use the package name as LyX font name,
// so this only needs to be reset if these names differ
if (is_known(name, known_roman_font_packages))
h_font_roman[0] = name;
if (name == "ccfonts") {
for (auto const & opt : allopts) {
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "lmodern") {
for (auto const & opt : allopts) {
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "fourier") {
h_font_roman[0] = "utopia";
for (auto const & opt : allopts) {
if (opt == "osf") {
h_font_roman_osf = "true";
continue;
}
if (opt == "expert") {
h_font_sc = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "garamondx") {
for (auto const & opt : allopts) {
if (opt == "osfI") {
h_font_roman_osf = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "libertine") {
// this automatically invokes biolinum
h_font_sans[0] = "biolinum";
// as well as libertineMono
h_font_typewriter[0] = "libertine-mono";
for (auto const & opt : allopts) {
if (opt == "osf") {
h_font_roman_osf = "true";
continue;
}
if (opt == "lining") {
h_font_roman_osf = "false";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "libertineRoman" || name == "libertine-type1") {
h_font_roman[0] = "libertine";
// NOTE: contrary to libertine.sty, libertineRoman
// and libertine-type1 do not automatically invoke
// biolinum and libertineMono
if (opts == "lining")
h_font_roman_osf = "false";
else if (opts == "osf")
h_font_roman_osf = "true";
}
if (name == "libertinus" || name == "libertinus-type1") {
bool sf = true;
bool tt = true;
bool rm = true;
bool osf = false;
string scalesf;
string scalett;
for (auto const & opt : allopts) {
if (opt == "rm" || opt == "serif") {
tt = false;
sf = false;
continue;
}
if (opt == "sf" || opt == "sans") {
tt = false;
rm = false;
continue;
}
if (opt == "tt=false" || opt == "mono=false") {
tt = false;
continue;
}
if (opt == "osf") {
osf = true;
continue;
}
if (opt == "scaleSF") {
scalesf = opt;
continue;
}
if (opt == "scaleTT") {
scalett = opt;
continue;
}
if (opt == "lining") {
h_font_roman_osf = "false";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (rm) {
h_font_roman[0] = "libertinus";
if (osf)
h_font_roman_osf = "true";
else
h_font_roman_osf = "false";
}
if (sf) {
h_font_sans[0] = "LibertinusSans-LF";
if (osf)
h_font_sans_osf = "true";
else
h_font_sans_osf = "false";
if (!scalesf.empty())
scale_as_percentage(scalesf, h_font_sf_scale[0]);
}
if (tt) {
h_font_typewriter[0] = "LibertinusMono-TLF";
if (!scalett.empty())
scale_as_percentage(scalett, h_font_tt_scale[0]);
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "MinionPro") {
h_font_roman[0] = "minionpro";
h_font_roman_osf = "true";
h_font_math[0] = "auto";
for (auto const & opt : allopts) {
if (opt == "lf") {
h_font_roman_osf = "false";
continue;
}
if (opt == "onlytext") {
h_font_math[0] = "default";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "mathdesign") {
for (auto const & opt : allopts) {
if (opt == "charter") {
h_font_roman[0] = "md-charter";
continue;
}
if (opt == "garamond") {
h_font_roman[0] = "md-garamond";
continue;
}
if (opt == "utopia") {
h_font_roman[0] = "md-utopia";
continue;
}
if (opt == "expert") {
h_font_sc = "true";
h_font_roman_osf = "true";
continue;
}
}
}
else if (name == "mathpazo") {
h_font_roman[0] = "palatino";
for (auto const & opt : allopts) {
if (opt == "osf") {
h_font_roman_osf = "true";
continue;
}
if (opt == "sc") {
h_font_sc = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
else if (name == "mathptmx") {
h_font_roman[0] = "times";
for (auto const & opt : allopts) {
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "crimson")
h_font_roman[0] = "cochineal";
if (name == "cochineal") {
for (auto const & opt : allopts) {
if (opt == "osf" || opt == "oldstyle") {
h_font_roman_osf = "true";
continue;
}
if (opt == "proportional" || opt == "p")
continue;
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "CrimsonPro") {
h_font_roman_osf = "true";
for (auto const & opt : allopts) {
if (opt == "lf" || opt == "lining") {
h_font_roman_osf = "false";
continue;
}
if (opt == "proportional" || opt == "p")
continue;
if (opt == "medium") {
h_font_roman[0] = "CrimsonProMedium";
continue;
}
if (opt == "extralight") {
h_font_roman[0] = "CrimsonProExtraLight";
continue;
}
if (opt == "light") {
h_font_roman[0] = "CrimsonProLight";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "eco")
// font uses old-style figure
h_font_roman_osf = "true";
if (name == "paratype") {
// in this case all fonts are ParaType
h_font_roman[0] = "PTSerif-TLF";
h_font_sans[0] = "default";
h_font_typewriter[0] = "default";
}
if (name == "PTSerif")
h_font_roman[0] = "PTSerif-TLF";
if (name == "XCharter") {
h_font_roman[0] = "xcharter";
for (auto const & opt : allopts) {
if (opt == "osf") {
h_font_roman_osf = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "plex-serif") {
h_font_roman[0] = "IBMPlexSerif";
for (auto const & opt : allopts) {
if (opt == "thin") {
h_font_roman[0] = "IBMPlexSerifThin";
continue;
}
if (opt == "extralight") {
h_font_roman[0] = "IBMPlexSerifExtraLight";
continue;
}
if (opt == "light") {
h_font_roman[0] = "IBMPlexSerifLight";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
if (name == "noto-serif" || name == "noto") {
bool rm = false;
bool rmx = false;
bool sf = false;
bool sfx = false;
bool tt = false;
bool thin = false;
bool extralight = false;
bool light = false;
bool medium = false;
bool osf = false;
string scl;
if (name == "noto") {
rm = true;
sf = true;
tt = true;
}
// Since the options might apply to different shapes,
// we need to parse all options first and then handle them.
for (auto const & opt : allopts) {
if (opt == "regular")
// skip
continue;
if (opt == "rm") {
rm = true;
rmx = true;
sf = sfx;
tt = false;
continue;
}
if (opt == "thin") {
thin = true;
continue;
}
if (opt == "extralight") {
extralight = true;
continue;
}
if (opt == "light") {
light = true;
continue;
}
if (opt == "medium") {
medium = true;
continue;
}
if (opt == "sf") {
sfx = true;
sf = true;
rm = rmx;
tt = false;
continue;
}
if (opt == "nott") {
tt = false;
continue;
}
if (opt == "osf") {
osf = true;
continue;
}
if (prefixIs(opt, "scaled=")) {
scl = opt;
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
options.clear();
// handle options that might affect different shapes
if (name == "noto-serif" || rm) {
if (thin)
h_font_roman[0] = "NotoSerifThin";
else if (extralight)
h_font_roman[0] = "NotoSerifExtralight";
else if (light)
h_font_roman[0] = "NotoSerifLight";
else if (medium)
h_font_roman[0] = "NotoSerifMedium";
else
h_font_roman[0] = "NotoSerifRegular";
if (osf)
h_font_roman_osf = "true";
if (!xopts.empty())
h_font_roman_opts = xopts;
}
if (name == "noto" && sf) {
if (thin)
h_font_sans[0] = "NotoSansThin";
else if (extralight)
h_font_sans[0] = "NotoSansExtralight";
else if (light)
h_font_sans[0] = "NotoSansLight";
else if (medium)
h_font_sans[0] = "NotoSansMedium";
else
h_font_sans[0] = "NotoSansRegular";
if (osf)
h_font_sans_osf = "true";
if (!scl.empty())
scale_as_percentage(scl, h_font_sf_scale[0]);
if (!xopts.empty())
h_font_sans_opts = xopts;
}
if (name == "noto" && tt) {
h_font_typewriter[0] = "NotoMonoRegular";
if (osf)
h_font_typewriter_osf = "true";
if (!scl.empty())
scale_as_percentage(scl, h_font_tt_scale[0]);
if (!xopts.empty())
h_font_typewriter_opts = xopts;
}
}
if (name == "sourceserifpro") {
h_font_roman[0] = "ADOBESourceSerifPro";
for (auto const & opt : allopts) {
if (opt == "osf") {
h_font_roman_osf = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_roman_opts = xopts;
options.clear();
}
//
// sansserif fonts
//
// By default, we use the package name as LyX font name,
// so this only needs to be reset if these names differ.
// Also, we handle the scaling option here generally.
if (is_known(name, known_sans_font_packages)) {
h_font_sans[0] = name;
if (contains(opts, "scale")) {
vector<string>::iterator it = allopts.begin();
for (; it != allopts.end() ; ++it) {
string const opt = *it;
if (prefixIs(opt, "scaled=") || prefixIs(opt, "scale=")) {
if (scale_as_percentage(opt, h_font_sf_scale[0])) {
allopts.erase(it);
break;
}
}
}
}
}
if (name == "biolinum" || name == "biolinum-type1") {
h_font_sans[0] = "biolinum";
for (auto const & opt : allopts) {
if (prefixIs(opt, "osf")) {
h_font_sans_osf = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_sans_opts = xopts;
options.clear();
}
if (name == "cantarell") {
for (auto const & opt : allopts) {
if (opt == "defaultsans")
continue;
if (prefixIs(opt, "oldstyle")) {
h_font_sans_osf = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_sans_opts = xopts;
options.clear();
}
if (name == "Chivo") {
for (auto const & opt : allopts) {
if (opt == "thin") {
h_font_roman[0] = "ChivoThin";
continue;
}
if (opt == "light") {
h_font_roman[0] = "ChivoLight";
continue;
}
if (opt == "regular") {
h_font_roman[0] = "Chivo";
continue;
}
if (opt == "medium") {
h_font_roman[0] = "ChivoMedium";
continue;
}
if (prefixIs(opt, "oldstyle")) {
h_font_sans_osf = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_sans_opts = xopts;
options.clear();
}
if (name == "PTSans") {
h_font_sans[0] = "PTSans-TLF";
}
if (name == "FiraSans") {
h_font_sans_osf = "true";
for (auto const & opt : allopts) {
if (opt == "book") {
h_font_sans[0] = "FiraSansBook";
continue;
}
if (opt == "thin") {
continue;
}
if (opt == "extralight") {
h_font_sans[0] = "FiraSansExtralight";
continue;
}
if (opt == "light") {
h_font_sans[0] = "FiraSansLight";
continue;
}
if (opt == "ultralight") {
h_font_sans[0] = "FiraSansUltralight";
continue;
}
if (opt == "thin") {
h_font_sans[0] = "FiraSansThin";
continue;
}
if (opt == "lf" || opt == "lining") {
h_font_sans_osf = "false";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_sans_opts = xopts;
options.clear();
}
if (name == "plex-sans") {
h_font_sans[0] = "IBMPlexSans";
for (auto const & opt : allopts) {
if (opt == "condensed") {
h_font_sans[0] = "IBMPlexSansCondensed";
continue;
}
if (opt == "thin") {
h_font_sans[0] = "IBMPlexSansThin";
continue;
}
if (opt == "extralight") {
h_font_sans[0] = "IBMPlexSansExtraLight";
continue;
}
if (opt == "light") {
h_font_sans[0] = "IBMPlexSansLight";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_sans_opts = xopts;
options.clear();
}
if (name == "noto-sans") {
h_font_sans[0] = "NotoSansRegular";
for (auto const & opt : allopts) {
if (opt == "regular")
continue;
if (opt == "medium") {
h_font_sans[0] = "NotoSansMedium";
continue;
}
if (opt == "thin") {
h_font_sans[0] = "NotoSansThin";
continue;
}
if (opt == "extralight") {
h_font_sans[0] = "NotoSansExtralight";
continue;
}
if (opt == "light") {
h_font_sans[0] = "NotoSansLight";
continue;
}
if (opt == "osf") {
h_font_sans_osf = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_sans_opts = xopts;
options.clear();
}
if (name == "sourcesanspro") {
h_font_sans[0] = "ADOBESourceSansPro";
for (auto const & opt : allopts) {
if (opt == "osf") {
h_font_sans_osf = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_sans_opts = xopts;
options.clear();
}
//
// typewriter fonts
//
// By default, we use the package name as LyX font name,
// so this only needs to be reset if these names differ.
// Also, we handle the scaling option here generally.
if (is_known(name, known_typewriter_font_packages)) {
h_font_typewriter[0] = name;
if (contains(opts, "scale")) {
vector<string>::iterator it = allopts.begin();
for (; it != allopts.end() ; ++it) {
string const opt = *it;
if (prefixIs(opt, "scaled=") || prefixIs(opt, "scale=")) {
if (scale_as_percentage(opt, h_font_tt_scale[0])) {
allopts.erase(it);
break;
}
}
}
}
}
if (name == "libertineMono" || name == "libertineMono-type1")
h_font_typewriter[0] = "libertine-mono";
if (name == "FiraMono") {
h_font_typewriter_osf = "true";
for (auto const & opt : allopts) {
if (opt == "lf" || opt == "lining") {
h_font_typewriter_osf = "false";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_typewriter_opts = xopts;
options.clear();
}
if (name == "PTMono")
h_font_typewriter[0] = "PTMono-TLF";
if (name == "plex-mono") {
h_font_typewriter[0] = "IBMPlexMono";
for (auto const & opt : allopts) {
if (opt == "thin") {
h_font_typewriter[0] = "IBMPlexMonoThin";
continue;
}
if (opt == "extralight") {
h_font_typewriter[0] = "IBMPlexMonoExtraLight";
continue;
}
if (opt == "light") {
h_font_typewriter[0] = "IBMPlexMonoLight";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_typewriter_opts = xopts;
options.clear();
}
if (name == "noto-mono") {
h_font_typewriter[0] = "NotoMonoRegular";
for (auto const & opt : allopts) {
if (opt == "regular")
continue;
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_typewriter_opts = xopts;
options.clear();
}
if (name == "sourcecodepro") {
h_font_typewriter[0] = "ADOBESourceCodePro";
for (auto const & opt : allopts) {
if (opt == "osf") {
h_font_typewriter_osf = "true";
continue;
}
if (!xopts.empty())
xopts += ", ";
xopts += opt;
}
if (!xopts.empty())
h_font_typewriter_opts = xopts;
options.clear();
}
//
// math fonts
//
// By default, we use the package name as LyX font name,
// so this only needs to be reset if these names differ.
if (is_known(name, known_math_font_packages))
h_font_math[0] = name;
if (name == "newtxmath") {
if (opts.empty())
h_font_math[0] = "newtxmath";
else if (opts == "garamondx")
h_font_math[0] = "garamondx-ntxm";
else if (opts == "libertine")
h_font_math[0] = "libertine-ntxm";
else if (opts == "minion")
h_font_math[0] = "minion-ntxm";
else if (opts == "cochineal")
h_font_math[0] = "cochineal-ntxm";
}
if (name == "iwona")
if (opts == "math")
h_font_math[0] = "iwona-math";
if (name == "kurier")
if (opts == "math")
h_font_math[0] = "kurier-math";
// after the detection and handling of special cases, we can remove the
// fonts, otherwise they would appear in the preamble, see bug #7856
if (is_known(name, known_roman_font_packages) || is_known(name, known_sans_font_packages)
|| is_known(name, known_typewriter_font_packages) || is_known(name, known_math_font_packages))
;
//"On". See the enum Package in BufferParams.h if you thought that "2" should have been "42"
else if (name == "amsmath" || name == "amssymb" || name == "cancel" ||
name == "esint" || name == "mhchem" || name == "mathdots" ||
name == "mathtools" || name == "stackrel" ||
name == "stmaryrd" || name == "undertilde") {
h_use_packages[name] = "2";
registerAutomaticallyLoadedPackage(name);
}
else if (name == "babel") {
h_language_package = "default";
// One might think we would have to do nothing if babel is loaded
// without any options to prevent pollution of the preamble with this
// babel call in every roundtrip.
// But the user could have defined babel-specific things afterwards. So
// we need to keep it in the preamble to prevent cases like bug #7861.
if (!opts.empty()) {
// check if more than one option was used - used later for inputenc
if (options.begin() != options.end() - 1)
one_language = false;
// babel takes the last language of the option of its \usepackage
// call as document language. If there is no such language option, the
// last language in the documentclass options is used.
handle_opt(options, known_languages, h_language);
// translate the babel name to a LyX name
h_language = babel2lyx(h_language);
if (h_language == "japanese") {
// For Japanese, the encoding isn't indicated in the source
// file, and there's really not much we can do. We could
// 1) offer a list of possible encodings to choose from, or
// 2) determine the encoding of the file by inspecting it.
// For the time being, we leave the encoding alone so that
// we don't get iconv errors when making a wrong guess, and
// we will output a note at the top of the document
// explaining what to do.
Encoding const * const enc = encodings.fromIconvName(
p.getEncoding(), Encoding::japanese, false);
if (enc)
h_inputencoding = enc->name();
is_nonCJKJapanese = true;
// in this case babel can be removed from the preamble
registerAutomaticallyLoadedPackage("babel");
} else {
// If babel is called with options, LyX puts them by default into the
// document class options. This works for most languages, except
// for Latvian, Lithuanian, Mongolian, Turkmen and Vietnamese and
// perhaps in future others.
// Therefore keep the babel call as it is as the user might have
// reasons for it.
string const babelcall = "\\usepackage[" + opts + "]{babel}\n";
if (!contains(h_preamble.str(), babelcall))
h_preamble << babelcall;
}
delete_opt(options, known_languages);
} else {
if (!contains(h_preamble.str(), "\\usepackage{babel}\n"))
h_preamble << "\\usepackage{babel}\n";
explicit_babel = true;
}
}
else if (name == "polyglossia") {
h_language_package = "default";
h_default_output_format = "pdf4";
h_use_non_tex_fonts = true;
xetex = true;
registerAutomaticallyLoadedPackage("xunicode");
if (h_inputencoding == "auto-legacy")
p.setEncoding("UTF-8");
}
else if (name == "CJK") {
// set the encoding to "auto-legacy" because it might be set to "auto-legacy-plain" by the babel handling
// and this would not be correct for CJK
if (h_inputencoding == "auto-legacy-plain")
h_inputencoding = "auto-legacy";
registerAutomaticallyLoadedPackage("CJK");
}
else if (name == "CJKutf8") {
h_inputencoding = "utf8-cjk";
p.setEncoding("UTF-8");
registerAutomaticallyLoadedPackage("CJKutf8");
}
else if (name == "fontenc") {
h_fontencoding = getStringFromVector(options, ",");
options.clear();
}
else if (name == "inputenc" || name == "luainputenc") {
// h_inputencoding is only set when there is not more than one
// inputenc option because otherwise h_inputencoding must be
// set to "auto-legacy" (the default encodings of the document's languages)
// Therefore check that exactly one option is passed to inputenc.
// It is also only set when there is not more than one babel
// language option.
if (!options.empty()) {
string const encoding = options.back();
Encoding const * const enc = encodings.fromLaTeXName(
encoding, Encoding::inputenc, true);
if (!enc) {
if (!detectEncoding)
cerr << "Unknown encoding " << encoding
<< ". Ignoring." << std::endl;
} else {
if (!enc->unsafe() && options.size() == 1 && one_language == true)
h_inputencoding = enc->name();
p.setEncoding(enc->iconvName());
}
options.clear();
}
}
else if (name == "srcltx") {
h_output_sync = "1";
if (!opts.empty()) {
h_output_sync_macro = "\\usepackage[" + opts + "]{srcltx}";
options.clear();
} else
h_output_sync_macro = "\\usepackage{srcltx}";
}
else if (is_known(name, known_old_language_packages)) {
// known language packages from the times before babel
// if they are found and not also babel, they will be used as
// custom language package
h_language_package = "\\usepackage{" + name + "}";
}
else if (name == "lyxskak") {
// ignore this and its options
const char * const o[] = {"ps", "mover", 0};
delete_opt(options, o);
}
else if (name == "parskip" && options.size() < 2 && (opts.empty() || prefixIs(opts, "skip="))) {
if (opts.empty())
h_paragraph_separation = "halfline";
else {
if (opts == "skip=\\smallskipamount")
h_defskip = "smallskip";
else if (opts == "skip=\\medskipamount")
h_defskip = "medskip";
else if (opts == "skip=\\bigskipamount")
h_defskip = "bigskip";
else if (opts == "skip=\\baselineskip")
h_defskip = "fullline";
else
h_defskip = "opts";
h_paragraph_separation = "skip";
}
}
else if (is_known(name, known_lyx_packages) && options.empty()) {
if (name == "splitidx")
h_use_indices = "true";
else if (name == "minted")
h_use_minted = true;
else if (name == "refstyle")
h_use_refstyle = true;
else if (name == "prettyref")
h_use_refstyle = false;
if (!in_lyx_preamble) {
h_preamble << package_beg_sep << name
<< package_mid_sep << "\\usepackage{"
<< name << '}';
if (p.next_token().cat() == catNewline ||
(p.next_token().cat() == catSpace &&
p.next_next_token().cat() == catNewline))
h_preamble << '\n';
h_preamble << package_end_sep;
}
}
else if (name == "geometry")
handle_geometry(options);
else if (name == "subfig")
; // ignore this FIXME: Use the package separator mechanism instead
else if (char const * const * where = is_known(name, known_languages))
h_language = known_coded_languages[where - known_languages];
else if (name == "natbib") {
h_biblio_style = "plainnat";
h_cite_engine = "natbib";
h_cite_engine_type = "authoryear";
vector<string>::iterator it =
find(options.begin(), options.end(), "authoryear");
if (it != options.end())
options.erase(it);
else {
it = find(options.begin(), options.end(), "numbers");
if (it != options.end()) {
h_cite_engine_type = "numerical";
options.erase(it);
}
}
if (!options.empty())
h_biblio_options = join(options, ",");
}
else if (name == "biblatex") {
h_biblio_style = "plainnat";
h_cite_engine = "biblatex";
h_cite_engine_type = "authoryear";
string opt;
vector<string>::iterator it =
find(options.begin(), options.end(), "natbib");
if (it != options.end()) {
options.erase(it);
h_cite_engine = "biblatex-natbib";
} else {
opt = process_keyval_opt(options, "natbib");
if (opt == "true")
h_cite_engine = "biblatex-natbib";
}
opt = process_keyval_opt(options, "style");
if (!opt.empty()) {
h_biblatex_citestyle = opt;
h_biblatex_bibstyle = opt;
} else {
opt = process_keyval_opt(options, "citestyle");
if (!opt.empty())
h_biblatex_citestyle = opt;
opt = process_keyval_opt(options, "bibstyle");
if (!opt.empty())
h_biblatex_bibstyle = opt;
}
opt = process_keyval_opt(options, "refsection");
if (!opt.empty()) {
if (opt == "none" || opt == "part"
|| opt == "chapter" || opt == "section"
|| opt == "subsection")
h_multibib = opt;
else
cerr << "Ignoring unknown refsection value '"
<< opt << "'.";
}
opt = process_keyval_opt(options, "bibencoding");
if (!opt.empty())
bibencoding = opt;
if (!options.empty()) {
h_biblio_options = join(options, ",");
options.clear();
}
}
else if (name == "jurabib") {
h_biblio_style = "jurabib";
h_cite_engine = "jurabib";
h_cite_engine_type = "authoryear";
if (!options.empty())
h_biblio_options = join(options, ",");
}
else if (name == "bibtopic")
h_use_bibtopic = "true";
else if (name == "chapterbib")
h_multibib = "child";
else if (name == "hyperref")
handle_hyperref(options);
else if (name == "algorithm2e") {
// Load "algorithm2e" module
addModule("algorithm2e");
// Add the package options to the global document options
if (!options.empty()) {
if (h_options.empty())
h_options = join(options, ",");
else
h_options += ',' + join(options, ",");
}
}
else if (name == "microtype") {
//we internally support only microtype without params
if (options.empty())
h_use_microtype = "true";
else
h_preamble << "\\usepackage[" << opts << "]{microtype}";
}
else if (name == "lineno") {
h_use_lineno = "true";
if (!options.empty()) {
h_lineno_options = join(options, ",");
options.clear();
}
}
else if (name == "changebar")
h_output_changes = "true";
else if (!in_lyx_preamble) {
if (options.empty())
h_preamble << "\\usepackage{" << name << '}';
else {
h_preamble << "\\usepackage[" << opts << "]{"
<< name << '}';
options.clear();
}
if (p.next_token().cat() == catNewline ||
(p.next_token().cat() == catSpace &&
p.next_next_token().cat() == catNewline))
h_preamble << '\n';
}
// We need to do something with the options...
if (!options.empty() && !detectEncoding)
cerr << "Ignoring options '" << join(options, ",")
<< "' of package " << name << '.' << endl;
// remove the whitespace
p.skip_spaces();
}
void Preamble::handle_if(Parser & p, bool in_lyx_preamble)
{
while (p.good()) {
Token t = p.get_token();
if (t.cat() == catEscape &&
is_known(t.cs(), known_if_commands))
handle_if(p, in_lyx_preamble);
else {
if (!in_lyx_preamble)
h_preamble << t.asInput();
if (t.cat() == catEscape && t.cs() == "fi")
return;
}
}
}
bool Preamble::writeLyXHeader(ostream & os, bool subdoc, string const & outfiledir)
{
if (contains(h_float_placement, "H"))
registerAutomaticallyLoadedPackage("float");
if (h_spacing != "single" && h_spacing != "default")
registerAutomaticallyLoadedPackage("setspace");
if (h_use_packages["amsmath"] == "2") {
// amsbsy and amstext are already provided by amsmath
registerAutomaticallyLoadedPackage("amsbsy");
registerAutomaticallyLoadedPackage("amstext");
}
// output the LyX file settings
// Important: Keep the version formatting in sync with LyX and
// lyx2lyx (bug 7951)
string const origin = roundtripMode() ? "roundtrip" : outfiledir;
os << "#LyX file created by tex2lyx " << lyx_version_major << '.'
<< lyx_version_minor << '\n'
<< "\\lyxformat " << LYX_FORMAT << '\n'
<< "\\begin_document\n"
<< "\\begin_header\n"
<< "\\save_transient_properties " << h_save_transient_properties << "\n"
<< "\\origin " << origin << "\n"
<< "\\textclass " << h_textclass << "\n";
string const raw = subdoc ? empty_string() : h_preamble.str();
if (!raw.empty()) {
os << "\\begin_preamble\n";
for (string::size_type i = 0; i < raw.size(); ++i) {
if (raw[i] == package_beg_sep) {
// Here follows some package loading code that
// must be skipped if the package is loaded
// automatically.
string::size_type j = raw.find(package_mid_sep, i);
if (j == string::npos)
return false;
string::size_type k = raw.find(package_end_sep, j);
if (k == string::npos)
return false;
string const package = raw.substr(i + 1, j - i - 1);
string const replacement = raw.substr(j + 1, k - j - 1);
if (auto_packages.find(package) == auto_packages.end())
os << replacement;
i = k;
} else
os.put(raw[i]);
}
os << "\n\\end_preamble\n";
}
if (!h_options.empty())
os << "\\options " << h_options << "\n";
os << "\\use_default_options " << h_use_default_options << "\n";
if (!used_modules.empty()) {
os << "\\begin_modules\n";
vector<string>::const_iterator const end = used_modules.end();
vector<string>::const_iterator it = used_modules.begin();
for (; it != end; ++it)
os << *it << '\n';
os << "\\end_modules\n";
}
if (!h_includeonlys.empty()) {
os << "\\begin_includeonly\n";
for (auto const & iofile : h_includeonlys)
os << iofile << '\n';
os << "\\end_includeonly\n";
}
os << "\\maintain_unincluded_children " << h_maintain_unincluded_children << "\n"
<< "\\language " << h_language << "\n"
<< "\\language_package " << h_language_package << "\n"
<< "\\inputencoding " << h_inputencoding << "\n"
<< "\\fontencoding " << h_fontencoding << "\n"
<< "\\font_roman \"" << h_font_roman[0]
<< "\" \"" << h_font_roman[1] << "\"\n"
<< "\\font_sans \"" << h_font_sans[0] << "\" \"" << h_font_sans[1] << "\"\n"
<< "\\font_typewriter \"" << h_font_typewriter[0]
<< "\" \"" << h_font_typewriter[1] << "\"\n"
<< "\\font_math \"" << h_font_math[0] << "\" \"" << h_font_math[1] << "\"\n"
<< "\\font_default_family " << h_font_default_family << "\n"
<< "\\use_non_tex_fonts " << (h_use_non_tex_fonts ? "true" : "false") << '\n'
<< "\\font_sc " << h_font_sc << "\n"
<< "\\font_roman_osf " << h_font_roman_osf << "\n"
<< "\\font_sans_osf " << h_font_sans_osf << "\n"
<< "\\font_typewriter_osf " << h_font_typewriter_osf << "\n";
if (!h_font_roman_opts.empty())
os << "\\font_roman_opts \"" << h_font_roman_opts << "\"" << '\n';
os << "\\font_sf_scale " << h_font_sf_scale[0]
<< ' ' << h_font_sf_scale[1] << '\n';
if (!h_font_sans_opts.empty())
os << "\\font_sans_opts \"" << h_font_sans_opts << "\"" << '\n';
os << "\\font_tt_scale " << h_font_tt_scale[0]
<< ' ' << h_font_tt_scale[1] << '\n';
if (!h_font_cjk.empty())
os << "\\font_cjk " << h_font_cjk << '\n';
if (!h_font_typewriter_opts.empty())
os << "\\font_typewriter_opts \"" << h_font_typewriter_opts << "\"" << '\n';
os << "\\use_microtype " << h_use_microtype << '\n'
<< "\\use_dash_ligatures " << h_use_dash_ligatures << '\n'
<< "\\graphics " << h_graphics << '\n'
<< "\\default_output_format " << h_default_output_format << "\n"
<< "\\output_sync " << h_output_sync << "\n";
if (h_output_sync == "1")
os << "\\output_sync_macro \"" << h_output_sync_macro << "\"\n";
os << "\\bibtex_command " << h_bibtex_command << "\n"
<< "\\index_command " << h_index_command << "\n";
if (!h_float_placement.empty())
os << "\\float_placement " << h_float_placement << "\n";
os << "\\paperfontsize " << h_paperfontsize << "\n"
<< "\\spacing " << h_spacing << "\n"
<< "\\use_hyperref " << h_use_hyperref << '\n';
if (h_use_hyperref == "true") {
if (!h_pdf_title.empty())
os << "\\pdf_title " << Lexer::quoteString(h_pdf_title) << '\n';
if (!h_pdf_author.empty())
os << "\\pdf_author " << Lexer::quoteString(h_pdf_author) << '\n';
if (!h_pdf_subject.empty())
os << "\\pdf_subject " << Lexer::quoteString(h_pdf_subject) << '\n';
if (!h_pdf_keywords.empty())
os << "\\pdf_keywords " << Lexer::quoteString(h_pdf_keywords) << '\n';
os << "\\pdf_bookmarks " << h_pdf_bookmarks << "\n"
"\\pdf_bookmarksnumbered " << h_pdf_bookmarksnumbered << "\n"
"\\pdf_bookmarksopen " << h_pdf_bookmarksopen << "\n"
"\\pdf_bookmarksopenlevel " << h_pdf_bookmarksopenlevel << "\n"
"\\pdf_breaklinks " << h_pdf_breaklinks << "\n"
"\\pdf_pdfborder " << h_pdf_pdfborder << "\n"
"\\pdf_colorlinks " << h_pdf_colorlinks << "\n"
"\\pdf_backref " << h_pdf_backref << "\n"
"\\pdf_pdfusetitle " << h_pdf_pdfusetitle << '\n';
if (!h_pdf_pagemode.empty())
os << "\\pdf_pagemode " << h_pdf_pagemode << '\n';
if (!h_pdf_quoted_options.empty())
os << "\\pdf_quoted_options " << Lexer::quoteString(h_pdf_quoted_options) << '\n';
}
os << "\\papersize " << h_papersize << "\n"
<< "\\use_geometry " << h_use_geometry << '\n';
for (map<string, string>::const_iterator it = h_use_packages.begin();
it != h_use_packages.end(); ++it)
os << "\\use_package " << it->first << ' ' << it->second << '\n';
os << "\\cite_engine " << h_cite_engine << '\n'
<< "\\cite_engine_type " << h_cite_engine_type << '\n'
<< "\\biblio_style " << h_biblio_style << "\n"
<< "\\use_bibtopic " << h_use_bibtopic << "\n";
if (!h_biblio_options.empty())
os << "\\biblio_options " << h_biblio_options << "\n";
if (!h_biblatex_bibstyle.empty())
os << "\\biblatex_bibstyle " << h_biblatex_bibstyle << "\n";
if (!h_biblatex_citestyle.empty())
os << "\\biblatex_citestyle " << h_biblatex_citestyle << "\n";
if (!h_multibib.empty())
os << "\\multibib " << h_multibib << "\n";
os << "\\use_indices " << h_use_indices << "\n"
<< "\\paperorientation " << h_paperorientation << '\n'
<< "\\suppress_date " << h_suppress_date << '\n'
<< "\\justification " << h_justification << '\n'
<< "\\use_refstyle " << h_use_refstyle << '\n'
<< "\\use_minted " << h_use_minted << '\n'
<< "\\use_lineno " << h_use_lineno << '\n';
if (!h_lineno_options.empty())
os << "\\lineno_options " << h_lineno_options << '\n';
if (!h_fontcolor.empty())
os << "\\fontcolor " << h_fontcolor << '\n';
if (!h_notefontcolor.empty())
os << "\\notefontcolor " << h_notefontcolor << '\n';
if (!h_backgroundcolor.empty())
os << "\\backgroundcolor " << h_backgroundcolor << '\n';
if (!h_boxbgcolor.empty())
os << "\\boxbgcolor " << h_boxbgcolor << '\n';
if (index_number != 0)
for (int i = 0; i < index_number; i++) {
os << "\\index " << h_index[i] << '\n'
<< "\\shortcut " << h_shortcut[i] << '\n'
<< "\\color " << h_color << '\n'
<< "\\end_index\n";
}
else {
os << "\\index " << h_index[0] << '\n'
<< "\\shortcut " << h_shortcut[0] << '\n'
<< "\\color " << h_color << '\n'
<< "\\end_index\n";
}
os << h_margins
<< "\\secnumdepth " << h_secnumdepth << "\n"
<< "\\tocdepth " << h_tocdepth << "\n"
<< "\\paragraph_separation " << h_paragraph_separation << "\n";
if (h_paragraph_separation == "skip")
os << "\\defskip " << h_defskip << "\n";
else
os << "\\paragraph_indentation " << h_paragraph_indentation << "\n";
os << "\\is_math_indent " << h_is_mathindent << "\n";
if (!h_mathindentation.empty())
os << "\\math_indentation " << h_mathindentation << "\n";
os << "\\math_numbering_side " << h_math_numbering_side << "\n";
os << "\\quotes_style " << h_quotes_style << "\n"
<< "\\dynamic_quotes " << h_dynamic_quotes << "\n"
<< "\\papercolumns " << h_papercolumns << "\n"
<< "\\papersides " << h_papersides << "\n"
<< "\\paperpagestyle " << h_paperpagestyle << "\n";
if (!h_listings_params.empty())
os << "\\listings_params " << h_listings_params << "\n";
os << "\\tracking_changes " << h_tracking_changes << "\n"
<< "\\output_changes " << h_output_changes << "\n"
<< "\\change_bars " << h_change_bars << "\n"
<< "\\html_math_output " << h_html_math_output << "\n"
<< "\\html_css_as_file " << h_html_css_as_file << "\n"
<< "\\html_be_strict " << h_html_be_strict << "\n"
<< "\\docbook_table_output " << h_docbook_table_output << "\n"
<< authors_
<< "\\end_header\n\n"
<< "\\begin_body\n";
return true;
}
void Preamble::parse(Parser & p, string const & forceclass,
TeX2LyXDocClass & tc)
{
// initialize fixed types
special_columns_['D'] = 3;
parse(p, forceclass, false, tc);
}
void Preamble::parse(Parser & p, string const & forceclass,
bool detectEncoding, TeX2LyXDocClass & tc)
{
bool is_full_document = false;
bool is_lyx_file = false;
bool in_lyx_preamble = false;
bool class_set = false;
// determine whether this is a full document or a fragment for inclusion
while (p.good()) {
Token const & t = p.get_token();
if (t.cat() == catEscape && t.cs() == "documentclass") {
is_full_document = true;
break;
}
}
p.reset();
if (detectEncoding && !is_full_document)
return;
while (is_full_document && p.good()) {
if (detectEncoding && h_inputencoding != "auto-legacy" &&
h_inputencoding != "auto-legacy-plain")
return;
// Force textclass if the user wanted it
if (!forceclass.empty()) {
setTextClass(forceclass, tc);
class_set = true;
}
Token const & t = p.get_token();
#ifdef FILEDEBUG
if (!detectEncoding)
cerr << "t: " << t << '\n';
#endif
//
// cat codes
//
if (!in_lyx_preamble &&
(t.cat() == catLetter ||
t.cat() == catSuper ||
t.cat() == catSub ||
t.cat() == catOther ||
t.cat() == catMath ||
t.cat() == catActive ||
t.cat() == catBegin ||
t.cat() == catEnd ||
t.cat() == catAlign ||
t.cat() == catParameter)) {
h_preamble << t.cs();
continue;
}
if (!in_lyx_preamble &&
(t.cat() == catSpace || t.cat() == catNewline)) {
h_preamble << t.asInput();
continue;
}
if (t.cat() == catComment) {
static regex const islyxfile("%% LyX .* created this file");
static regex const usercommands("User specified LaTeX commands");
string const comment = t.asInput();
// magically switch encoding default if it looks like XeLaTeX
static string const magicXeLaTeX =
"% This document must be compiled with XeLaTeX ";
if (comment.size() > magicXeLaTeX.size()
&& comment.substr(0, magicXeLaTeX.size()) == magicXeLaTeX
&& h_inputencoding == "auto-legacy") {
if (!detectEncoding)
cerr << "XeLaTeX comment found, switching to UTF8\n";
h_inputencoding = "utf8";
}
smatch sub;
if (regex_search(comment, sub, islyxfile)) {
is_lyx_file = true;
in_lyx_preamble = true;
} else if (is_lyx_file
&& regex_search(comment, sub, usercommands))
in_lyx_preamble = false;
else if (!in_lyx_preamble)
h_preamble << t.asInput();
continue;
}
if (t.cs() == "PassOptionsToPackage") {
string const poptions = p.getArg('{', '}');
string const package = p.verbatim_item();
extra_package_options_.insert(make_pair(package, poptions));
continue;
}
if (t.cs() == "pagestyle") {
h_paperpagestyle = p.verbatim_item();
continue;
}
if (t.cs() == "setdefaultlanguage") {
xetex = true;
// We don't yet care about non-language variant options
// because LyX doesn't support this yet, see bug #8214
if (p.hasOpt()) {
string langopts = p.getOpt();
// check if the option contains a variant, if yes, extract it
string::size_type pos_var = langopts.find("variant");
string::size_type i = langopts.find(',', pos_var);
string::size_type k = langopts.find('=', pos_var);
if (pos_var != string::npos){
string variant;
if (i == string::npos)
variant = langopts.substr(k + 1, langopts.length() - k - 2);
else
variant = langopts.substr(k + 1, i - k - 1);
h_language = variant;
}
p.verbatim_item();
} else
h_language = p.verbatim_item();
//finally translate the poyglossia name to a LyX name
h_language = polyglossia2lyx(h_language);
continue;
}
if (t.cs() == "setotherlanguage") {
// We don't yet care about the option because LyX doesn't
// support this yet, see bug #8214
p.hasOpt() ? p.getOpt() : string();
p.verbatim_item();
continue;
}
if (t.cs() == "setmainfont") {
string fontopts = p.hasOpt() ? p.getArg('[', ']') : string();
h_font_roman[1] = p.getArg('{', '}');
if (!fontopts.empty()) {
vector<string> opts = getVectorFromString(fontopts);
fontopts.clear();
for (auto const & opt : opts) {
if (opt == "Mapping=tex-text" || opt == "Ligatures=TeX")
// ignore
continue;
if (!fontopts.empty())
fontopts += ", ";
fontopts += opt;
}
h_font_roman_opts = fontopts;
}
continue;
}
if (t.cs() == "setsansfont" || t.cs() == "setmonofont") {
// LyX currently only supports the scale option
string scale, fontopts;
if (p.hasOpt()) {
fontopts = p.getArg('[', ']');
if (!fontopts.empty()) {
vector<string> opts = getVectorFromString(fontopts);
fontopts.clear();
for (auto const & opt : opts) {
if (opt == "Mapping=tex-text" || opt == "Ligatures=TeX")
// ignore
continue;
if (prefixIs(opt, "Scale=")) {
scale_as_percentage(opt, scale);
continue;
}
if (!fontopts.empty())
fontopts += ", ";
fontopts += opt;
}
}
}
if (t.cs() == "setsansfont") {
if (!scale.empty())
h_font_sf_scale[1] = scale;
h_font_sans[1] = p.getArg('{', '}');
if (!fontopts.empty())
h_font_sans_opts = fontopts;
} else {
if (!scale.empty())
h_font_tt_scale[1] = scale;
h_font_typewriter[1] = p.getArg('{', '}');
if (!fontopts.empty())
h_font_typewriter_opts = fontopts;
}
continue;
}
if (t.cs() == "babelfont") {
xetex = true;
h_use_non_tex_fonts = true;
h_language_package = "babel";
if (h_inputencoding == "auto-legacy")
p.setEncoding("UTF-8");
// we don't care about the lang option
string const lang = p.hasOpt() ? p.getArg('[', ']') : string();
string const family = p.getArg('{', '}');
string fontopts = p.hasOpt() ? p.getArg('[', ']') : string();
string const fontname = p.getArg('{', '}');
if (lang.empty() && family == "rm") {
h_font_roman[1] = fontname;
if (!fontopts.empty()) {
vector<string> opts = getVectorFromString(fontopts);
fontopts.clear();
for (auto const & opt : opts) {
if (opt == "Mapping=tex-text" || opt == "Ligatures=TeX")
// ignore
continue;
if (!fontopts.empty())
fontopts += ", ";
fontopts += opt;
}
h_font_roman_opts = fontopts;
}
continue;
} else if (lang.empty() && (family == "sf" || family == "tt")) {
string scale;
if (!fontopts.empty()) {
vector<string> opts = getVectorFromString(fontopts);
fontopts.clear();
for (auto const & opt : opts) {
if (opt == "Mapping=tex-text" || opt == "Ligatures=TeX")
// ignore
continue;
if (prefixIs(opt, "Scale=")) {
scale_as_percentage(opt, scale);
continue;
}
if (!fontopts.empty())
fontopts += ", ";
fontopts += opt;
}
}
if (family == "sf") {
if (!scale.empty())
h_font_sf_scale[1] = scale;
h_font_sans[1] = fontname;
if (!fontopts.empty())
h_font_sans_opts = fontopts;
} else {
if (!scale.empty())
h_font_tt_scale[1] = scale;
h_font_typewriter[1] = fontname;
if (!fontopts.empty())
h_font_typewriter_opts = fontopts;
}
continue;
} else {
// not rm, sf or tt or lang specific
h_preamble << '\\' << t.cs();
if (!lang.empty())
h_preamble << '[' << lang << ']';
h_preamble << '{' << family << '}';
if (!fontopts.empty())
h_preamble << '[' << fontopts << ']';
h_preamble << '{' << fontname << '}' << '\n';
continue;
}
}
if (t.cs() == "date") {
string argument = p.getArg('{', '}');
if (argument.empty())
h_suppress_date = "true";
else
h_preamble << t.asInput() << '{' << argument << '}';
continue;
}
if (t.cs() == "color") {
string const space =
(p.hasOpt() ? p.getOpt() : string());
string argument = p.getArg('{', '}');
// check the case that a standard color is used
if (space.empty() && is_known(argument, known_basic_colors)) {
h_fontcolor = rgbcolor2code(argument);
registerAutomaticallyLoadedPackage("color");
} else if (space.empty() && argument == "document_fontcolor")
registerAutomaticallyLoadedPackage("color");
// check the case that LyX's document_fontcolor is defined
// but not used for \color
else {
h_preamble << t.asInput();
if (!space.empty())
h_preamble << space;
h_preamble << '{' << argument << '}';
// the color might already be set because \definecolor
// is parsed before this
h_fontcolor = "";
}
continue;
}
if (t.cs() == "pagecolor") {
string argument = p.getArg('{', '}');
// check the case that a standard color is used
if (is_known(argument, known_basic_colors)) {
h_backgroundcolor = rgbcolor2code(argument);
} else if (argument == "page_backgroundcolor")
registerAutomaticallyLoadedPackage("color");
// check the case that LyX's page_backgroundcolor is defined
// but not used for \pagecolor
else {
h_preamble << t.asInput() << '{' << argument << '}';
// the color might already be set because \definecolor
// is parsed before this
h_backgroundcolor = "";
}
continue;
}
if (t.cs() == "makeatletter") {
// LyX takes care of this
p.setCatcode('@', catLetter);
continue;
}
if (t.cs() == "makeatother") {
// LyX takes care of this
p.setCatcode('@', catOther);
continue;
}
if (t.cs() == "makeindex") {
// LyX will re-add this if a print index command is found
p.skip_spaces();
continue;
}
if (t.cs() == "newindex") {
string const indexname = p.getArg('[', ']');
string const shortcut = p.verbatim_item();
if (!indexname.empty())
h_index[index_number] = indexname;
else
h_index[index_number] = shortcut;
h_shortcut[index_number] = shortcut;
index_number += 1;
p.skip_spaces();
continue;
}
if (t.cs() == "addbibresource") {
string const options = p.getArg('[', ']');
string const arg = removeExtension(p.getArg('{', '}'));
if (!options.empty()) {
// check if the option contains a bibencoding, if yes, extract it
string::size_type pos = options.find("bibencoding=");
string encoding;
if (pos != string::npos) {
string::size_type i = options.find(',', pos);
if (i == string::npos)
encoding = options.substr(pos + 1);
else
encoding = options.substr(pos, i - pos);
pos = encoding.find('=');
if (pos == string::npos)
encoding.clear();
else
encoding = encoding.substr(pos + 1);
}
if (!encoding.empty())
biblatex_encodings.push_back(normalize_filename(arg) + ' ' + encoding);
}
biblatex_bibliographies.push_back(arg);
continue;
}
if (t.cs() == "bibliography") {
vector<string> bibs = getVectorFromString(p.getArg('{', '}'));
biblatex_bibliographies.insert(biblatex_bibliographies.end(), bibs.begin(), bibs.end());
continue;
}
if (t.cs() == "RS@ifundefined") {
string const name = p.verbatim_item();
string const body1 = p.verbatim_item();
string const body2 = p.verbatim_item();
// only non-lyxspecific stuff
if (in_lyx_preamble &&
(name == "subsecref" || name == "thmref" || name == "lemref"))
p.skip_spaces();
else {
ostringstream ss;
ss << '\\' << t.cs();
ss << '{' << name << '}'
<< '{' << body1 << '}'
<< '{' << body2 << '}';
h_preamble << ss.str();
}
continue;
}
if (t.cs() == "AtBeginDocument") {
string const name = p.verbatim_item();
// only non-lyxspecific stuff
if (in_lyx_preamble &&
(name == "\\providecommand\\partref[1]{\\ref{part:#1}}"
|| name == "\\providecommand\\chapref[1]{\\ref{chap:#1}}"
|| name == "\\providecommand\\secref[1]{\\ref{sec:#1}}"
|| name == "\\providecommand\\subsecref[1]{\\ref{subsec:#1}}"
|| name == "\\providecommand\\parref[1]{\\ref{par:#1}}"
|| name == "\\providecommand\\figref[1]{\\ref{fig:#1}}"
|| name == "\\providecommand\\tabref[1]{\\ref{tab:#1}}"
|| name == "\\providecommand\\algref[1]{\\ref{alg:#1}}"
|| name == "\\providecommand\\fnref[1]{\\ref{fn:#1}}"
|| name == "\\providecommand\\enuref[1]{\\ref{enu:#1}}"
|| name == "\\providecommand\\eqref[1]{\\ref{eq:#1}}"
|| name == "\\providecommand\\lemref[1]{\\ref{lem:#1}}"
|| name == "\\providecommand\\thmref[1]{\\ref{thm:#1}}"
|| name == "\\providecommand\\corref[1]{\\ref{cor:#1}}"
|| name == "\\providecommand\\propref[1]{\\ref{prop:#1}}"))
p.skip_spaces();
else {
ostringstream ss;
ss << '\\' << t.cs();
ss << '{' << name << '}';
h_preamble << ss.str();
}
continue;
}
if (t.cs() == "newcommand" || t.cs() == "newcommandx"
|| t.cs() == "renewcommand" || t.cs() == "renewcommandx"
|| t.cs() == "providecommand" || t.cs() == "providecommandx"
|| t.cs() == "DeclareRobustCommand"
|| t.cs() == "DeclareRobustCommandx"
|| t.cs() == "ProvideTextCommandDefault"
|| t.cs() == "DeclareMathAccent") {
bool star = false;
if (p.next_token().character() == '*') {
p.get_token();
star = true;
}
string const name = p.verbatim_item();
string const opt1 = p.getFullOpt();
string const opt2 = p.getFullOpt();
string const body = p.verbatim_item();
// store the in_lyx_preamble setting
bool const was_in_lyx_preamble = in_lyx_preamble;
// font settings
if (name == "\\rmdefault")
if (is_known(body, known_roman_font_packages)) {
h_font_roman[0] = body;
p.skip_spaces();
in_lyx_preamble = true;
}
if (name == "\\sfdefault") {
if (is_known(body, known_sans_font_packages)) {
h_font_sans[0] = body;
p.skip_spaces();
in_lyx_preamble = true;
}
if (body == "LibertinusSans-OsF") {
h_font_sans[0] = "LibertinusSans-LF";
h_font_sans_osf = "true";
p.skip_spaces();
in_lyx_preamble = true;
}
}
if (name == "\\ttdefault")
if (is_known(body, known_typewriter_font_packages)) {
h_font_typewriter[0] = body;
p.skip_spaces();
in_lyx_preamble = true;
}
if (name == "\\familydefault") {
string family = body;
// remove leading "\"
h_font_default_family = family.erase(0,1);
p.skip_spaces();
in_lyx_preamble = true;
}
if (name == "\\LibertinusSans@scale") {
if (isStrDbl(body)) {
h_font_sf_scale[0] = convert<string>(
static_cast<int>(100 * convert<double>(body)));
}
}
if (name == "\\LibertinusMono@scale") {
if (isStrDbl(body)) {
h_font_tt_scale[0] = convert<string>(
static_cast<int>(100 * convert<double>(body)));
}
}
// remove LyX-specific definitions that are re-added by LyX
// if necessary
// \lyxline is an ancient command that is converted by tex2lyx into
// a \rule therefore remove its preamble code
if (name == "\\lyxdot" || name == "\\lyxarrow"
|| name == "\\lyxline" || name == "\\LyX") {
p.skip_spaces();
in_lyx_preamble = true;
}
// Add the command to the known commands
add_known_command(name, opt1, !opt2.empty(), from_utf8(body));
// only non-lyxspecific stuff
if (!in_lyx_preamble) {
ostringstream ss;
ss << '\\' << t.cs();
if (star)
ss << '*';
ss << '{' << name << '}' << opt1 << opt2
<< '{' << body << "}";
if (prefixIs(t.cs(), "renew") || !contains(h_preamble.str(), ss.str()))
h_preamble << ss.str();
/*
ostream & out = in_preamble ? h_preamble : os;
out << "\\" << t.cs() << "{" << name << "}"
<< opts << "{" << body << "}";
*/
}
// restore the in_lyx_preamble setting
in_lyx_preamble = was_in_lyx_preamble;
continue;
}
if (t.cs() == "documentclass") {
vector<string>::iterator it;
vector<string> opts = split_options(p.getArg('[', ']'));
// FIXME This does not work for classes that have a
// different name in LyX than in LaTeX
string const tclass = p.getArg('{', '}');
p.skip_spaces();
// Only set text class if a class hasn't been forced
// (this was set above)
if (!class_set) {
// textclass needs to be set at this place (if not already done)
// as we need to know it for other parameters
// (such as class-dependent paper size)
setTextClass(tclass, tc);
class_set = true;
}
// Font sizes.
// Try those who are (most likely) known to all packages first
handle_opt(opts, known_fontsizes, h_paperfontsize);
delete_opt(opts, known_fontsizes);
// delete "pt" at the end
string::size_type i = h_paperfontsize.find("pt");
if (i != string::npos)
h_paperfontsize.erase(i);
// Now those known specifically to the class
vector<string> class_fsizes = getVectorFromString(tc.opt_fontsize(), "|");
string const fsize_format = tc.fontsizeformat();
for (auto const & fsize : class_fsizes) {
string latexsize = subst(fsize_format, "$$s", fsize);
vector<string>::iterator it = find(opts.begin(), opts.end(), latexsize);
if (it != opts.end()) {
h_paperfontsize = fsize;
opts.erase(it);
break;
}
}
// The documentclass options are always parsed before the options
// of the babel call so that a language cannot overwrite the babel
// options.
handle_opt(opts, known_languages, h_language);
delete_opt(opts, known_languages);
// math indentation
if ((it = find(opts.begin(), opts.end(), "fleqn"))
!= opts.end()) {
h_is_mathindent = "1";
opts.erase(it);
}
// formula numbering side
if ((it = find(opts.begin(), opts.end(), "leqno"))
!= opts.end()) {
h_math_numbering_side = "left";
opts.erase(it);
}
else if ((it = find(opts.begin(), opts.end(), "reqno"))
!= opts.end()) {
h_math_numbering_side = "right";
opts.erase(it);
}
// paper orientation
if ((it = find(opts.begin(), opts.end(), "landscape")) != opts.end()) {
h_paperorientation = "landscape";
opts.erase(it);
}
// paper sides
if ((it = find(opts.begin(), opts.end(), "oneside"))
!= opts.end()) {
h_papersides = "1";
opts.erase(it);
}
if ((it = find(opts.begin(), opts.end(), "twoside"))
!= opts.end()) {
h_papersides = "2";
opts.erase(it);
}
// paper columns
if ((it = find(opts.begin(), opts.end(), "onecolumn"))
!= opts.end()) {
h_papercolumns = "1";
opts.erase(it);
}
if ((it = find(opts.begin(), opts.end(), "twocolumn"))
!= opts.end()) {
h_papercolumns = "2";
opts.erase(it);
}
// paper sizes
// some size options are known by the document class, other sizes
// are handled by the \geometry command of the geometry package
vector<string> class_psizes = getVectorFromString(tc.opt_pagesize(), "|");
string const psize_format = tc.pagesizeformat();
for (auto const & psize : class_psizes) {
string latexsize = subst(psize_format, "$$s", psize);
vector<string>::iterator it = find(opts.begin(), opts.end(), latexsize);
if (it != opts.end()) {
h_papersize = psize;
opts.erase(it);
break;
}
if (psize_format == "$$spaper")
continue;
// Also try with the default format since this is understood by
// most classes
latexsize = psize + "paper";
it = find(opts.begin(), opts.end(), latexsize);
if (it != opts.end()) {
h_papersize = psize;
opts.erase(it);
break;
}
}
// the remaining options
h_options = join(opts, ",");
continue;
}
if (t.cs() == "usepackage") {
string const options = p.getArg('[', ']');
string const name = p.getArg('{', '}');
vector<string> vecnames;
split(name, vecnames, ',');
vector<string>::const_iterator it = vecnames.begin();
vector<string>::const_iterator end = vecnames.end();
for (; it != end; ++it)
handle_package(p, trimSpaceAndEol(*it), options,
in_lyx_preamble, detectEncoding);
continue;
}
if (t.cs() == "inputencoding") {
string const encoding = p.getArg('{','}');
Encoding const * const enc = encodings.fromLaTeXName(
encoding, Encoding::inputenc, true);
if (!enc) {
if (!detectEncoding)
cerr << "Unknown encoding " << encoding
<< ". Ignoring." << std::endl;
} else {
if (!enc->unsafe())
h_inputencoding = enc->name();
p.setEncoding(enc->iconvName());
}
continue;
}
if (t.cs() == "newenvironment") {
string const name = p.getArg('{', '}');
string const opt1 = p.getFullOpt();
string const opt2 = p.getFullOpt();
string const beg = p.verbatim_item();
string const end = p.verbatim_item();
if (!in_lyx_preamble) {
h_preamble << "\\newenvironment{" << name
<< '}' << opt1 << opt2 << '{'
<< beg << "}{" << end << '}';
}
add_known_environment(name, opt1, !opt2.empty(),
from_utf8(beg), from_utf8(end));
continue;
}
if (t.cs() == "newtheorem") {
bool star = false;
if (p.next_token().character() == '*') {
p.get_token();
star = true;
}
string const name = p.getArg('{', '}');
string const opt1 = p.getFullOpt();
string const opt2 = p.getFullOpt();
string const body = p.verbatim_item();
string const opt3 = p.getFullOpt();
string const cmd = star ? "\\newtheorem*" : "\\newtheorem";
string const complete = cmd + "{" + name + '}' +
opt1 + opt2 + '{' + body + '}' + opt3;
add_known_theorem(name, opt1, !opt2.empty(), from_utf8(complete));
if (!in_lyx_preamble)
h_preamble << complete;
continue;
}
if (t.cs() == "def") {
string name = p.get_token().cs();
// In fact, name may be more than the name:
// In the test case of bug 8116
// name == "csname SF@gobble@opt \endcsname".
// Therefore, we need to use asInput() instead of cs().
while (p.next_token().cat() != catBegin)
name += p.get_token().asInput();
if (!in_lyx_preamble)
h_preamble << "\\def\\" << name << '{'
<< p.verbatim_item() << "}";
continue;
}
if (t.cs() == "newcolumntype") {
string const name = p.getArg('{', '}');
trimSpaceAndEol(name);
int nargs = 0;
string opts = p.getOpt();
if (!opts.empty()) {
istringstream is(string(opts, 1));
is >> nargs;
}
special_columns_[name[0]] = nargs;
h_preamble << "\\newcolumntype{" << name << "}";
if (nargs)
h_preamble << "[" << nargs << "]";
h_preamble << "{" << p.verbatim_item() << "}";
continue;
}
if (t.cs() == "setcounter") {
string const name = p.getArg('{', '}');
string const content = p.getArg('{', '}');
if (name == "secnumdepth")
h_secnumdepth = content;
else if (name == "tocdepth")
h_tocdepth = content;
else
h_preamble << "\\setcounter{" << name << "}{" << content << "}";
continue;
}
if (t.cs() == "setlength") {
string const name = p.verbatim_item();
string const content = p.verbatim_item();
// the paragraphs are only not indented when \parindent is set to zero
if (name == "\\parindent" && content != "")
h_paragraph_indentation = translate_len(content);
else if (name == "\\parskip" && isPackageUsed("parskip")) {
if (content == "\\smallskipamount")
h_defskip = "smallskip";
else if (content == "\\medskipamount")
h_defskip = "medskip";
else if (content == "\\bigskipamount")
h_defskip = "bigskip";
else if (content == "\\baselineskip")
h_defskip = "fullline";
else
h_defskip = translate_len(content);
} else if (name == "\\mathindent") {
h_mathindentation = translate_len(content);
} else
h_preamble << "\\setlength{" << name << "}{" << content << "}";
continue;
}
if (t.cs() == "onehalfspacing") {
h_spacing = "onehalf";
continue;
}
if (t.cs() == "doublespacing") {
h_spacing = "double";
continue;
}
if (t.cs() == "setstretch") {
h_spacing = "other " + p.verbatim_item();
continue;
}
if (t.cs() == "synctex") {
// the scheme is \synctex=value
// where value can only be "1" or "-1"
h_output_sync = "1";
// there can be any character behind the value (e.g. a linebreak or a '\'
// therefore we extract it char by char
p.get_token();
string value = p.get_token().asInput();
if (value == "-")
value += p.get_token().asInput();
h_output_sync_macro = "\\synctex=" + value;
continue;
}
if (t.cs() == "begin") {
string const name = p.getArg('{', '}');
if (name == "document")
break;
h_preamble << "\\begin{" << name << "}";
continue;
}
if (t.cs() == "geometry") {
vector<string> opts = split_options(p.getArg('{', '}'));
handle_geometry(opts);
continue;
}
if (t.cs() == "definecolor") {
string const color = p.getArg('{', '}');
string const space = p.getArg('{', '}');
string const value = p.getArg('{', '}');
if (color == "document_fontcolor" && space == "rgb") {
RGBColor c(RGBColorFromLaTeX(value));
h_fontcolor = X11hexname(c);
} else if (color == "note_fontcolor" && space == "rgb") {
RGBColor c(RGBColorFromLaTeX(value));
h_notefontcolor = X11hexname(c);
} else if (color == "page_backgroundcolor" && space == "rgb") {
RGBColor c(RGBColorFromLaTeX(value));
h_backgroundcolor = X11hexname(c);
} else if (color == "shadecolor" && space == "rgb") {
RGBColor c(RGBColorFromLaTeX(value));
h_boxbgcolor = X11hexname(c);
} else {
h_preamble << "\\definecolor{" << color
<< "}{" << space << "}{" << value
<< '}';
}
continue;
}
if (t.cs() == "bibliographystyle") {
h_biblio_style = p.verbatim_item();
continue;
}
if (t.cs() == "jurabibsetup") {
// FIXME p.getArg('{', '}') is most probably wrong (it
// does not handle nested braces).
// Use p.verbatim_item() instead.
vector<string> jurabibsetup =
split_options(p.getArg('{', '}'));
// add jurabibsetup to the jurabib package options
add_package("jurabib", jurabibsetup);
if (!jurabibsetup.empty()) {
h_preamble << "\\jurabibsetup{"
<< join(jurabibsetup, ",") << '}';
}
continue;
}
if (t.cs() == "hypersetup") {
vector<string> hypersetup =
split_options(p.verbatim_item());
// add hypersetup to the hyperref package options
handle_hyperref(hypersetup);
if (!hypersetup.empty()) {
h_preamble << "\\hypersetup{"
<< join(hypersetup, ",") << '}';
}
continue;
}
if (t.cs() == "includeonly") {
vector<string> includeonlys = getVectorFromString(p.getArg('{', '}'));
for (auto & iofile : includeonlys) {
string filename(normalize_filename(iofile));
string const path = getMasterFilePath(true);
// We want to preserve relative/absolute filenames,
// therefore path is only used for testing
if (!makeAbsPath(filename, path).exists()) {
// The file extension is probably missing.
// Now try to find it out.
string const tex_name =
find_file(filename, path,
known_tex_extensions);
if (!tex_name.empty())
filename = tex_name;
}
string outname;
if (makeAbsPath(filename, path).exists())
fix_child_filename(filename);
else
cerr << "Warning: Could not find included file '"
<< filename << "'." << endl;
outname = changeExtension(filename, "lyx");
h_includeonlys.push_back(outname);
}
continue;
}
if (is_known(t.cs(), known_if_3arg_commands)) {
// prevent misparsing of \usepackage if it is used
// as an argument (see e.g. our own output of
// \@ifundefined above)
string const arg1 = p.verbatim_item();
string const arg2 = p.verbatim_item();
string const arg3 = p.verbatim_item();
// test case \@ifundefined{date}{}{\date{}}
if (t.cs() == "@ifundefined" && arg1 == "date" &&
arg2.empty() && arg3 == "\\date{}") {
h_suppress_date = "true";
// older tex2lyx versions did output
// \@ifundefined{definecolor}{\usepackage{color}}{}
} else if (t.cs() == "@ifundefined" &&
arg1 == "definecolor" &&
arg2 == "\\usepackage{color}" &&
arg3.empty()) {
if (!in_lyx_preamble)
h_preamble << package_beg_sep
<< "color"
<< package_mid_sep
<< "\\@ifundefined{definecolor}{color}{}"
<< package_end_sep;
// test for case
//\@ifundefined{showcaptionsetup}{}{%
// \PassOptionsToPackage{caption=false}{subfig}}
// that LyX uses for subfloats
} else if (t.cs() == "@ifundefined" &&
arg1 == "showcaptionsetup" && arg2.empty()
&& arg3 == "%\n \\PassOptionsToPackage{caption=false}{subfig}") {
; // do nothing
} else if (!in_lyx_preamble) {
h_preamble << t.asInput()
<< '{' << arg1 << '}'
<< '{' << arg2 << '}'
<< '{' << arg3 << '}';
}
continue;
}
if (is_known(t.cs(), known_if_commands)) {
// must not parse anything in conditional code, since
// LyX would output the parsed contents unconditionally
if (!in_lyx_preamble)
h_preamble << t.asInput();
handle_if(p, in_lyx_preamble);
continue;
}
if (!t.cs().empty() && !in_lyx_preamble) {
h_preamble << '\\' << t.cs();
continue;
}
}
// set textclass if not yet done (snippets without \documentclass and forced class)
if (!class_set)
setTextClass(h_textclass, tc);
// remove the whitespace
p.skip_spaces();
if (h_papersides.empty()) {
ostringstream ss;
ss << tc.sides();
h_papersides = ss.str();
}
// If the CJK package is used we cannot set the document language from
// the babel options. Instead, we guess which language is used most
// and set this one.
default_language = h_language;
if (is_full_document &&
(auto_packages.find("CJK") != auto_packages.end() ||
auto_packages.find("CJKutf8") != auto_packages.end())) {
p.pushPosition();
h_language = guessLanguage(p, default_language);
p.popPosition();
if (explicit_babel && h_language != default_language) {
// We set the document language to a CJK language,
// but babel is explicitly called in the user preamble
// without options. LyX will not add the default
// language to the document options if it is either
// english, or no text is set as default language.
// Therefore we need to add a language option explicitly.
// FIXME: It would be better to remove all babel calls
// from the user preamble, but this is difficult
// without re-introducing bug 7861.
if (h_options.empty())
h_options = lyx2babel(default_language);
else
h_options += ',' + lyx2babel(default_language);
}
}
// Finally, set the quote style.
// LyX knows the following quotes styles:
// british, cjk, cjkangle, danish, english, french, german,
// polish, russian, swedish and swiss
// conversion list taken from
// https://en.wikipedia.org/wiki/Quotation_mark,_non-English_usage
// (quotes for kazakh are unknown)
// british
if (is_known(h_language, known_british_quotes_languages))
h_quotes_style = "british";
// cjk
else if (is_known(h_language, known_cjk_quotes_languages))
h_quotes_style = "cjk";
// cjkangle
else if (is_known(h_language, known_cjkangle_quotes_languages))
h_quotes_style = "cjkangle";
// danish
else if (is_known(h_language, known_danish_quotes_languages))
h_quotes_style = "danish";
// french
else if (is_known(h_language, known_french_quotes_languages))
h_quotes_style = "french";
// german
else if (is_known(h_language, known_german_quotes_languages))
h_quotes_style = "german";
// polish
else if (is_known(h_language, known_polish_quotes_languages))
h_quotes_style = "polish";
// russian
else if (is_known(h_language, known_russian_quotes_languages))
h_quotes_style = "russian";
// swedish
else if (is_known(h_language, known_swedish_quotes_languages))
h_quotes_style = "swedish";
// swiss
else if (is_known(h_language, known_swiss_quotes_languages))
h_quotes_style = "swiss";
// english
else if (is_known(h_language, known_english_quotes_languages))
h_quotes_style = "english";
}
string Preamble::parseEncoding(Parser & p, string const & forceclass)
{
TeX2LyXDocClass dummy;
parse(p, forceclass, true, dummy);
if (h_inputencoding != "auto-legacy" && h_inputencoding != "auto-legacy-plain")
return h_inputencoding;
return "";
}
string babel2lyx(string const & language)
{
char const * const * where = is_known(language, known_languages);
if (where)
return known_coded_languages[where - known_languages];
return language;
}
string lyx2babel(string const & language)
{
char const * const * where = is_known(language, known_coded_languages);
if (where)
return known_languages[where - known_coded_languages];
return language;
}
string Preamble::polyglossia2lyx(string const & language)
{
char const * const * where = is_known(language, polyglossia_languages);
if (where)
return coded_polyglossia_languages[where - polyglossia_languages];
return language;
}
string rgbcolor2code(string const & name)
{
char const * const * where = is_known(name, known_basic_colors);
if (where) {
// "red", "green" etc
return known_basic_color_codes[where - known_basic_colors];
}
// "255,0,0", "0,255,0" etc
RGBColor c(RGBColorFromLaTeX(name));
return X11hexname(c);
}
// }])
} // namespace lyx