lyx_mirror/src/BufferParams.cpp
2023-10-30 12:54:29 +01:00

3914 lines
114 KiB
C++

/**
* \file BufferParams.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Alfredo Braunstein
* \author Lars Gullik Bjønnes
* \author Jean-Marc Lasgouttes
* \author John Levon
* \author André Pönitz
* \author Martin Vermeer
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "BufferParams.h"
#include "Author.h"
#include "LayoutFile.h"
#include "BranchList.h"
#include "Buffer.h"
#include "Bullet.h"
#include "CiteEnginesList.h"
#include "Color.h"
#include "ColorSet.h"
#include "Converter.h"
#include "Encoding.h"
#include "Format.h"
#include "IndicesList.h"
#include "Language.h"
#include "LaTeXFeatures.h"
#include "LaTeXFonts.h"
#include "Font.h"
#include "Lexer.h"
#include "LyXRC.h"
#include "OutputParams.h"
#include "Spacing.h"
#include "texstream.h"
#include "TexRow.h"
#include "VSpace.h"
#include "PDFOptions.h"
#include "frontends/alert.h"
#include "insets/InsetListingsParams.h"
#include "insets/InsetQuotes.h"
#include "support/convert.h"
#include "support/debug.h"
#include "support/FileName.h"
#include "support/filetools.h"
#include "support/gettext.h"
#include "support/Length.h"
#include "support/Messages.h"
#include "support/mutex.h"
#include "support/Package.h"
#include "support/Translator.h"
#include "support/lstrings.h"
#include <algorithm>
#include <sstream>
using namespace std;
using namespace lyx::support;
static char const * const string_paragraph_separation[] = {
"indent", "skip", ""
};
static char const * const string_quotes_style[] = {
"english", "swedish", "german", "polish", "swiss", "danish", "plain",
"british", "swedishg", "french", "frenchin", "russian", "cjk", "cjkangle",
"hungarian", "hebrew", ""
};
static char const * const string_papersize[] = {
"default", "custom", "letter", "legal", "executive",
"a0", "a1", "a2", "a3", "a4", "a5", "a6",
"b0", "b1", "b2", "b3", "b4", "b5", "b6",
"c0", "c1", "c2", "c3", "c4", "c5", "c6",
"b0j", "b1j", "b2j", "b3j", "b4j", "b5j", "b6j", ""
};
static char const * const string_papersize_geometry[] = {
"default", "custom", "letterpaper", "legalpaper", "executivepaper",
"a0paper", "a1paper", "a2paper", "a3paper", "a4paper", "a5paper", "a6paper",
"b0paper", "b1paper", "b2paper", "b3paper", "b4paper", "b5paper", "b6paper",
"c0paper", "c1paper", "c2paper", "c3paper", "c4paper", "c5paper", "c6paper",
"b0j", "b1j", "b2j", "b3j", "b4j", "b5j", "b6j", ""
};
static char const * const string_orientation[] = {
"portrait", "landscape", ""
};
static char const * const tex_graphics[] = {
"default", "dvialw", "dvilaser", "dvipdf", "dvipdfm", "dvipdfmx",
"dvips", "dvipsone", "dvitops", "dviwin", "dviwindo", "dvi2ps", "emtex",
"ln", "oztex", "pctexhp", "pctexps", "pctexwin", "pctex32", "pdftex",
"psprint", "pubps", "tcidvi", "textures", "truetex", "vtex", "xdvi",
"xetex", "none", ""
};
namespace lyx {
// Local translators
namespace {
// Paragraph separation
typedef Translator<string, BufferParams::ParagraphSeparation> ParSepTranslator;
ParSepTranslator const init_parseptranslator()
{
ParSepTranslator translator
(string_paragraph_separation[0], BufferParams::ParagraphIndentSeparation);
translator.addPair(string_paragraph_separation[1], BufferParams::ParagraphSkipSeparation);
return translator;
}
ParSepTranslator const & parseptranslator()
{
static ParSepTranslator const translator =
init_parseptranslator();
return translator;
}
// Quotes style
typedef Translator<string, QuoteStyle> QuotesStyleTranslator;
QuotesStyleTranslator const init_quotesstyletranslator()
{
QuotesStyleTranslator translator
(string_quotes_style[0], QuoteStyle::English);
translator.addPair(string_quotes_style[1], QuoteStyle::Swedish);
translator.addPair(string_quotes_style[2], QuoteStyle::German);
translator.addPair(string_quotes_style[3], QuoteStyle::Polish);
translator.addPair(string_quotes_style[4], QuoteStyle::Swiss);
translator.addPair(string_quotes_style[5], QuoteStyle::Danish);
translator.addPair(string_quotes_style[6], QuoteStyle::Plain);
translator.addPair(string_quotes_style[7], QuoteStyle::British);
translator.addPair(string_quotes_style[8], QuoteStyle::SwedishG);
translator.addPair(string_quotes_style[9], QuoteStyle::French);
translator.addPair(string_quotes_style[10], QuoteStyle::FrenchIN);
translator.addPair(string_quotes_style[11], QuoteStyle::Russian);
translator.addPair(string_quotes_style[12], QuoteStyle::CJK);
translator.addPair(string_quotes_style[13], QuoteStyle::CJKAngle);
translator.addPair(string_quotes_style[14], QuoteStyle::Hungarian);
translator.addPair(string_quotes_style[15], QuoteStyle::Hebrew);
return translator;
}
QuotesStyleTranslator const & quotesstyletranslator()
{
static QuotesStyleTranslator const translator =
init_quotesstyletranslator();
return translator;
}
// Paper size
typedef Translator<string, PAPER_SIZE> PaperSizeTranslator;
static PaperSizeTranslator initPaperSizeTranslator()
{
PaperSizeTranslator translator(string_papersize[0], PAPER_DEFAULT);
translator.addPair(string_papersize[1], PAPER_CUSTOM);
translator.addPair(string_papersize[2], PAPER_USLETTER);
translator.addPair(string_papersize[3], PAPER_USLEGAL);
translator.addPair(string_papersize[4], PAPER_USEXECUTIVE);
translator.addPair(string_papersize[5], PAPER_A0);
translator.addPair(string_papersize[6], PAPER_A1);
translator.addPair(string_papersize[7], PAPER_A2);
translator.addPair(string_papersize[8], PAPER_A3);
translator.addPair(string_papersize[9], PAPER_A4);
translator.addPair(string_papersize[10], PAPER_A5);
translator.addPair(string_papersize[11], PAPER_A6);
translator.addPair(string_papersize[12], PAPER_B0);
translator.addPair(string_papersize[13], PAPER_B1);
translator.addPair(string_papersize[14], PAPER_B2);
translator.addPair(string_papersize[15], PAPER_B3);
translator.addPair(string_papersize[16], PAPER_B4);
translator.addPair(string_papersize[17], PAPER_B5);
translator.addPair(string_papersize[18], PAPER_B6);
translator.addPair(string_papersize[19], PAPER_C0);
translator.addPair(string_papersize[20], PAPER_C1);
translator.addPair(string_papersize[21], PAPER_C2);
translator.addPair(string_papersize[22], PAPER_C3);
translator.addPair(string_papersize[23], PAPER_C4);
translator.addPair(string_papersize[24], PAPER_C5);
translator.addPair(string_papersize[25], PAPER_C6);
translator.addPair(string_papersize[26], PAPER_JISB0);
translator.addPair(string_papersize[27], PAPER_JISB1);
translator.addPair(string_papersize[28], PAPER_JISB2);
translator.addPair(string_papersize[29], PAPER_JISB3);
translator.addPair(string_papersize[30], PAPER_JISB4);
translator.addPair(string_papersize[31], PAPER_JISB5);
translator.addPair(string_papersize[32], PAPER_JISB6);
return translator;
}
PaperSizeTranslator const & papersizetranslator()
{
static PaperSizeTranslator const translator =
initPaperSizeTranslator();
return translator;
}
// Paper orientation
typedef Translator<string, PAPER_ORIENTATION> PaperOrientationTranslator;
PaperOrientationTranslator const init_paperorientationtranslator()
{
PaperOrientationTranslator translator(string_orientation[0], ORIENTATION_PORTRAIT);
translator.addPair(string_orientation[1], ORIENTATION_LANDSCAPE);
return translator;
}
PaperOrientationTranslator const & paperorientationtranslator()
{
static PaperOrientationTranslator const translator =
init_paperorientationtranslator();
return translator;
}
// Page sides
typedef Translator<int, PageSides> SidesTranslator;
SidesTranslator const init_sidestranslator()
{
SidesTranslator translator(1, OneSide);
translator.addPair(2, TwoSides);
return translator;
}
SidesTranslator const & sidestranslator()
{
static SidesTranslator const translator = init_sidestranslator();
return translator;
}
// LaTeX packages
typedef Translator<int, BufferParams::Package> PackageTranslator;
PackageTranslator const init_packagetranslator()
{
PackageTranslator translator(0, BufferParams::package_off);
translator.addPair(1, BufferParams::package_auto);
translator.addPair(2, BufferParams::package_on);
return translator;
}
PackageTranslator const & packagetranslator()
{
static PackageTranslator const translator =
init_packagetranslator();
return translator;
}
// Spacing
typedef Translator<string, Spacing::Space> SpaceTranslator;
SpaceTranslator const init_spacetranslator()
{
SpaceTranslator translator("default", Spacing::Default);
translator.addPair("single", Spacing::Single);
translator.addPair("onehalf", Spacing::Onehalf);
translator.addPair("double", Spacing::Double);
translator.addPair("other", Spacing::Other);
return translator;
}
SpaceTranslator const & spacetranslator()
{
static SpaceTranslator const translator = init_spacetranslator();
return translator;
}
bool inSystemDir(FileName const & document_dir, string & system_dir)
{
// A document is assumed to be in a system LyX directory (not
// necessarily the system directory of the running instance)
// if both "configure.py" and "chkconfig.ltx" are found in
// either document_dir/../ or document_dir/../../.
// If true, the system directory path is returned in system_dir
// with a trailing path separator.
string const msg = "Checking whether document is in a system dir...";
string dir = document_dir.absFileName();
for (int i = 0; i < 3; ++i) {
dir = addPath(dir, "..");
if (!fileSearch(dir, "configure.py").empty() &&
!fileSearch(dir, "chkconfig.ltx").empty()) {
LYXERR(Debug::FILES, msg << " yes");
system_dir = addPath(FileName(dir).realPath(), "");
return true;
}
}
LYXERR(Debug::FILES, msg << " no");
system_dir = string();
return false;
}
} // namespace
class BufferParams::Impl
{
public:
Impl();
AuthorList authorlist;
BranchList branchlist;
WordLangTable spellignore;
Bullet temp_bullets[4];
Bullet user_defined_bullets[4];
IndicesList indiceslist;
Spacing spacing;
Length parindent;
Length mathindent;
/** This is the amount of space used for paragraph_separation "skip",
* and for detached paragraphs in "indented" documents.
*/
VSpace defskip;
PDFOptions pdfoptions;
LayoutFileIndex baseClass_;
FormatList exportableFormatList;
FormatList viewableFormatList;
bool isViewCacheValid;
bool isExportCacheValid;
};
BufferParams::Impl::Impl()
: defskip(VSpace::MEDSKIP), baseClass_(string("")),
isViewCacheValid(false), isExportCacheValid(false)
{
// set initial author
// FIXME UNICODE
authorlist.record(Author(from_utf8(lyxrc.user_name),
from_utf8(lyxrc.user_email),
from_utf8(lyxrc.user_initials)));
// set comparison author
authorlist.record(Author(from_utf8("Document Comparison"),
docstring(), docstring()));
}
BufferParams::Impl *
BufferParams::MemoryTraits::clone(BufferParams::Impl const * ptr)
{
LBUFERR(ptr);
return new BufferParams::Impl(*ptr);
}
void BufferParams::MemoryTraits::destroy(BufferParams::Impl * ptr)
{
delete ptr;
}
BufferParams::BufferParams()
: pimpl_(new Impl)
{
setBaseClass(defaultBaseclass());
cite_engine_ = "basic";
cite_engine_type_ = ENGINE_TYPE_DEFAULT;
makeDocumentClass();
paragraph_separation = ParagraphIndentSeparation;
is_math_indent = false;
math_numbering_side = DEFAULT;
quotes_style = QuoteStyle::English;
dynamic_quotes = false;
fontsize = "default";
/* PaperLayout */
papersize = PAPER_DEFAULT;
orientation = ORIENTATION_PORTRAIT;
use_geometry = false;
biblio_style = string();
use_bibtopic = false;
multibib = string();
use_indices = false;
save_transient_properties = true;
track_changes = false;
output_changes = false;
change_bars = false;
postpone_fragile_content = true;
use_default_options = true;
maintain_unincluded_children = CM_None;
secnumdepth = 3;
tocdepth = 3;
language = default_language;
fontenc = "auto";
fonts_roman[0] = "default";
fonts_roman[1] = "default";
fonts_sans[0] = "default";
fonts_sans[1] = "default";
fonts_typewriter[0] = "default";
fonts_typewriter[1] = "default";
fonts_math[0] = "auto";
fonts_math[1] = "auto";
fonts_default_family = "default";
useNonTeXFonts = false;
use_microtype = false;
use_dash_ligatures = true;
fonts_expert_sc = false;
fonts_roman_osf = false;
fonts_sans_osf = false;
fonts_typewriter_osf = false;
fonts_sans_scale[0] = 100;
fonts_sans_scale[1] = 100;
fonts_typewriter_scale[0] = 100;
fonts_typewriter_scale[1] = 100;
inputenc = "utf8";
lang_package = "default";
graphics_driver = "default";
default_output_format = "default";
bibtex_command = "default";
index_command = "default";
sides = OneSide;
columns = 1;
listings_params = string();
pagestyle = "default";
tablestyle = "default";
float_alignment = "class";
float_placement = "class";
suppress_date = false;
justification = true;
// no color is the default (white)
backgroundcolor = lyx::rgbFromHexName("#ffffff");
isbackgroundcolor = false;
// no color is the default (black)
fontcolor = lyx::rgbFromHexName("#000000");
isfontcolor = false;
// light gray is the default font color for greyed-out notes
notefontcolor = lyx::rgbFromHexName("#cccccc");
isnotefontcolor = false;
boxbgcolor = lyx::rgbFromHexName("#ff0000");
isboxbgcolor = false;
compressed = lyxrc.save_compressed;
for (int iter = 0; iter < 4; ++iter) {
user_defined_bullet(iter) = ITEMIZE_DEFAULTS[iter];
temp_bullet(iter) = ITEMIZE_DEFAULTS[iter];
}
// default index
indiceslist().addDefault(B_("Index"));
html_be_strict = false;
html_math_output = MathML;
html_math_img_scale = 1.0;
html_css_as_file = false;
docbook_table_output = HTMLTable;
docbook_mathml_prefix = MPrefix;
display_pixel_ratio = 1.0;
shell_escape = false;
output_sync = false;
use_refstyle = true;
use_formatted_ref = false;
use_minted = false;
use_lineno = false;
// map current author
author_map_[pimpl_->authorlist.get(0).bufferId()] = 0;
}
docstring BufferParams::B_(string const & l10n) const
{
LASSERT(language, return from_utf8(l10n));
return getMessages(language->code()).get(l10n);
}
BufferParams::Package BufferParams::use_package(std::string const & p) const
{
PackageMap::const_iterator it = use_packages.find(p);
if (it == use_packages.end())
return package_auto;
return it->second;
}
void BufferParams::use_package(std::string const & p, BufferParams::Package u)
{
use_packages[p] = u;
}
map<string, string> const & BufferParams::auto_packages()
{
static map<string, string> packages;
if (packages.empty()) {
// We could have a race condition here that two threads
// discover an empty map at the same time and want to fill
// it, but that is no problem, since the same contents is
// filled in twice then. Having the locker inside the
// packages.empty() condition has the advantage that we
// don't need the mutex overhead for simple reading.
static Mutex mutex;
Mutex::Locker locker(&mutex);
// adding a package here implies a file format change!
packages["amsmath"] =
N_("The LaTeX package amsmath is only used if AMS formula types or symbols from the AMS math toolbars are inserted into formulas");
packages["amssymb"] =
N_("The LaTeX package amssymb is only used if symbols from the AMS math toolbars are inserted into formulas");
packages["cancel"] =
N_("The LaTeX package cancel is only used if \\cancel commands are used in formulas");
packages["esint"] =
N_("The LaTeX package esint is only used if special integral symbols are inserted into formulas");
packages["mathdots"] =
N_("The LaTeX package mathdots is only used if the command \\iddots is inserted into formulas");
packages["mathtools"] =
N_("The LaTeX package mathtools is only used if some mathematical relations are inserted into formulas");
packages["mhchem"] =
N_("The LaTeX package mhchem is only used if either the command \\ce or \\cf is inserted into formulas");
packages["stackrel"] =
N_("The LaTeX package stackrel is only used if the command \\stackrel with subscript is inserted into formulas");
packages["stmaryrd"] =
N_("The LaTeX package stmaryrd is only used if symbols from the St Mary's Road symbol font for theoretical computer science are inserted into formulas");
packages["undertilde"] =
N_("The LaTeX package undertilde is only used if you use the math frame decoration 'utilde'");
}
return packages;
}
bool BufferParams::useBibtopic() const
{
if (useBiblatex())
return false;
return (use_bibtopic || (!multibib.empty() && multibib != "child"));
}
AuthorList & BufferParams::authors()
{
return pimpl_->authorlist;
}
AuthorList const & BufferParams::authors() const
{
return pimpl_->authorlist;
}
void BufferParams::addAuthor(Author const & a)
{
author_map_[a.bufferId()] = pimpl_->authorlist.record(a);
}
BranchList & BufferParams::branchlist()
{
return pimpl_->branchlist;
}
BranchList const & BufferParams::branchlist() const
{
return pimpl_->branchlist;
}
IndicesList & BufferParams::indiceslist()
{
return pimpl_->indiceslist;
}
IndicesList const & BufferParams::indiceslist() const
{
return pimpl_->indiceslist;
}
WordLangTable & BufferParams::spellignore()
{
return pimpl_->spellignore;
}
WordLangTable const & BufferParams::spellignore() const
{
return pimpl_->spellignore;
}
bool BufferParams::spellignored(WordLangTuple const & wl) const
{
bool has_item = false;
vector<WordLangTuple> il = spellignore();
vector<WordLangTuple>::const_iterator it = il.begin();
for (; it != il.end(); ++it) {
if (it->lang()->code() != wl.lang()->code())
continue;
if (it->word() == wl.word()) {
has_item = true;
break;
}
}
return has_item;
}
Bullet & BufferParams::temp_bullet(lyx::size_type const index)
{
LASSERT(index < 4, return pimpl_->temp_bullets[0]);
return pimpl_->temp_bullets[index];
}
Bullet const & BufferParams::temp_bullet(lyx::size_type const index) const
{
LASSERT(index < 4, return pimpl_->temp_bullets[0]);
return pimpl_->temp_bullets[index];
}
Bullet & BufferParams::user_defined_bullet(lyx::size_type const index)
{
LASSERT(index < 4, return pimpl_->temp_bullets[0]);
return pimpl_->user_defined_bullets[index];
}
Bullet const & BufferParams::user_defined_bullet(lyx::size_type const index) const
{
LASSERT(index < 4, return pimpl_->temp_bullets[0]);
return pimpl_->user_defined_bullets[index];
}
Spacing & BufferParams::spacing()
{
return pimpl_->spacing;
}
Spacing const & BufferParams::spacing() const
{
return pimpl_->spacing;
}
PDFOptions & BufferParams::pdfoptions()
{
return pimpl_->pdfoptions;
}
PDFOptions const & BufferParams::pdfoptions() const
{
return pimpl_->pdfoptions;
}
Length const & BufferParams::getMathIndent() const
{
return pimpl_->mathindent;
}
void BufferParams::setMathIndent(Length const & indent)
{
pimpl_->mathindent = indent;
}
Length const & BufferParams::getParIndent() const
{
return pimpl_->parindent;
}
void BufferParams::setParIndent(Length const & indent)
{
pimpl_->parindent = indent;
}
VSpace const & BufferParams::getDefSkip() const
{
return pimpl_->defskip;
}
void BufferParams::setDefSkip(VSpace const & vs)
{
// DEFSKIP will cause an infinite loop
LASSERT(vs.kind() != VSpace::DEFSKIP, return);
pimpl_->defskip = vs;
}
BufferParams::MathNumber BufferParams::getMathNumber() const
{
if (math_numbering_side != DEFAULT)
return math_numbering_side;
// FIXME: do not hardcode language here
else if (language->lang() == "arabic_arabi"
|| documentClass().provides("leqno"))
return LEFT;
else
return RIGHT;
}
string BufferParams::readToken(Lexer & lex, string const & token,
FileName const & filename)
{
string result;
FileName const & filepath = filename.onlyPath();
if (token == "\\textclass") {
lex.next();
string const classname = lex.getString();
// if there exists a local layout file, ignore the system one
// NOTE: in this case, the textclass (.cls file) is assumed to
// be available.
string tcp;
LayoutFileList & bcl = LayoutFileList::get();
if (!filepath.empty()) {
// If classname is an absolute path, the document is
// using a local layout file which could not be accessed
// by a relative path. In this case the path is correct
// even if the document was moved to a different
// location. However, we will have a problem if the
// document was generated on a different platform.
bool isabsolute = FileName::isAbsolute(classname);
string const classpath = onlyPath(classname);
string const path = isabsolute ? classpath
: FileName(addPath(filepath.absFileName(),
classpath)).realPath();
string const oldpath = isabsolute ? string()
: FileName(addPath(origin, classpath)).realPath();
tcp = bcl.addLocalLayout(onlyFileName(classname), path, oldpath);
}
// that returns non-empty if a "local" layout file is found.
if (!tcp.empty()) {
result = to_utf8(makeRelPath(from_utf8(onlyPath(tcp)),
from_utf8(filepath.absFileName())));
if (result.empty())
result = ".";
setBaseClass(onlyFileName(tcp));
} else
setBaseClass(onlyFileName(classname));
// We assume that a tex class exists for local or unknown
// layouts so this warning, will only be given for system layouts.
if (!baseClass()->isTeXClassAvailable()) {
docstring const desc =
translateIfPossible(from_utf8(baseClass()->description()));
docstring const prereqs =
from_utf8(baseClass()->prerequisites());
docstring const msg =
bformat(_("The selected document class\n"
"\t%1$s\n"
"requires external files that are not available.\n"
"The document class can still be used, but the\n"
"document cannot be compiled until the following\n"
"prerequisites are installed:\n"
"\t%2$s\n"
"See section 3.1.2.2 (Class Availability) of the\n"
"User's Guide for more information."), desc, prereqs);
frontend::Alert::warning(_("Document class not available"),
msg, true);
}
} else if (token == "\\save_transient_properties") {
lex >> save_transient_properties;
} else if (token == "\\origin") {
lex.eatLine();
origin = lex.getString();
string const sysdirprefix = "/systemlyxdir/";
if (prefixIs(origin, sysdirprefix)) {
string docsys;
if (inSystemDir(filepath, docsys))
origin.replace(0, sysdirprefix.length() - 1, docsys);
else
origin.replace(0, sysdirprefix.length() - 1,
package().system_support().absFileName());
}
} else if (token == "\\begin_metadata") {
readDocumentMetadata(lex);
} else if (token == "\\begin_preamble") {
readPreamble(lex);
} else if (token == "\\begin_local_layout") {
readLocalLayout(lex, false);
} else if (token == "\\begin_forced_local_layout") {
readLocalLayout(lex, true);
} else if (token == "\\begin_modules") {
readModules(lex);
} else if (token == "\\begin_removed_modules") {
readRemovedModules(lex);
} else if (token == "\\begin_includeonly") {
readIncludeonly(lex);
} else if (token == "\\maintain_unincluded_children") {
string tmp;
lex >> tmp;
if (tmp == "no")
maintain_unincluded_children = CM_None;
else if (tmp == "mostly")
maintain_unincluded_children = CM_Mostly;
else if (tmp == "strict")
maintain_unincluded_children = CM_Strict;
} else if (token == "\\options") {
lex.eatLine();
options = lex.getString();
} else if (token == "\\use_default_options") {
lex >> use_default_options;
} else if (token == "\\master") {
lex.eatLine();
master = lex.getString();
if (!filepath.empty() && FileName::isAbsolute(origin)) {
bool const isabs = FileName::isAbsolute(master);
FileName const abspath(isabs ? master : origin + master);
bool const moved = filepath != FileName(origin);
if (moved && abspath.exists()) {
docstring const path = isabs
? from_utf8(master)
: from_utf8(abspath.realPath());
docstring const refpath =
from_utf8(filepath.absFileName());
master = to_utf8(makeRelPath(path, refpath));
}
}
} else if (token == "\\suppress_date") {
lex >> suppress_date;
} else if (token == "\\justification") {
lex >> justification;
} else if (token == "\\language") {
readLanguage(lex);
} else if (token == "\\language_package") {
lex.eatLine();
lang_package = lex.getString();
} else if (token == "\\inputencoding") {
lex >> inputenc;
} else if (token == "\\graphics") {
readGraphicsDriver(lex);
} else if (token == "\\default_output_format") {
lex >> default_output_format;
} else if (token == "\\bibtex_command") {
lex.eatLine();
bibtex_command = lex.getString();
} else if (token == "\\index_command") {
lex.eatLine();
index_command = lex.getString();
} else if (token == "\\fontencoding") {
lex.eatLine();
fontenc = lex.getString();
} else if (token == "\\font_roman") {
lex >> fonts_roman[0];
lex >> fonts_roman[1];
} else if (token == "\\font_sans") {
lex >> fonts_sans[0];
lex >> fonts_sans[1];
} else if (token == "\\font_typewriter") {
lex >> fonts_typewriter[0];
lex >> fonts_typewriter[1];
} else if (token == "\\font_math") {
lex >> fonts_math[0];
lex >> fonts_math[1];
} else if (token == "\\font_default_family") {
lex >> fonts_default_family;
} else if (token == "\\use_non_tex_fonts") {
lex >> useNonTeXFonts;
} else if (token == "\\font_sc") {
lex >> fonts_expert_sc;
} else if (token == "\\font_roman_osf") {
lex >> fonts_roman_osf;
} else if (token == "\\font_sans_osf") {
lex >> fonts_sans_osf;
} else if (token == "\\font_typewriter_osf") {
lex >> fonts_typewriter_osf;
} else if (token == "\\font_roman_opts") {
lex >> font_roman_opts;
} else if (token == "\\font_sf_scale") {
lex >> fonts_sans_scale[0];
lex >> fonts_sans_scale[1];
} else if (token == "\\font_sans_opts") {
lex >> font_sans_opts;
} else if (token == "\\font_tt_scale") {
lex >> fonts_typewriter_scale[0];
lex >> fonts_typewriter_scale[1];
} else if (token == "\\font_typewriter_opts") {
lex >> font_typewriter_opts;
} else if (token == "\\font_cjk") {
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;
paragraph_separation = parseptranslator().find(parsep);
} else if (token == "\\paragraph_indentation") {
lex.next();
string parindent = lex.getString();
if (parindent == "default")
pimpl_->parindent = Length();
else
pimpl_->parindent = Length(parindent);
} else if (token == "\\defskip") {
lex.next();
string const defskip = lex.getString();
pimpl_->defskip = VSpace(defskip);
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 mathindent = lex.getString();
if (mathindent == "default")
pimpl_->mathindent = Length();
else
pimpl_->mathindent = Length(mathindent);
} else if (token == "\\math_numbering_side") {
string tmp;
lex >> tmp;
if (tmp == "left")
math_numbering_side = LEFT;
else if (tmp == "right")
math_numbering_side = RIGHT;
else
math_numbering_side = DEFAULT;
} else if (token == "\\quotes_style") {
string qstyle;
lex >> qstyle;
quotes_style = quotesstyletranslator().find(qstyle);
} else if (token == "\\dynamic_quotes") {
lex >> dynamic_quotes;
} else if (token == "\\papersize") {
string ppsize;
lex >> ppsize;
papersize = papersizetranslator().find(ppsize);
} else if (token == "\\use_geometry") {
lex >> use_geometry;
} else if (token == "\\use_package") {
string package;
int use;
lex >> package;
lex >> use;
use_package(package, packagetranslator().find(use));
} else if (token == "\\cite_engine") {
lex.eatLine();
cite_engine_ = lex.getString();
} else if (token == "\\cite_engine_type") {
string engine_type;
lex >> engine_type;
cite_engine_type_ = theCiteEnginesList.getType(engine_type);
} 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") {
lex >> track_changes;
} else if (token == "\\output_changes") {
lex >> output_changes;
} else if (token == "\\change_bars") {
lex >> change_bars;
} else if (token == "\\postpone_fragile_content") {
lex >> postpone_fragile_content;
} else if (token == "\\branch") {
lex.eatLine();
docstring branch = lex.getDocString();
branchlist().add(branch);
while (true) {
lex.next();
string const tok = lex.getString();
if (tok == "\\end_branch")
break;
Branch * branch_ptr = branchlist().find(branch);
if (tok == "\\selected") {
lex.next();
if (branch_ptr)
branch_ptr->setSelected(lex.getInteger());
}
if (tok == "\\filename_suffix") {
lex.next();
if (branch_ptr)
branch_ptr->setFileNameSuffix(lex.getInteger());
}
if (tok == "\\color") {
lex.eatLine();
vector<string> const colors = getVectorFromString(lex.getString(), " ");
string const lmcolor = colors.front();
string dmcolor;
if (colors.size() > 1)
dmcolor = colors.back();
if (branch_ptr)
branch_ptr->setColors(lmcolor, dmcolor);
}
}
} else if (token == "\\index") {
lex.eatLine();
docstring index = lex.getDocString();
docstring shortcut;
indiceslist().add(index);
while (true) {
lex.next();
string const tok = lex.getString();
if (tok == "\\end_index")
break;
Index * index_ptr = indiceslist().find(index);
if (tok == "\\shortcut") {
lex.next();
shortcut = lex.getDocString();
if (index_ptr)
index_ptr->setShortcut(shortcut);
}
if (tok == "\\color") {
lex.eatLine();
string color = lex.getString();
if (index_ptr)
index_ptr->setColor(color);
// Update also the Color table:
if (color == "none")
color = lcolor.getX11HexName(Color_background);
// FIXME UNICODE
if (!shortcut.empty())
lcolor.setColor(to_utf8(shortcut)+ "@" + filename.absFileName(), color);
}
}
} else if (token == "\\spellchecker_ignore") {
lex.eatLine();
docstring wl = lex.getDocString();
docstring language;
docstring word = split(wl, language, ' ');
Language const * lang = languages.getLanguage(to_ascii(language));
if (lang)
spellignore().push_back(WordLangTuple(word, lang));
} else if (token == "\\author") {
lex.eatLine();
istringstream ss(lex.getString());
Author a;
ss >> a;
addAuthor(a);
} else if (token == "\\paperorientation") {
string orient;
lex >> orient;
orientation = paperorientationtranslator().find(orient);
} else if (token == "\\backgroundcolor") {
lex.eatLine();
backgroundcolor = lyx::rgbFromHexName(lex.getString());
isbackgroundcolor = true;
} else if (token == "\\fontcolor") {
lex.eatLine();
fontcolor = lyx::rgbFromHexName(lex.getString());
isfontcolor = true;
} else if (token == "\\notefontcolor") {
lex.eatLine();
string color = lex.getString();
notefontcolor = lyx::rgbFromHexName(color);
lcolor.setColor("notefontcolor", color);
lcolor.setLaTeXName("notefontcolor", "note_fontcolor");
lcolor.setGUIName("notefontcolor", N_("greyedout inset text"));
// set a local name for the painter
lcolor.setColor("notefontcolor@" + filename.absFileName(), color);
isnotefontcolor = true;
} else if (token == "\\boxbgcolor") {
lex.eatLine();
string color = lex.getString();
boxbgcolor = lyx::rgbFromHexName(color);
lcolor.setColor("boxbgcolor@" + filename.absFileName(), color);
isboxbgcolor = true;
} else if (token == "\\paperwidth") {
lex >> paperwidth;
} else if (token == "\\paperheight") {
lex >> paperheight;
} else if (token == "\\leftmargin") {
lex >> leftmargin;
} else if (token == "\\topmargin") {
lex >> topmargin;
} else if (token == "\\rightmargin") {
lex >> rightmargin;
} else if (token == "\\bottommargin") {
lex >> bottommargin;
} else if (token == "\\headheight") {
lex >> headheight;
} else if (token == "\\headsep") {
lex >> headsep;
} else if (token == "\\footskip") {
lex >> footskip;
} else if (token == "\\columnsep") {
lex >> columnsep;
} else if (token == "\\paperfontsize") {
lex >> fontsize;
} else if (token == "\\papercolumns") {
lex >> columns;
} else if (token == "\\listings_params") {
string par;
lex >> par;
listings_params = InsetListingsParams(par).params();
} else if (token == "\\papersides") {
int psides;
lex >> psides;
sides = sidestranslator().find(psides);
} else if (token == "\\paperpagestyle") {
lex >> pagestyle;
} else if (token == "\\tablestyle") {
lex >> tablestyle;
} else if (token == "\\bullet") {
readBullets(lex);
} else if (token == "\\bulletLaTeX") {
readBulletsLaTeX(lex);
} else if (token == "\\secnumdepth") {
lex >> secnumdepth;
} else if (token == "\\tocdepth") {
lex >> tocdepth;
} else if (token == "\\spacing") {
string nspacing;
lex >> nspacing;
string tmp_val;
if (nspacing == "other") {
lex >> tmp_val;
}
spacing().set(spacetranslator().find(nspacing), tmp_val);
} else if (token == "\\float_placement") {
lex >> float_placement;
} else if (token == "\\float_alignment") {
lex >> float_alignment;
} else if (prefixIs(token, "\\pdf_") || token == "\\use_hyperref") {
string toktmp = pdfoptions().readToken(lex, token);
if (!toktmp.empty()) {
lyxerr << "PDFOptions::readToken(): Unknown token: " <<
toktmp << endl;
return toktmp;
}
} else if (token == "\\html_math_output") {
int temp;
lex >> temp;
html_math_output = static_cast<MathOutput>(temp);
} else if (token == "\\html_be_strict") {
lex >> html_be_strict;
} else if (token == "\\html_css_as_file") {
lex >> html_css_as_file;
} else if (token == "\\html_math_img_scale") {
lex >> html_math_img_scale;
} else if (token == "\\html_latex_start") {
lex.eatLine();
html_latex_start = lex.getString();
} else if (token == "\\html_latex_end") {
lex.eatLine();
html_latex_end = lex.getString();
} else if (token == "\\docbook_table_output") {
int temp;
lex >> temp;
docbook_table_output = static_cast<TableOutput>(temp);
} else if (token == "\\docbook_mathml_prefix") {
int temp;
lex >> temp;
docbook_mathml_prefix = static_cast<MathMLNameSpacePrefix>(temp);
} else if (token == "\\output_sync") {
lex >> output_sync;
} else if (token == "\\output_sync_macro") {
lex >> output_sync_macro;
} else if (token == "\\use_refstyle") {
lex >> use_refstyle;
} else if (token == "\\use_formatted_ref") {
lex >> use_formatted_ref;
} else if (token == "\\use_minted") {
lex >> use_minted;
} else if (token == "\\use_lineno") {
lex >> use_lineno;
} else if (token == "\\lineno_options") {
lex.eatLine();
lineno_opts = trim(lex.getString());
} else {
lyxerr << "BufferParams::readToken(): Unknown token: " <<
token << endl;
return token;
}
return result;
}
namespace {
// Quote argument if it contains spaces
string quoteIfNeeded(string const & str) {
if (contains(str, ' '))
return "\"" + str + "\"";
return str;
}
} // namespace
void BufferParams::writeFile(ostream & os, Buffer const * buf) const
{
// The top of the file is written by the buffer.
// Prints out the buffer info into the .lyx file given by file
os << "\\save_transient_properties "
<< convert<string>(save_transient_properties) << '\n';
// the document directory (must end with a path separator)
// realPath() is used to resolve symlinks, while addPath(..., "")
// ensures a trailing path separator.
string docsys;
string filepath = addPath(buf->fileName().onlyPath().realPath(), "");
string const sysdir = inSystemDir(FileName(filepath), docsys) ? docsys
: addPath(package().system_support().realPath(), "");
string const relpath =
to_utf8(makeRelPath(from_utf8(filepath), from_utf8(sysdir)));
if (!prefixIs(relpath, "../") && !FileName::isAbsolute(relpath))
filepath = addPath("/systemlyxdir", relpath);
else if (!save_transient_properties || !lyxrc.save_origin)
filepath = "unavailable";
os << "\\origin " << quoteIfNeeded(filepath) << '\n';
// the textclass
os << "\\textclass "
<< quoteIfNeeded(buf->includedFilePath(addName(buf->layoutPos(),
baseClass()->name()), "layout"))
<< '\n';
// then document metadata
if (!document_metadata.empty()) {
// remove '\n' from the end of document_metadata
docstring const tmpmd = rtrim(document_metadata, "\n");
os << "\\begin_metadata\n"
<< to_utf8(tmpmd)
<< "\n\\end_metadata\n";
}
// then the preamble
if (!preamble.empty()) {
// remove '\n' from the end of preamble
docstring const tmppreamble = rtrim(preamble, "\n");
os << "\\begin_preamble\n"
<< to_utf8(tmppreamble)
<< "\n\\end_preamble\n";
}
// the options
if (!options.empty()) {
os << "\\options " << options << '\n';
}
// use the class options defined in the layout?
os << "\\use_default_options "
<< convert<string>(use_default_options) << "\n";
// the master document
if (!master.empty()) {
os << "\\master " << master << '\n';
}
// removed modules
if (!removed_modules_.empty()) {
os << "\\begin_removed_modules" << '\n';
for (auto const & mod : removed_modules_)
os << mod << '\n';
os << "\\end_removed_modules" << '\n';
}
// the modules
if (!layout_modules_.empty()) {
os << "\\begin_modules" << '\n';
for (auto const & mod : layout_modules_)
os << mod << '\n';
os << "\\end_modules" << '\n';
}
// includeonly
if (!included_children_.empty()) {
os << "\\begin_includeonly" << '\n';
for (auto const & c : included_children_)
os << c << '\n';
os << "\\end_includeonly" << '\n';
}
string muc = "no";
switch (maintain_unincluded_children) {
case CM_Mostly:
muc = "mostly";
break;
case CM_Strict:
muc = "strict";
break;
case CM_None:
default:
break;
}
os << "\\maintain_unincluded_children " << muc << '\n';
// local layout information
docstring const local_layout = getLocalLayout(false);
if (!local_layout.empty()) {
// remove '\n' from the end
docstring const tmplocal = rtrim(local_layout, "\n");
os << "\\begin_local_layout\n"
<< to_utf8(tmplocal)
<< "\n\\end_local_layout\n";
}
docstring const forced_local_layout = getLocalLayout(true);
if (!forced_local_layout.empty()) {
// remove '\n' from the end
docstring const tmplocal = rtrim(forced_local_layout, "\n");
os << "\\begin_forced_local_layout\n"
<< to_utf8(tmplocal)
<< "\n\\end_forced_local_layout\n";
}
// then the text parameters
if (language != ignore_language)
os << "\\language " << language->lang() << '\n';
os << "\\language_package " << lang_package
<< "\n\\inputencoding " << inputenc
<< "\n\\fontencoding " << fontenc
<< "\n\\font_roman \"" << fonts_roman[0]
<< "\" \"" << fonts_roman[1] << '"'
<< "\n\\font_sans \"" << fonts_sans[0]
<< "\" \"" << fonts_sans[1] << '"'
<< "\n\\font_typewriter \"" << fonts_typewriter[0]
<< "\" \"" << fonts_typewriter[1] << '"'
<< "\n\\font_math \"" << fonts_math[0]
<< "\" \"" << fonts_math[1] << '"'
<< "\n\\font_default_family " << fonts_default_family
<< "\n\\use_non_tex_fonts " << convert<string>(useNonTeXFonts)
<< "\n\\font_sc " << convert<string>(fonts_expert_sc)
<< "\n\\font_roman_osf " << convert<string>(fonts_roman_osf)
<< "\n\\font_sans_osf " << convert<string>(fonts_sans_osf)
<< "\n\\font_typewriter_osf " << convert<string>(fonts_typewriter_osf);
if (!font_roman_opts.empty())
os << "\n\\font_roman_opts \"" << font_roman_opts << "\"";
os << "\n\\font_sf_scale " << fonts_sans_scale[0]
<< ' ' << fonts_sans_scale[1];
if (!font_sans_opts.empty())
os << "\n\\font_sans_opts \"" << font_sans_opts << "\"";
os << "\n\\font_tt_scale " << fonts_typewriter_scale[0]
<< ' ' << fonts_typewriter_scale[1];
if (!font_typewriter_opts.empty())
os << "\n\\font_typewriter_opts \"" << font_typewriter_opts << "\"";
os << '\n';
if (!fonts_cjk.empty())
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';
if (!output_sync_macro.empty())
os << "\\output_sync_macro \"" << output_sync_macro << "\"\n";
os << "\\bibtex_command " << bibtex_command << '\n';
os << "\\index_command " << index_command << '\n';
if (!float_placement.empty())
os << "\\float_placement " << float_placement << '\n';
if (!float_alignment.empty())
os << "\\float_alignment " << float_alignment << '\n';
os << "\\paperfontsize " << fontsize << '\n';
spacing().writeFile(os);
pdfoptions().writeFile(os);
os << "\\papersize " << string_papersize[papersize]
<< "\n\\use_geometry " << convert<string>(use_geometry);
map<string, string> const & packages = auto_packages();
for (auto const & pack : packages)
os << "\n\\use_package " << pack.first << ' '
<< use_package(pack.first);
os << "\n\\cite_engine ";
if (!cite_engine_.empty())
os << cite_engine_;
else
os << "basic";
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)
<< "\n\\justification " << convert<string>(justification)
<< "\n\\use_refstyle " << use_refstyle
<< "\n\\use_formatted_ref " << use_formatted_ref
<< "\n\\use_minted " << use_minted
<< "\n\\use_lineno " << use_lineno
<< '\n';
if (!lineno_opts.empty())
os << "\\lineno_options " << lineno_opts << '\n';
if (isbackgroundcolor)
os << "\\backgroundcolor " << lyx::X11hexname(backgroundcolor) << '\n';
if (isfontcolor)
os << "\\fontcolor " << lyx::X11hexname(fontcolor) << '\n';
if (isnotefontcolor)
os << "\\notefontcolor " << lyx::X11hexname(notefontcolor) << '\n';
if (isboxbgcolor)
os << "\\boxbgcolor " << lyx::X11hexname(boxbgcolor) << '\n';
for (auto const & br : branchlist()) {
os << "\\branch " << to_utf8(br.branch())
<< "\n\\selected " << br.isSelected()
<< "\n\\filename_suffix " << br.hasFileNameSuffix()
<< "\n\\color " << br.lightModeColor() << " " << br.darkModeColor()
<< "\n\\end_branch"
<< "\n";
}
for (auto const & id : indiceslist()) {
os << "\\index " << to_utf8(id.index())
<< "\n\\shortcut " << to_utf8(id.shortcut())
<< "\n\\color " << lyx::X11hexname(id.color())
<< "\n\\end_index"
<< "\n";
}
for (auto const & si : spellignore()) {
os << "\\spellchecker_ignore " << si.lang()->lang()
<< " " << to_utf8(si.word())
<< "\n";
}
if (!paperwidth.empty())
os << "\\paperwidth "
<< VSpace(paperwidth).asLyXCommand() << '\n';
if (!paperheight.empty())
os << "\\paperheight "
<< VSpace(paperheight).asLyXCommand() << '\n';
if (!leftmargin.empty())
os << "\\leftmargin "
<< VSpace(leftmargin).asLyXCommand() << '\n';
if (!topmargin.empty())
os << "\\topmargin "
<< VSpace(topmargin).asLyXCommand() << '\n';
if (!rightmargin.empty())
os << "\\rightmargin "
<< VSpace(rightmargin).asLyXCommand() << '\n';
if (!bottommargin.empty())
os << "\\bottommargin "
<< VSpace(bottommargin).asLyXCommand() << '\n';
if (!headheight.empty())
os << "\\headheight "
<< VSpace(headheight).asLyXCommand() << '\n';
if (!headsep.empty())
os << "\\headsep "
<< VSpace(headsep).asLyXCommand() << '\n';
if (!footskip.empty())
os << "\\footskip "
<< VSpace(footskip).asLyXCommand() << '\n';
if (!columnsep.empty())
os << "\\columnsep "
<< VSpace(columnsep).asLyXCommand() << '\n';
os << "\\secnumdepth " << secnumdepth
<< "\n\\tocdepth " << tocdepth
<< "\n\\paragraph_separation "
<< string_paragraph_separation[paragraph_separation];
if (!paragraph_separation)
os << "\n\\paragraph_indentation "
<< (getParIndent().empty() ? "default" : getParIndent().asString());
else
os << "\n\\defskip " << getDefSkip().asLyXCommand();
os << "\n\\is_math_indent " << is_math_indent;
if (is_math_indent)
os << "\n\\math_indentation "
<< (getMathIndent().empty() ? "default" : getMathIndent().asString());
os << "\n\\math_numbering_side ";
switch(math_numbering_side) {
case LEFT:
os << "left";
break;
case RIGHT:
os << "right";
break;
case DEFAULT:
os << "default";
}
os << "\n\\quotes_style "
<< string_quotes_style[static_cast<int>(quotes_style)]
<< "\n\\dynamic_quotes " << dynamic_quotes
<< "\n\\papercolumns " << columns
<< "\n\\papersides " << sides
<< "\n\\paperpagestyle " << pagestyle
<< "\n\\tablestyle " << tablestyle << '\n';
if (!listings_params.empty())
os << "\\listings_params \"" <<
InsetListingsParams(listings_params).encodedString() << "\"\n";
for (int i = 0; i < 4; ++i) {
if (user_defined_bullet(i) != ITEMIZE_DEFAULTS[i]) {
if (user_defined_bullet(i).getFont() != -1) {
os << "\\bullet " << i << " "
<< user_defined_bullet(i).getFont() << " "
<< user_defined_bullet(i).getCharacter() << " "
<< user_defined_bullet(i).getSize() << "\n";
}
else {
// FIXME UNICODE
os << "\\bulletLaTeX " << i << " \""
<< lyx::to_ascii(user_defined_bullet(i).getText())
<< "\"\n";
}
}
}
os << "\\tracking_changes "
<< (save_transient_properties ? convert<string>(track_changes) : "false")
<< '\n';
os << "\\output_changes "
<< (save_transient_properties ? convert<string>(output_changes) : "false")
<< '\n';
os << "\\change_bars "
<< (save_transient_properties ? convert<string>(change_bars) : "false")
<< '\n';
os << "\\postpone_fragile_content " << convert<string>(postpone_fragile_content) << '\n';
os << "\\html_math_output " << html_math_output << '\n'
<< "\\html_css_as_file " << html_css_as_file << '\n'
<< "\\html_be_strict " << convert<string>(html_be_strict) << '\n';
os << "\\docbook_table_output " << docbook_table_output << '\n';
os << "\\docbook_mathml_prefix " << docbook_mathml_prefix << '\n';
if (html_math_img_scale != 1.0)
os << "\\html_math_img_scale " << convert<string>(html_math_img_scale) << '\n';
if (!html_latex_start.empty())
os << "\\html_latex_start " << html_latex_start << '\n';
if (!html_latex_end.empty())
os << "\\html_latex_end " << html_latex_end << '\n';
os << pimpl_->authorlist;
}
void BufferParams::validate(LaTeXFeatures & features) const
{
features.require(documentClass().required());
if (columns > 1 && language->rightToLeft()
&& !features.runparams().isFullUnicode())
features.require("rtloutputdblcol");
if (output_changes) {
bool xcolorulem = LaTeXFeatures::isAvailable("ulem") &&
LaTeXFeatures::isAvailable("xcolor");
switch (features.runparams().flavor) {
case Flavor::LaTeX:
case Flavor::DviLuaTeX:
if (xcolorulem) {
features.require("ct-xcolor-ulem");
features.require("ulem");
features.require("xcolor");
} else {
features.require("ct-none");
}
break;
case Flavor::LuaTeX:
case Flavor::PdfLaTeX:
case Flavor::XeTeX:
if (xcolorulem) {
features.require("ct-xcolor-ulem");
features.require("ulem");
features.require("xcolor");
// improves color handling in PDF output
} else {
features.require("ct-none");
}
break;
default:
break;
}
if (change_bars)
features.require("changebar");
}
// Floats with 'Here definitely' as default setting.
if (float_placement.find('H') != string::npos)
features.require("float");
for (auto const & pm : use_packages) {
if (pm.first == "amsmath") {
// AMS Style is at document level
if (pm.second == package_on ||
features.isProvided("amsmath"))
features.require(pm.first);
} else if (pm.second == package_on)
features.require(pm.first);
}
// Document-level line spacing
if (spacing().getSpace() != Spacing::Single && !spacing().isDefault())
features.require("setspace");
// the bullet shapes are buffer level not paragraph level
// so they are tested here
for (int i = 0; i < 4; ++i) {
if (user_defined_bullet(i) == ITEMIZE_DEFAULTS[i])
continue;
int const font = user_defined_bullet(i).getFont();
if (font == 0) {
int const c = user_defined_bullet(i).getCharacter();
if (c == 16
|| c == 17
|| c == 25
|| c == 26
|| c == 31) {
features.require("latexsym");
}
} else if (font == 1) {
features.require("amssymb");
} else if (font >= 2 && font <= 5) {
features.require("pifont");
}
}
if (pdfoptions().use_hyperref) {
features.require("hyperref");
// due to interferences with babel and hyperref, the color package has to
// be loaded after hyperref when hyperref is used with the colorlinks
// option, see http://www.lyx.org/trac/ticket/5291
if (pdfoptions().colorlinks)
features.require("color");
}
if (!listings_params.empty()) {
// do not test validity because listings_params is
// supposed to be valid
string par =
InsetListingsParams(listings_params).separatedParams(true);
// we can't support all packages, but we should load the color package
if (par.find("\\color", 0) != string::npos)
features.require("color");
}
// some languages are only available via polyglossia
if (features.hasPolyglossiaExclusiveLanguages())
features.require("polyglossia");
if (useNonTeXFonts && fontsMath() != "auto")
features.require("unicode-math");
if (use_microtype)
features.require("microtype");
if (!language->required().empty())
features.require(language->required());
}
bool BufferParams::writeLaTeX(otexstream & os, LaTeXFeatures & features,
FileName const & filepath) const
{
// DocumentMetadata must come before anything else
if (features.isAvailableAtLeastFrom("LaTeX", 2022, 6)
&& !containsOnly(document_metadata, " \n\t")) {
// Check if the user preamble contains uncodable glyphs
odocstringstream doc_metadata;
docstring uncodable_glyphs;
Encoding const * const enc = features.runparams().encoding;
if (enc) {
for (char_type c : document_metadata) {
if (!enc->encodable(c)) {
docstring const glyph(1, c);
LYXERR0("Uncodable character '"
<< glyph
<< "' in document metadata!");
uncodable_glyphs += glyph;
if (features.runparams().dryrun) {
doc_metadata << "<" << _("LyX Warning: ")
<< _("uncodable character") << " '";
doc_metadata.put(c);
doc_metadata << "'>";
}
} else
doc_metadata.put(c);
}
} else
doc_metadata << document_metadata;
// On BUFFER_VIEW|UPDATE, warn user if we found uncodable glyphs
if (!features.runparams().dryrun && !uncodable_glyphs.empty()) {
frontend::Alert::warning(
_("Uncodable character in document metadata"),
support::bformat(
_("The metadata of your document contains glyphs "
"that are unknown in the current document encoding "
"(namely %1$s).\nThese glyphs are omitted "
" from the output, which may result in "
"incomplete output."
"\n\nPlease select an appropriate "
"document encoding\n"
"(such as utf8) or change the "
"metadata accordingly."),
uncodable_glyphs));
}
if (!doc_metadata.str().empty()) {
os << "\\DocumentMetadata{\n"
<< doc_metadata.str()
<< "}\n";
}
}
// http://www.tug.org/texmf-dist/doc/latex/base/fixltx2e.pdf
// !! To use the Fix-cm package, load it before \documentclass, and use the command
// \RequirePackage to do so, rather than the normal \usepackage
// Do not try to load any other package before the document class, unless you
// have a thorough understanding of the LATEX internals and know exactly what you
// are doing!
if (features.mustProvide("fix-cm"))
os << "\\RequirePackage{fix-cm}\n";
// Likewise for fixltx2e. If other packages conflict with this policy,
// treat it as a package bug (and report it!)
// See http://www.latex-project.org/cgi-bin/ltxbugs2html?pr=latex/4407
if (features.mustProvide("fixltx2e"))
os << "\\RequirePackage{fixltx2e}\n";
os << "\\documentclass";
DocumentClass const & tclass = documentClass();
ostringstream clsoptions; // the document class options.
if (tokenPos(tclass.opt_fontsize(),
'|', fontsize) >= 0) {
// only write if existing in list (and not default)
clsoptions << subst(tclass.fontsizeformat(), "$$s", fontsize) << ",";
}
// paper sizes not supported by the class itself need the
// geometry package
vector<string> classpsizes = getVectorFromString(tclass.opt_pagesize(), "|");
bool class_supported_papersize = papersize == PAPER_DEFAULT
|| find(classpsizes.begin(), classpsizes.end(), string_papersize[papersize]) != classpsizes.end();
if ((!use_geometry || features.isProvided("geometry-light"))
&& class_supported_papersize && papersize != PAPER_DEFAULT)
clsoptions << subst(tclass.pagesizeformat(), "$$s", string_papersize[papersize]) << ",";
// if needed
if (sides != tclass.sides()) {
switch (sides) {
case OneSide:
clsoptions << "oneside,";
break;
case TwoSides:
clsoptions << "twoside,";
break;
}
}
// if needed
if (columns != tclass.columns()) {
if (columns == 2)
clsoptions << "twocolumn,";
else
clsoptions << "onecolumn,";
}
if (!use_geometry
&& orientation == ORIENTATION_LANDSCAPE)
clsoptions << "landscape,";
if (is_math_indent)
clsoptions << "fleqn,";
switch(math_numbering_side) {
case LEFT:
clsoptions << "leqno,";
break;
case RIGHT:
clsoptions << "reqno,";
features.require("amsmath");
break;
case DEFAULT:
break;
}
// language should be a parameter to \documentclass
if (language->babel() == "hebrew"
&& default_language->babel() != "hebrew")
// This seems necessary
features.useLanguage(default_language);
ostringstream language_options;
bool const use_babel = features.useBabel() && !features.isProvided("babel");
bool const use_polyglossia = features.usePolyglossia();
bool const global = lyxrc.language_global_options;
if (features.useBabel() || (use_polyglossia && global)) {
language_options << features.getBabelLanguages();
if (!language->babel().empty()) {
if (!language_options.str().empty())
language_options << ',';
language_options << language->babel();
}
if (global && !language_options.str().empty())
clsoptions << language_options.str() << ',';
}
// the predefined options from the layout
if (use_default_options && !tclass.options().empty())
clsoptions << tclass.options() << ',';
// the user-defined options
if (!options.empty()) {
clsoptions << options << ',';
}
docstring const strOptions = from_utf8(clsoptions.str());
if (!strOptions.empty()) {
// Check if class options contain uncodable glyphs
docstring uncodable_glyphs;
docstring options_encodable;
Encoding const * const enc = features.runparams().encoding;
if (enc) {
for (char_type c : strOptions) {
if (!enc->encodable(c)) {
docstring const glyph(1, c);
LYXERR0("Uncodable character '"
<< glyph
<< "' in class options!");
uncodable_glyphs += glyph;
if (features.runparams().dryrun) {
options_encodable += "<" + _("LyX Warning: ")
+ _("uncodable character") + " '";
options_encodable += c;
options_encodable += "'>";
}
} else
options_encodable += c;
}
} else
options_encodable = strOptions;
// On BUFFER_VIEW|UPDATE, warn user if we found uncodable glyphs
if (!features.runparams().dryrun && !uncodable_glyphs.empty()) {
frontend::Alert::warning(
_("Uncodable character in class options"),
support::bformat(
_("The class options of your document contain glyphs "
"that are unknown in the current document encoding "
"(namely %1$s).\nThese glyphs are omitted "
" from the output, which may result in "
"incomplete output."
"\n\nPlease select an appropriate "
"document encoding\n"
"(such as utf8) or change the "
"class options accordingly."),
uncodable_glyphs));
}
options_encodable = rtrim(options_encodable, ",");
os << '[' << options_encodable << ']';
}
os << '{' << from_ascii(tclass.latexname()) << "}\n";
// end of \documentclass defs
// The package options (via \PassOptionsToPackage)
os << from_ascii(features.getPackageOptions());
// if we use fontspec or newtxmath, we have to load the AMS packages here
string const ams = features.loadAMSPackages();
string const main_font_enc = features.runparams().main_fontenc;
bool const ot1 = (main_font_enc == "default" || main_font_enc == "OT1");
bool const use_newtxmath =
theLaTeXFonts().getLaTeXFont(from_ascii(fontsMath())).getUsedPackage(
ot1, false, false) == "newtxmath";
if ((useNonTeXFonts || use_newtxmath) && !ams.empty())
os << from_ascii(ams);
if (useNonTeXFonts) {
// Babel (as of 2017/11/03) loads fontspec itself
// However, it does so only if a non-default font is requested via \babelfont
// Thus load fontspec if this is not the case and we need fontspec features
bool const babel_needfontspec =
!features.isAvailableAtLeastFrom("babel", 2017, 11, 3)
|| (fontsRoman() == "default"
&& fontsSans() == "default"
&& fontsTypewriter() == "default"
// these need fontspec features
&& (features.isRequired("textquotesinglep")
|| features.isRequired("textquotedblp")));
if (!features.isProvided("fontspec")
&& (!features.useBabel() || babel_needfontspec))
os << "\\usepackage{fontspec}\n";
if (features.mustProvide("unicode-math")
&& features.isAvailable("unicode-math"))
os << "\\usepackage{unicode-math}\n";
}
// load CJK support package before font selection
// (see autotests/export/latex/CJK/micro-sign_utf8-cjk-libertine.lyx)
if (!useNonTeXFonts && encoding().package() != Encoding::none && inputenc != "utf8x"
&& (encoding().package() == Encoding::CJK || features.mustProvide("CJK"))) {
if (inputenc == "utf8-cjk" || inputenc == "utf8")
os << "\\usepackage{CJKutf8}\n";
else
os << "\\usepackage[encapsulated]{CJK}\n";
}
// font selection must be done before loading fontenc.sty
// but after babel with non-TeX fonts
string const fonts = loadFonts(features);
if (!fonts.empty() && (!features.useBabel() || !useNonTeXFonts))
os << from_utf8(fonts);
if (fonts_default_family != "default")
os << "\\renewcommand{\\familydefault}{\\"
<< from_ascii(fonts_default_family) << "}\n";
// set font encoding
// non-TeX fonts use font encoding TU (set by fontspec)
if (!useNonTeXFonts && !features.isProvided("fontenc")
&& main_font_enc != "default") {
// get main font encodings
vector<string> fontencs = font_encodings();
// get font encodings of secondary languages
// FIXME: some languages (hebrew, ...) assume a standard font encoding as last
// option (for text in other languages).
features.getFontEncodings(fontencs);
if (!fontencs.empty()) {
os << "\\usepackage["
<< from_ascii(getStringFromVector(fontencs))
<< "]{fontenc}\n";
}
}
// Load textcomp and pmboxdraw before (lua)inputenc (#11454)
if (features.mustProvide("textcomp"))
os << "\\usepackage{textcomp}\n";
if (features.mustProvide("pmboxdraw"))
os << "\\usepackage{pmboxdraw}\n";
// handle inputenc etc.
// (In documents containing text in Thai language,
// we must load inputenc after babel, see lib/languages).
if (!contains(features.getBabelPostsettings(), from_ascii("thai.ldf")))
writeEncodingPreamble(os, features);
// includeonly
if (!features.runparams().includeall && !included_children_.empty()) {
os << "\\includeonly{";
bool first = true;
// we do not use "auto const &" here, because incfile is modified later
// coverity[auto_causes_copy]
for (auto incfile : included_children_) {
FileName inc = makeAbsPath(incfile, filepath.absFileName());
string mangled = DocFileName(changeExtension(inc.absFileName(), ".tex")).
mangledFileName();
if (!features.runparams().nice)
incfile = mangled;
// \includeonly doesn't want an extension
incfile = changeExtension(incfile, string());
incfile = support::latex_path(incfile);
if (!incfile.empty()) {
if (!first)
os << ",";
os << from_utf8(incfile);
}
first = false;
}
os << "}\n";
}
if (!features.isProvided("geometry")
&& (use_geometry || !class_supported_papersize)) {
odocstringstream ods;
if (!getGraphicsDriver("geometry").empty())
ods << getGraphicsDriver("geometry");
if (orientation == ORIENTATION_LANDSCAPE)
ods << ",landscape";
switch (papersize) {
case PAPER_CUSTOM:
if (!paperwidth.empty())
ods << ",paperwidth="
<< from_ascii(paperwidth);
if (!paperheight.empty())
ods << ",paperheight="
<< from_ascii(paperheight);
break;
case PAPER_USLETTER:
case PAPER_USLEGAL:
case PAPER_USEXECUTIVE:
case PAPER_A0:
case PAPER_A1:
case PAPER_A2:
case PAPER_A3:
case PAPER_A4:
case PAPER_A5:
case PAPER_A6:
case PAPER_B0:
case PAPER_B1:
case PAPER_B2:
case PAPER_B3:
case PAPER_B4:
case PAPER_B5:
case PAPER_B6:
case PAPER_C0:
case PAPER_C1:
case PAPER_C2:
case PAPER_C3:
case PAPER_C4:
case PAPER_C5:
case PAPER_C6:
case PAPER_JISB0:
case PAPER_JISB1:
case PAPER_JISB2:
case PAPER_JISB3:
case PAPER_JISB4:
case PAPER_JISB5:
case PAPER_JISB6:
ods << "," << from_ascii(string_papersize_geometry[papersize]);
break;
case PAPER_DEFAULT:
break;
}
docstring g_options = trim(ods.str(), ",");
os << "\\usepackage";
// geometry-light means that the class works with geometry, but overwrites
// the package options and paper sizes (memoir does this).
// In this case, all options need to go to \geometry
// and the standard paper sizes need to go to the class options.
if (!g_options.empty() && !features.isProvided("geometry-light")) {
os << '[' << g_options << ']';
g_options.clear();
}
os << "{geometry}\n";
if (use_geometry || features.isProvided("geometry-light")) {
os << "\\geometry{verbose";
if (!g_options.empty())
// Output general options here with "geometry light".
os << "," << g_options;
// output this only if use_geometry is true
if (use_geometry) {
if (!topmargin.empty())
os << ",tmargin=" << from_ascii(Length(topmargin).asLatexString());
if (!bottommargin.empty())
os << ",bmargin=" << from_ascii(Length(bottommargin).asLatexString());
if (!leftmargin.empty())
os << ",lmargin=" << from_ascii(Length(leftmargin).asLatexString());
if (!rightmargin.empty())
os << ",rmargin=" << from_ascii(Length(rightmargin).asLatexString());
if (!headheight.empty())
os << ",headheight=" << from_ascii(Length(headheight).asLatexString());
if (!headsep.empty())
os << ",headsep=" << from_ascii(Length(headsep).asLatexString());
if (!footskip.empty())
os << ",footskip=" << from_ascii(Length(footskip).asLatexString());
if (!columnsep.empty())
os << ",columnsep=" << from_ascii(Length(columnsep).asLatexString());
}
os << "}\n";
}
} else if (orientation == ORIENTATION_LANDSCAPE
|| papersize != PAPER_DEFAULT) {
features.require("papersize");
}
if (tokenPos(tclass.opt_pagestyle(), '|', pagestyle) >= 0) {
if (pagestyle == "fancy")
os << "\\usepackage{fancyhdr}\n";
os << "\\pagestyle{" << from_ascii(pagestyle) << "}\n";
}
// only output when the background color is not default
if (isbackgroundcolor) {
// only require color here, the background color will be defined
// in LaTeXFeatures.cpp to avoid interferences with the LaTeX
// package pdfpages
features.require("color");
features.require("pagecolor");
}
// only output when the font color is not default
if (isfontcolor) {
// only require color here, the font color will be defined
// in LaTeXFeatures.cpp to avoid interferences with the LaTeX
// package pdfpages
features.require("color");
features.require("fontcolor");
}
// Only if class has a ToC hierarchy
if (tclass.hasTocLevels()) {
if (secnumdepth != tclass.secnumdepth()) {
os << "\\setcounter{secnumdepth}{"
<< secnumdepth
<< "}\n";
}
if (tocdepth != tclass.tocdepth()) {
os << "\\setcounter{tocdepth}{"
<< tocdepth
<< "}\n";
}
}
if (paragraph_separation) {
// when skip separation
string psopt;
bool default_skip = false;
switch (getDefSkip().kind()) {
case VSpace::SMALLSKIP:
psopt = "\\smallskipamount";
break;
case VSpace::MEDSKIP:
psopt = "\\medskipamount";
break;
case VSpace::BIGSKIP:
psopt = "\\bigskipamount";
break;
case VSpace::HALFLINE:
// default (no option)
default_skip = true;
break;
case VSpace::FULLLINE:
psopt = "\\baselineskip";
break;
case VSpace::LENGTH:
psopt = getDefSkip().length().asLatexString();
break;
default:
break;
}
if (features.isProvided("parskip")) {
// package already loaded (with arbitrary options)
// change parskip value only
if (!psopt.empty())
os << "\\setlength{\\parskip}{" + psopt + "}\n";
else if (default_skip)
// explicitly reset default (might have been changed
// in a class or package)
os << "\\parskip=.5\\baselineskip plus 2pt\\relax\n";
} else {
// load parskip package with required options
string psopts;
if (!psopt.empty())
psopts = "skip=" + psopt;
string const xpsopts = getPackageOptions("parskip");
if (!xpsopts.empty()) {
if (!psopts.empty())
psopts += ",";
psopts += xpsopts;
}
os << "\\usepackage";
if (!psopts.empty())
os << "[" << psopts << "]";
os << "{parskip}\n";
}
} else {
// when separation by indentation
// only output something when a width is given
if (!getParIndent().empty()) {
os << "\\setlength{\\parindent}{"
<< from_utf8(getParIndent().asLatexString())
<< "}\n";
}
}
if (is_math_indent) {
// when formula indentation
// only output something when it is not the default
if (!getMathIndent().empty()) {
os << "\\setlength{\\mathindent}{"
<< from_utf8(getMathIndent().asString())
<< "}\n";
}
}
// Now insert the LyX specific LaTeX commands...
features.resolveAlternatives();
features.expandMultiples();
if (output_sync) {
if (!output_sync_macro.empty())
os << from_utf8(output_sync_macro) +"\n";
else if (features.runparams().flavor == Flavor::LaTeX)
os << "\\usepackage[active]{srcltx}\n";
else
os << "\\synctex=-1\n";
}
// due to interferences with babel and hyperref, the color package has to
// be loaded (when it is not already loaded) before babel when hyperref
// is used with the colorlinks option, see
// http://www.lyx.org/trac/ticket/5291
// we decided therefore to load color always before babel, see
// http://www.mail-archive.com/lyx-devel@lists.lyx.org/msg144349.html
os << from_ascii(features.getColorOptions());
// If we use hyperref, jurabib, japanese or varioref,
// we have to call babel before
if (use_babel
&& (features.isRequired("jurabib")
|| features.isRequired("hyperref")
|| features.isRequired("varioref")
|| features.isRequired("japanese"))) {
os << features.getBabelPresettings();
// FIXME UNICODE
os << from_utf8(babelCall(language_options.str(),
!lyxrc.language_global_options)) + '\n';
os << features.getBabelPostsettings();
}
// The optional packages;
os << from_ascii(features.getPackages());
// Additional Indices
if (features.isRequired("splitidx")) {
for (auto const & idx : indiceslist()) {
os << "\\newindex{";
os << escape(idx.shortcut());
os << "}\n";
}
}
// Line spacing
os << from_utf8(spacing().writePreamble(features.isProvided("SetSpace")));
// PDF support.
// * Hyperref manual: "Make sure it comes last of your loaded
// packages, to give it a fighting chance of not being over-written,
// since its job is to redefine many LaTeX commands."
// * Email from Heiko Oberdiek: "It is usually better to load babel
// before hyperref. Then hyperref has a chance to detect babel.
// * Has to be loaded before the "LyX specific LaTeX commands" to
// avoid errors with algorithm floats.
// use hyperref explicitly if it is required
if (features.isRequired("hyperref")) {
OutputParams tmp_params = features.runparams();
pdfoptions().writeLaTeX(tmp_params, os,
features.isProvided("hyperref"));
// correctly break URLs with hyperref and dvi/ps output
if (features.runparams().hyperref_driver == "dvips"
&& features.isAvailable("breakurl"))
os << "\\usepackage{breakurl}\n";
} else if (features.isRequired("nameref"))
// hyperref loads this automatically
os << "\\usepackage{nameref}\n";
if (use_lineno){
os << "\\usepackage";
if (!lineno_opts.empty())
os << "[" << lineno_opts << "]";
os << "{lineno}\n";
os << "\\linenumbers\n";
}
// bibtopic needs to be loaded after hyperref.
// the dot provides the aux file naming which LyX can detect.
if (features.mustProvide("bibtopic"))
os << "\\usepackage[dot]{bibtopic}\n";
// Will be surrounded by \makeatletter and \makeatother when not empty
otexstringstream atlyxpreamble;
// Some macros LyX will need
{
TexString tmppreamble = features.getMacros();
if (!tmppreamble.str.empty())
atlyxpreamble << "\n%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% "
"LyX specific LaTeX commands.\n"
<< std::move(tmppreamble)
<< '\n';
}
// the text class specific preamble
{
docstring tmppreamble = features.getTClassPreamble();
if (!tmppreamble.empty())
atlyxpreamble << "%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% "
"Textclass specific LaTeX commands.\n"
<< tmppreamble
<< '\n';
}
// suppress date if selected
// use \@ifundefined because we cannot be sure that every document class
// has a \date command
if (suppress_date)
atlyxpreamble << "\\@ifundefined{date}{}{\\date{}}\n";
/* the user-defined preamble */
if (!containsOnly(preamble, " \n\t")) {
// FIXME UNICODE
atlyxpreamble << "%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% "
"User specified LaTeX commands.\n";
// Check if the user preamble contains uncodable glyphs
odocstringstream user_preamble;
docstring uncodable_glyphs;
Encoding const * const enc = features.runparams().encoding;
if (enc) {
for (char_type c : preamble) {
if (!enc->encodable(c)) {
docstring const glyph(1, c);
LYXERR0("Uncodable character '"
<< glyph
<< "' in user preamble!");
uncodable_glyphs += glyph;
if (features.runparams().dryrun) {
user_preamble << "<" << _("LyX Warning: ")
<< _("uncodable character") << " '";
user_preamble.put(c);
user_preamble << "'>";
}
} else
user_preamble.put(c);
}
} else
user_preamble << preamble;
// On BUFFER_VIEW|UPDATE, warn user if we found uncodable glyphs
if (!features.runparams().dryrun && !uncodable_glyphs.empty()) {
frontend::Alert::warning(
_("Uncodable character in user preamble"),
support::bformat(
_("The user preamble of your document contains glyphs "
"that are unknown in the current document encoding "
"(namely %1$s).\nThese glyphs are omitted "
" from the output, which may result in "
"incomplete output."
"\n\nPlease select an appropriate "
"document encoding\n"
"(such as utf8) or change the "
"preamble code accordingly."),
uncodable_glyphs));
}
atlyxpreamble << user_preamble.str() << '\n';
}
// footmisc must be loaded after setspace
// Load it here to avoid clashes with footmisc loaded in the user
// preamble. For that reason we also pass the options via
// \PassOptionsToPackage in getPreamble() and not here.
if (features.mustProvide("footmisc"))
atlyxpreamble << "\\usepackage{footmisc}\n";
// subfig loads internally the LaTeX package "caption". As
// caption is a very popular package, users will load it in
// the preamble. Therefore we must load subfig behind the
// user-defined preamble and check if the caption package was
// loaded or not. For the case that caption is loaded before
// subfig, there is the subfig option "caption=false". This
// option also works when a koma-script class is used and
// koma's own caption commands are used instead of caption. We
// use \PassOptionsToPackage here because the user could have
// already loaded subfig in the preamble.
if (features.mustProvide("subfig"))
atlyxpreamble << "\\ifdefined\\showcaptionsetup\n"
" % Caption package is used. Advise subfig not to load it again.\n"
" \\PassOptionsToPackage{caption=false}{subfig}\n"
"\\fi\n"
"\\usepackage{subfig}\n";
// Itemize bullet settings need to be last in case the user
// defines their own bullets that use a package included
// in the user-defined preamble -- ARRae
// Actually it has to be done much later than that
// since some packages like frenchb make modifications
// at \begin{document} time -- JMarc
docstring bullets_def;
for (int i = 0; i < 4; ++i) {
if (user_defined_bullet(i) != ITEMIZE_DEFAULTS[i]) {
if (bullets_def.empty())
bullets_def += "\\AtBeginDocument{\n";
bullets_def += " \\def\\labelitemi";
switch (i) {
// `i' is one less than the item to modify
case 0:
break;
case 1:
bullets_def += 'i';
break;
case 2:
bullets_def += "ii";
break;
case 3:
bullets_def += 'v';
break;
}
bullets_def += '{' +
user_defined_bullet(i).getText()
+ "}\n";
}
}
if (!bullets_def.empty())
atlyxpreamble << bullets_def << "}\n\n";
if (!atlyxpreamble.empty())
os << "\n\\makeatletter\n"
<< atlyxpreamble.release()
<< "\\makeatother\n\n";
// We try to load babel late, in case it interferes with other packages.
// Jurabib, hyperref, varioref, bicaption, menukeys and listings (bug 8995)
// have to be called after babel, though.
if (use_babel && !features.isRequired("jurabib")
&& !features.isRequired("hyperref")
&& !features.isRequired("varioref")
&& !features.isRequired("japanese")) {
os << features.getBabelPresettings();
// FIXME UNICODE
os << from_utf8(babelCall(language_options.str(),
!lyxrc.language_global_options)) + '\n';
os << features.getBabelPostsettings();
}
// In documents containing text in Thai language,
// we must load inputenc after babel (see lib/languages).
if (contains(features.getBabelPostsettings(), from_ascii("thai.ldf")))
writeEncodingPreamble(os, features);
// font selection must be done after babel with non-TeX fonts
if (!fonts.empty() && features.useBabel() && useNonTeXFonts)
os << from_utf8(fonts);
if (features.isRequired("bicaption"))
os << "\\usepackage{bicaption}\n";
if (!listings_params.empty()
|| features.mustProvide("listings")
|| features.mustProvide("minted")) {
if (use_minted)
os << "\\usepackage{minted}\n";
else
os << "\\usepackage{listings}\n";
}
string lst_params = listings_params;
// If minted, do not output the language option (bug 11203)
if (use_minted && contains(lst_params, "language=")) {
vector<string> opts =
getVectorFromString(lst_params, ",", false);
for (size_t i = 0; i < opts.size(); ++i) {
if (prefixIs(opts[i], "language="))
opts.erase(opts.begin() + i--);
}
lst_params = getStringFromVector(opts, ",");
}
if (!lst_params.empty()) {
if (use_minted)
os << "\\setminted{";
else
os << "\\lstset{";
// do not test validity because listings_params is
// supposed to be valid
string par =
InsetListingsParams(lst_params).separatedParams(true);
os << from_utf8(par);
os << "}\n";
}
// 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
if (features.mustProvide("tipa") && useNonTeXFonts
&& !features.isProvided("xunicode")) {
// The `xunicode` package officially only supports XeTeX,
// but also works with LuaTeX. We work around its XeTeX test.
if (features.runparams().flavor != Flavor::XeTeX) {
os << "% Pretend to xunicode that we are XeTeX\n"
<< "\\def\\XeTeXpicfile{}\n";
}
os << "\\usepackage{xunicode}\n";
}
// covington must be loaded after beamerarticle
if (features.isRequired("covington"))
os << "\\usepackage{covington}\n";
// Polyglossia must be loaded last ...
if (use_polyglossia) {
// call the package
os << "\\usepackage{polyglossia}\n";
// set the main language
os << "\\setdefaultlanguage";
if (!language->polyglossiaOpts().empty())
os << "[" << from_ascii(language->polyglossiaOpts()) << "]";
os << "{" << from_ascii(language->polyglossia()) << "}\n";
// now setup the other languages
set<string> const polylangs =
features.getPolyglossiaLanguages();
for (auto const & pl : polylangs) {
// We do not output the options here; they are output in
// the language switch commands. This is safer if multiple
// varieties are used.
if (pl == language->polyglossia())
continue;
os << "\\setotherlanguage";
os << "{" << from_ascii(pl) << "}\n";
}
}
// ... but before biblatex (see #7065)
if ((features.mustProvide("biblatex")
|| features.isRequired("biblatex-chicago"))
&& !features.isProvided("biblatex-chicago")
&& !features.isProvided("biblatex-natbib")
&& !features.isProvided("natbib-internal")
&& !features.isProvided("natbib")
&& !features.isProvided("jurabib")) {
// The biblatex-chicago package has a differing interface
// it uses a wrapper package and loads styles via fixed options
bool const chicago = features.isRequired("biblatex-chicago");
string delim = "";
string opts;
os << "\\usepackage";
if (!biblatex_bibstyle.empty()
&& (biblatex_bibstyle == biblatex_citestyle)
&& !chicago) {
opts = "style=" + biblatex_bibstyle;
delim = ",";
} else if (!chicago) {
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 (!bib_encoding.empty() && encodings.fromLyXName(bib_encoding)) {
opts += delim + "bibencoding="
+ encodings.fromLyXName(bib_encoding)->latexName();
delim = ",";
}
if (!biblio_opts.empty())
opts += delim + biblio_opts;
if (!opts.empty())
os << "[" << opts << "]";
if (chicago)
os << "{biblatex-chicago}\n";
else
os << "{biblatex}\n";
}
// Load custom language package here
if (features.langPackage() == LaTeXFeatures::LANG_PACK_CUSTOM) {
if (lang_package == "default")
os << from_utf8(lyxrc.language_custom_package);
else
os << from_utf8(lang_package);
os << '\n';
}
// Since menukeys uses catoptions, which does some heavy changes on key-value options,
// it is recommended to load menukeys as the last package (even after hyperref)
if (features.isRequired("menukeys"))
os << "\\usepackage{menukeys}\n";
docstring const i18npreamble =
features.getTClassI18nPreamble(use_babel, use_polyglossia,
use_minted);
if (!i18npreamble.empty())
os << i18npreamble + '\n';
return use_babel;
}
void BufferParams::useClassDefaults()
{
DocumentClass const & tclass = documentClass();
sides = tclass.sides();
columns = tclass.columns();
pagestyle = tclass.pagestyle();
tablestyle = tclass.tablestyle();
use_default_options = true;
// Only if class has a ToC hierarchy
if (tclass.hasTocLevels()) {
secnumdepth = tclass.secnumdepth();
tocdepth = tclass.tocdepth();
}
}
bool BufferParams::hasClassDefaults() const
{
DocumentClass const & tclass = documentClass();
return sides == tclass.sides()
&& columns == tclass.columns()
&& pagestyle == tclass.pagestyle()
&& tablestyle == tclass.tablestyle()
&& use_default_options
&& secnumdepth == tclass.secnumdepth()
&& tocdepth == tclass.tocdepth();
}
DocumentClass const & BufferParams::documentClass() const
{
return *doc_class_;
}
DocumentClassConstPtr BufferParams::documentClassPtr() const
{
return doc_class_;
}
void BufferParams::setDocumentClass(DocumentClassConstPtr tc)
{
// evil, but this function is evil
doc_class_ = const_pointer_cast<DocumentClass>(tc);
invalidateConverterCache();
}
bool BufferParams::setBaseClass(string const & classname, string const & path)
{
LYXERR(Debug::TCLASS, "setBaseClass: " << classname);
LayoutFileList & bcl = LayoutFileList::get();
if (!bcl.haveClass(classname)) {
docstring s =
bformat(_("The layout file:\n"
"%1$s\n"
"could not be found. A default textclass with default\n"
"layouts will be used. LyX will not be able to produce\n"
"correct output."),
from_utf8(classname));
frontend::Alert::error(_("Document class not found"), s);
bcl.addEmptyClass(classname);
}
bool const success = bcl[classname].load(path);
if (!success) {
docstring s =
bformat(_("Due to some error in it, the layout file:\n"
"%1$s\n"
"could not be loaded. A default textclass with default\n"
"layouts will be used. LyX will not be able to produce\n"
"correct output."),
from_utf8(classname));
frontend::Alert::error(_("Could not load class"), s);
bcl.addEmptyClass(classname);
}
pimpl_->baseClass_ = classname;
layout_modules_.adaptToBaseClass(baseClass(), removed_modules_);
return true;
}
LayoutFile const * BufferParams::baseClass() const
{
if (LayoutFileList::get().haveClass(pimpl_->baseClass_))
return &(LayoutFileList::get()[pimpl_->baseClass_]);
return nullptr;
}
LayoutFileIndex const & BufferParams::baseClassID() const
{
return pimpl_->baseClass_;
}
void BufferParams::makeDocumentClass(bool clone, bool internal)
{
if (!baseClass())
return;
invalidateConverterCache();
LayoutModuleList mods;
for (auto const & mod : layout_modules_)
mods.push_back(mod);
doc_class_ = getDocumentClass(*baseClass(), mods, cite_engine_, clone, internal);
TextClass::ReturnValues success = TextClass::OK;
if (!forced_local_layout_.empty())
success = doc_class_->read(to_utf8(forced_local_layout_),
TextClass::MODULE);
if (!local_layout_.empty() &&
(success == TextClass::OK || success == TextClass::OK_OLDFORMAT))
success = doc_class_->read(to_utf8(local_layout_), TextClass::MODULE);
if (success != TextClass::OK && success != TextClass::OK_OLDFORMAT) {
docstring const msg = _("Error reading internal layout information");
frontend::Alert::warning(_("Read Error"), msg);
}
}
bool BufferParams::layoutModuleCanBeAdded(string const & modName) const
{
return layout_modules_.moduleCanBeAdded(modName, baseClass());
}
docstring BufferParams::getLocalLayout(bool forced) const
{
if (forced)
return from_utf8(doc_class_->forcedLayouts());
else
return local_layout_;
}
void BufferParams::setLocalLayout(docstring const & layout, bool forced)
{
if (forced)
forced_local_layout_ = layout;
else
local_layout_ = layout;
}
bool BufferParams::addLayoutModule(string const & modName)
{
for (auto const & mod : layout_modules_)
if (mod == modName)
return false;
layout_modules_.push_back(modName);
return true;
}
string BufferParams::bufferFormat() const
{
return documentClass().outputFormat();
}
bool BufferParams::isExportable(string const & format, bool need_viewable) const
{
FormatList const & formats = exportableFormats(need_viewable);
for (auto const & fmt : formats) {
if (fmt->name() == format)
return true;
}
return false;
}
FormatList const & BufferParams::exportableFormats(bool only_viewable) const
{
FormatList & cached = only_viewable ?
pimpl_->viewableFormatList : pimpl_->exportableFormatList;
bool & valid = only_viewable ?
pimpl_->isViewCacheValid : pimpl_->isExportCacheValid;
if (valid)
return cached;
vector<string> const backs = backends();
set<string> excludes;
if (useNonTeXFonts) {
excludes.insert("latex");
excludes.insert("pdflatex");
} else if (inputenc != "ascii" && inputenc != "utf8-plain") {
// XeTeX with TeX fonts requires input encoding ascii (#10600).
excludes.insert("xetex");
}
FormatList result =
theConverters().getReachable(backs[0], only_viewable, true, excludes);
vector<string>::const_iterator it = backs.begin() + 1;
for (; it != backs.end(); ++it) {
FormatList r = theConverters().getReachable(*it, only_viewable,
false, excludes);
result.insert(result.end(), r.begin(), r.end());
}
sort(result.begin(), result.end(), Format::formatSorter);
cached = result;
valid = true;
return cached;
}
vector<string> BufferParams::backends() const
{
vector<string> v;
string const buffmt = bufferFormat();
// FIXME: Don't hardcode format names here, but use a flag
if (buffmt == "latex") {
if (encoding().package() == Encoding::japanese)
v.push_back("platex");
else {
if (!useNonTeXFonts) {
v.push_back("pdflatex");
v.push_back("latex");
}
if (useNonTeXFonts
|| inputenc == "ascii" || inputenc == "utf8-plain")
v.push_back("xetex");
v.push_back("luatex");
v.push_back("dviluatex");
}
} else {
string rbuffmt = buffmt;
// If we use an OutputFormat in Japanese docs,
// we need special format in order to get the path
// via pLaTeX (#8823)
if (documentClass().hasOutputFormat()
&& encoding().package() == Encoding::japanese)
rbuffmt += "-ja";
v.push_back(rbuffmt);
}
v.push_back("xhtml");
v.push_back("docbook5");
v.push_back("text");
v.push_back("lyx");
return v;
}
Flavor BufferParams::getOutputFlavor(string const & format) const
{
string const dformat = (format.empty() || format == "default") ?
getDefaultOutputFormat() : format;
DefaultFlavorCache::const_iterator it =
default_flavors_.find(dformat);
if (it != default_flavors_.end())
return it->second;
Flavor result = Flavor::LaTeX;
// FIXME It'd be better not to hardcode this, but to do
// something with formats.
if (dformat == "xhtml")
result = Flavor::Html;
else if (dformat == "docbook5")
result = Flavor::DocBook5;
else if (dformat == "text")
result = Flavor::Text;
else if (dformat == "lyx")
result = Flavor::LyX;
else if (dformat == "pdflatex")
result = Flavor::PdfLaTeX;
else if (dformat == "xetex")
result = Flavor::XeTeX;
else if (dformat == "luatex")
result = Flavor::LuaTeX;
else if (dformat == "dviluatex")
result = Flavor::DviLuaTeX;
else {
// Try to determine flavor of default output format
vector<string> backs = backends();
if (find(backs.begin(), backs.end(), dformat) == backs.end()) {
// Get shortest path to format
Graph::EdgePath path;
for (auto const & bvar : backs) {
Graph::EdgePath p = theConverters().getPath(bvar, dformat);
if (!p.empty() && (path.empty() || p.size() < path.size())) {
path = p;
}
}
if (!path.empty())
result = theConverters().getFlavor(path);
}
}
// cache this flavor
default_flavors_[dformat] = result;
return result;
}
string BufferParams::getDefaultOutputFormat() const
{
if (!default_output_format.empty()
&& default_output_format != "default")
return default_output_format;
if (encoding().package() == Encoding::japanese)
return lyxrc.default_platex_view_format;
if (useNonTeXFonts)
return lyxrc.default_otf_view_format;
return lyxrc.default_view_format;
}
Font const BufferParams::getFont() const
{
FontInfo f = documentClass().defaultfont();
if (fonts_default_family == "rmdefault")
f.setFamily(ROMAN_FAMILY);
else if (fonts_default_family == "sfdefault")
f.setFamily(SANS_FAMILY);
else if (fonts_default_family == "ttdefault")
f.setFamily(TYPEWRITER_FAMILY);
return Font(f, language);
}
QuoteStyle BufferParams::getQuoteStyle(string const & qs) const
{
return quotesstyletranslator().find(qs);
}
bool BufferParams::isLatex() const
{
return documentClass().outputType() == LATEX;
}
bool BufferParams::isLiterate() const
{
return documentClass().outputType() == LITERATE;
}
bool BufferParams::hasPackageOption(string const package, string const opt) const
{
for (auto const & p : documentClass().packageOptions())
if (package == p.first && opt == p.second)
return true;
return false;
}
string BufferParams::getPackageOptions(string const package) const
{
for (auto const & p : documentClass().packageOptions())
if (package == p.first)
return p.second;
return string();
}
bool BufferParams::useBidiPackage(OutputParams const & rp) const
{
return (rp.use_polyglossia
// as of babel 3.29, bidi=bidi-* is supported by babel
// So we check whether we use a respective version and
// whethert bidi-r or bidi-l have been requested either via class
// or package options
|| (rp.use_babel
&& LaTeXFeatures::isAvailableAtLeastFrom("babel", 2019, 4, 3)
&& (hasPackageOption("babel", "bidi-r")
|| hasPackageOption("babel", "bidi-l")
|| contains(options, "bidi-r")
|| contains(options, "bidi-l")))
)
&& rp.flavor == Flavor::XeTeX;
}
void BufferParams::readPreamble(Lexer & lex)
{
if (lex.getString() != "\\begin_preamble")
lyxerr << "Error (BufferParams::readPreamble):"
"consistency check failed." << endl;
preamble = lex.getLongString(from_ascii("\\end_preamble"));
}
void BufferParams::readDocumentMetadata(Lexer & lex)
{
if (lex.getString() != "\\begin_metadata")
lyxerr << "Error (BufferParams::readDocumentMetadata):"
"consistency check failed." << endl;
document_metadata = lex.getLongString(from_ascii("\\end_metadata"));
}
void BufferParams::readLocalLayout(Lexer & lex, bool forced)
{
string const expected = forced ? "\\begin_forced_local_layout" :
"\\begin_local_layout";
if (lex.getString() != expected)
lyxerr << "Error (BufferParams::readLocalLayout):"
"consistency check failed." << endl;
if (forced)
forced_local_layout_ =
lex.getLongString(from_ascii("\\end_forced_local_layout"));
else
local_layout_ = lex.getLongString(from_ascii("\\end_local_layout"));
}
bool BufferParams::setLanguage(string const & lang)
{
Language const *new_language = languages.getLanguage(lang);
if (!new_language) {
// Language lang was not found
return false;
}
language = new_language;
return true;
}
void BufferParams::readLanguage(Lexer & lex)
{
if (!lex.next()) return;
string const tmptok = lex.getString();
// check if tmptok is part of tex_babel in tex-defs.h
if (!setLanguage(tmptok)) {
// Language tmptok was not found
language = default_language;
lyxerr << "Warning: Setting language `"
<< tmptok << "' to `" << language->lang()
<< "'." << endl;
}
}
void BufferParams::readGraphicsDriver(Lexer & lex)
{
if (!lex.next())
return;
string const tmptok = lex.getString();
// check if tmptok is part of tex_graphics in tex_defs.h
int n = 0;
while (true) {
string const test = tex_graphics[n++];
if (test == tmptok) {
graphics_driver = tmptok;
break;
}
if (test.empty()) {
lex.printError(
"Warning: graphics driver `$$Token' not recognized!\n"
" Setting graphics driver to `default'.\n");
graphics_driver = "default";
break;
}
}
}
void BufferParams::readBullets(Lexer & lex)
{
if (!lex.next())
return;
int const index = lex.getInteger();
lex.next();
int temp_int = lex.getInteger();
user_defined_bullet(index).setFont(temp_int);
temp_bullet(index).setFont(temp_int);
lex >> temp_int;
user_defined_bullet(index).setCharacter(temp_int);
temp_bullet(index).setCharacter(temp_int);
lex >> temp_int;
user_defined_bullet(index).setSize(temp_int);
temp_bullet(index).setSize(temp_int);
}
void BufferParams::readBulletsLaTeX(Lexer & lex)
{
// The bullet class should be able to read this.
if (!lex.next())
return;
int const index = lex.getInteger();
lex.next(true);
docstring const temp_str = lex.getDocString();
user_defined_bullet(index).setText(temp_str);
temp_bullet(index).setText(temp_str);
}
void BufferParams::readModules(Lexer & lex)
{
if (!lex.eatLine()) {
lyxerr << "Error (BufferParams::readModules):"
"Unexpected end of input." << endl;
return;
}
while (true) {
string mod = lex.getString();
if (mod == "\\end_modules")
break;
addLayoutModule(mod);
lex.eatLine();
}
}
void BufferParams::readRemovedModules(Lexer & lex)
{
if (!lex.eatLine()) {
lyxerr << "Error (BufferParams::readRemovedModules):"
"Unexpected end of input." << endl;
return;
}
while (true) {
string mod = lex.getString();
if (mod == "\\end_removed_modules")
break;
removed_modules_.push_back(mod);
lex.eatLine();
}
// now we want to remove any removed modules that were previously
// added. normally, that will be because default modules were added in
// setBaseClass(), which gets called when \textclass is read at the
// start of the read.
for (auto const & rm : removed_modules_) {
LayoutModuleList::iterator const mit = layout_modules_.begin();
LayoutModuleList::iterator const men = layout_modules_.end();
LayoutModuleList::iterator found = find(mit, men, rm);
if (found == men)
continue;
layout_modules_.erase(found);
}
}
void BufferParams::readIncludeonly(Lexer & lex)
{
if (!lex.eatLine()) {
lyxerr << "Error (BufferParams::readIncludeonly):"
"Unexpected end of input." << endl;
return;
}
while (true) {
string child = lex.getString();
if (child == "\\end_includeonly")
break;
included_children_.push_back(child);
lex.eatLine();
}
}
string BufferParams::paperSizeName(PapersizePurpose purpose, string const & psize) const
{
PAPER_SIZE ppsize = psize.empty() ? papersize : papersizetranslator().find(psize);
switch (ppsize) {
case PAPER_DEFAULT:
if (documentClass().pagesize() == "default")
// could be anything, so don't guess
return string();
return paperSizeName(purpose, documentClass().pagesize());
case PAPER_CUSTOM: {
if (purpose == XDVI && !paperwidth.empty() &&
!paperheight.empty()) {
// heightxwidth<unit>
string first = paperwidth;
string second = paperheight;
if (orientation == ORIENTATION_LANDSCAPE)
first.swap(second);
// cut off unit.
return first.erase(first.length() - 2)
+ "x" + second;
}
return string();
}
case PAPER_A0:
// dvips and dvipdfm do not know this
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "a0";
case PAPER_A1:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "a1";
case PAPER_A2:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "a2";
case PAPER_A3:
return "a3";
case PAPER_A4:
return "a4";
case PAPER_A5:
return "a5";
case PAPER_A6:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "a6";
case PAPER_B0:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "b0";
case PAPER_B1:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "b1";
case PAPER_B2:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "b2";
case PAPER_B3:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "b3";
case PAPER_B4:
// dvipdfm does not know this
if (purpose == DVIPDFM)
return string();
return "b4";
case PAPER_B5:
if (purpose == DVIPDFM)
return string();
return "b5";
case PAPER_B6:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "b6";
case PAPER_C0:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "c0";
case PAPER_C1:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "c1";
case PAPER_C2:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "c2";
case PAPER_C3:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "c3";
case PAPER_C4:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "c4";
case PAPER_C5:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "c5";
case PAPER_C6:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "c6";
case PAPER_JISB0:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "jisb0";
case PAPER_JISB1:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "jisb1";
case PAPER_JISB2:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "jisb2";
case PAPER_JISB3:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "jisb3";
case PAPER_JISB4:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "jisb4";
case PAPER_JISB5:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "jisb5";
case PAPER_JISB6:
if (purpose == DVIPS || purpose == DVIPDFM)
return string();
return "jisb6";
case PAPER_USEXECUTIVE:
// dvipdfm does not know this
if (purpose == DVIPDFM)
return string();
return "foolscap";
case PAPER_USLEGAL:
return "legal";
case PAPER_USLETTER:
default:
if (purpose == XDVI)
return "us";
return "letter";
}
}
string const BufferParams::dvips_options() const
{
string result;
// If the class loads the geometry package, we do not know which
// paper size is used, since we do not set it (bug 7013).
// Therefore we must not specify any argument here.
// dvips gets the correct paper size via DVI specials in this case
// (if the class uses the geometry package correctly).
if (documentClass().provides("geometry"))
return result;
if (use_geometry
&& papersize == PAPER_CUSTOM
&& !lyxrc.print_paper_dimension_flag.empty()
&& !paperwidth.empty()
&& !paperheight.empty()) {
// using a custom papersize
result = lyxrc.print_paper_dimension_flag;
result += ' ' + paperwidth;
result += ',' + paperheight;
} else {
string const paper_option = paperSizeName(DVIPS);
if (!paper_option.empty() && (paper_option != "letter" ||
orientation != ORIENTATION_LANDSCAPE)) {
// dvips won't accept -t letter -t landscape.
// In all other cases, include the paper size
// explicitly.
result = lyxrc.print_paper_flag;
result += ' ' + paper_option;
}
}
if (orientation == ORIENTATION_LANDSCAPE &&
papersize != PAPER_CUSTOM)
result += ' ' + lyxrc.print_landscape_flag;
return result;
}
string const BufferParams::main_font_encoding() const
{
vector<string> const fencs = font_encodings();
if (fencs.empty()) {
if (ascii_lowercase(language->fontenc(*this)) == "none")
return "none";
return "default";
}
return fencs.back();
}
vector<string> const BufferParams::font_encodings() const
{
string doc_fontenc = (fontenc == "auto") ? string() : fontenc;
vector<string> fontencs;
// "default" means "no explicit font encoding"
if (doc_fontenc != "default") {
if (!doc_fontenc.empty())
// If we have a custom setting, we use only that!
return getVectorFromString(doc_fontenc);
string const lfe = language->fontenc(*this);
if (!lfe.empty()
&& ascii_lowercase(language->fontenc(*this)) != "none") {
vector<string> fencs = getVectorFromString(lfe);
for (auto & fe : fencs) {
if (find(fontencs.begin(), fontencs.end(), fe) == fontencs.end())
fontencs.push_back(fe);
}
}
}
return fontencs;
}
string BufferParams::babelCall(string const & lang_opts, bool const langoptions) const
{
// suppress the babel call if there is no BabelName defined
// for the document language in the lib/languages file and if no
// other languages are used (lang_opts is then empty)
if (lang_opts.empty())
return string();
// The prefs may require the languages to
// be submitted to babel itself (not the class).
if (langoptions)
return "\\usepackage[" + lang_opts + "]{babel}";
return "\\usepackage{babel}";
}
docstring BufferParams::getGraphicsDriver(string const & package) const
{
docstring result;
if (package == "geometry") {
if (graphics_driver == "dvips"
|| graphics_driver == "dvipdfm"
|| graphics_driver == "pdftex"
|| graphics_driver == "vtex")
result = from_ascii(graphics_driver);
else if (graphics_driver == "dvipdfmx")
result = from_ascii("dvipdfm");
}
return result;
}
void BufferParams::writeEncodingPreamble(otexstream & os,
LaTeXFeatures & features) const
{
// With no-TeX fonts we use utf8-plain without encoding package.
if (useNonTeXFonts)
return;
string const doc_encoding = encoding().latexName();
Encoding::Package const package = encoding().package();
// (dvi)lualatex uses luainputenc rather than inputenc
string const inputenc_package =
(features.runparams().flavor == Flavor::LuaTeX
|| features.runparams().flavor == Flavor::DviLuaTeX)
? "luainputenc" : "inputenc";
if (inputenc == "auto-legacy") {
// The "japanese" babel language requires the pLaTeX engine
// which conflicts with "inputenc".
// See http://www.mail-archive.com/lyx-devel@lists.lyx.org/msg129680.html
if (!features.isRequired("japanese")
&& !features.isProvided("inputenc")) {
if (package == Encoding::inputenc) {
// Main language requires (lua)inputenc
os << "\\usepackage[" << doc_encoding << "]{"
<< inputenc_package << "}\n";
} else {
// We might have an additional language that requires inputenc
set<string> encoding_set = features.getEncodingSet(doc_encoding);
bool inputenc = false;
for (auto const & enc : encoding_set) {
if (encodings.fromLaTeXName(enc)
&& encodings.fromLaTeXName(enc)->package() == Encoding::inputenc) {
inputenc = true;
break;
}
}
if (inputenc)
// load (lua)inputenc without options
// (the encoding is loaded later)
os << "\\usepackage{" << inputenc_package << "}\n";
}
}
} else if (inputenc != "auto-legacy-plain") {
switch (package) {
case Encoding::none:
case Encoding::CJK:
case Encoding::japanese:
if (encoding().iconvName() != "UTF-8"
&& !features.runparams().isFullUnicode()
&& features.isAvailableAtLeastFrom("LaTeX", 2018, 4))
// don't default to [utf8]{inputenc} with LaTeX >= 2018/04
os << "\\UseRawInputEncoding\n";
break;
case Encoding::inputenc:
// do not load inputenc if japanese is used
// or if the class provides inputenc
if (features.isRequired("japanese")
|| features.isProvided("inputenc"))
break;
// The 2022 release of ucs.sty uses the default utf8
// inputenc encoding with 'utf8x' inputenc if the ucs
// package is not loaded before inputenc.
// This breaks existing documents that use utf8x
// and also makes utf8x redundant.
// Thus we load ucs.sty in order to keep functionality
// that would otherwise be silently dropped.
if (doc_encoding == "utf8x"
&& features.isAvailableAtLeastFrom("ucs", 2022, 8, 7)
&& !features.isProvided("ucs"))
os << "\\usepackage{ucs}\n";
os << "\\usepackage[" << doc_encoding << "]{"
<< inputenc_package << "}\n";
break;
}
}
if ((inputenc == "auto-legacy-plain" || features.isRequired("japanese"))
&& features.isAvailableAtLeastFrom("LaTeX", 2018, 4))
// don't default to [utf8]{inputenc} with LaTeX >= 2018/04
os << "\\UseRawInputEncoding\n";
}
string const BufferParams::parseFontName(string const & name) const
{
string mangled = name;
size_t const idx = mangled.find('[');
if (idx == string::npos || idx == 0)
return mangled;
else
return mangled.substr(0, idx - 1);
}
string const BufferParams::loadFonts(LaTeXFeatures & features) const
{
if (fontsRoman() == "default" && fontsSans() == "default"
&& fontsTypewriter() == "default"
&& (fontsMath() == "default" || fontsMath() == "auto"))
//nothing to do
return string();
ostringstream os;
/* Fontspec (XeTeX, LuaTeX): we provide GUI support for oldstyle
* numbers (Numbers=OldStyle) and sf/tt scaling. The Ligatures=TeX/
* Mapping=tex-text option assures TeX ligatures (such as "--")
* are resolved. Note that tt does not use these ligatures.
* TODO:
* -- add more GUI options?
* -- add more fonts (fonts for other scripts)
* -- if there's a way to find out if a font really supports
* OldStyle, enable/disable the widget accordingly.
*/
if (useNonTeXFonts && features.isAvailable("fontspec")) {
// "Mapping=tex-text" and "Ligatures=TeX" are equivalent.
// However, until v.2 (2010/07/11) fontspec only knew
// Mapping=tex-text (for XeTeX only); then "Ligatures=TeX"
// was introduced for both XeTeX and LuaTeX (LuaTeX
// didn't understand "Mapping=tex-text", while XeTeX
// understood both. With most recent versions, both
// variants are understood by both engines. However,
// we want to provide support for at least TeXLive 2009
// (for XeTeX; LuaTeX is only supported as of v.2)
// As of 2017/11/03, Babel has its own higher-level
// interface on top of fontspec that is to be used.
bool const babelfonts = features.useBabel()
&& features.isAvailableAtLeastFrom("babel", 2017, 11, 3);
string const texmapping =
(features.runparams().flavor == Flavor::XeTeX) ?
"Mapping=tex-text" : "Ligatures=TeX";
if (fontsRoman() != "default") {
if (babelfonts)
os << "\\babelfont{rm}[";
else
os << "\\setmainfont[";
os << texmapping;
if (fonts_roman_osf)
os << ",Numbers=OldStyle";
if (!font_roman_opts.empty())
os << ',' << font_roman_opts;
os << "]{" << parseFontName(fontsRoman()) << "}\n";
}
if (fontsSans() != "default") {
string const sans = parseFontName(fontsSans());
if (fontsSansScale() != 100) {
if (babelfonts)
os << "\\babelfont{sf}";
else
os << "\\setsansfont";
os << "[Scale="
<< float(fontsSansScale()) / 100 << ',';
if (fonts_sans_osf)
os << "Numbers=OldStyle,";
os << texmapping;
if (!font_sans_opts.empty())
os << ',' << font_sans_opts;
os << "]{" << sans << "}\n";
} else {
if (babelfonts)
os << "\\babelfont{sf}[";
else
os << "\\setsansfont[";
if (fonts_sans_osf)
os << "Numbers=OldStyle,";
os << texmapping;
if (!font_sans_opts.empty())
os << ',' << font_sans_opts;
os << "]{" << sans << "}\n";
}
}
if (fontsTypewriter() != "default") {
string const mono = parseFontName(fontsTypewriter());
if (fontsTypewriterScale() != 100) {
if (babelfonts)
os << "\\babelfont{tt}";
else
os << "\\setmonofont";
os << "[Scale="
<< float(fontsTypewriterScale()) / 100;
if (fonts_typewriter_osf)
os << ",Numbers=OldStyle";
if (!font_typewriter_opts.empty())
os << ',' << font_typewriter_opts;
os << "]{"
<< mono << "}\n";
} else {
if (babelfonts)
os << "\\babelfont{tt}";
else
os << "\\setmonofont";
if (!font_typewriter_opts.empty() || fonts_typewriter_osf) {
os << '[';
if (fonts_typewriter_osf)
os << "Numbers=OldStyle";
if (!font_typewriter_opts.empty()) {
if (fonts_typewriter_osf)
os << ',';
os << font_typewriter_opts;
}
os << ']';
}
os << '{' << mono << "}\n";
}
}
return os.str();
}
// Tex Fonts
bool const ot1 = (features.runparams().main_fontenc == "default"
|| features.runparams().main_fontenc == "OT1");
bool const dryrun = features.runparams().dryrun;
bool const complete = (fontsSans() == "default" && fontsTypewriter() == "default");
bool const nomath = (fontsMath() != "auto");
// ROMAN FONTS
os << theLaTeXFonts().getLaTeXFont(from_ascii(fontsRoman())).getLaTeXCode(
dryrun, ot1, complete, fonts_expert_sc, fonts_roman_osf,
nomath, font_roman_opts);
// SANS SERIF
os << theLaTeXFonts().getLaTeXFont(from_ascii(fontsSans())).getLaTeXCode(
dryrun, ot1, complete, fonts_expert_sc, fonts_sans_osf,
nomath, font_sans_opts, fontsSansScale());
// MONOSPACED/TYPEWRITER
os << theLaTeXFonts().getLaTeXFont(from_ascii(fontsTypewriter())).getLaTeXCode(
dryrun, ot1, complete, fonts_expert_sc, fonts_typewriter_osf,
nomath, font_typewriter_opts, fontsTypewriterScale());
// MATH
os << theLaTeXFonts().getLaTeXFont(from_ascii(fontsMath())).getLaTeXCode(
dryrun, ot1, complete, fonts_expert_sc, fonts_roman_osf,
nomath);
return os.str();
}
Encoding const & BufferParams::encoding() const
{
// Main encoding for LaTeX output.
if (useNonTeXFonts)
return *(encodings.fromLyXName("utf8-plain"));
if (inputenc == "auto-legacy" || inputenc == "auto-legacy-plain")
return *language->encoding();
if (inputenc == "utf8" && language->lang() == "japanese")
return *(encodings.fromLyXName("utf8-platex"));
Encoding const * const enc = encodings.fromLyXName(inputenc);
if (enc)
return *enc;
LYXERR0("Unknown inputenc value `" << inputenc
<< "'. Using `auto' instead.");
return *language->encoding();
}
string const & BufferParams::defaultBiblioStyle() const
{
if (!biblio_style.empty())
return biblio_style;
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();
}
bool BufferParams::fullAuthorList() const
{
return documentClass().fullAuthorList();
}
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];
return string();
}
vector<string> BufferParams::citeCommands() const
{
static CitationStyle const default_style;
vector<string> commands =
documentClass().citeCommands(citeEngineType());
if (commands.empty())
commands.push_back(default_style.name);
return commands;
}
vector<CitationStyle> BufferParams::citeStyles() const
{
static CitationStyle const default_style;
vector<CitationStyle> styles =
documentClass().citeStyles(citeEngineType());
if (styles.empty())
styles.push_back(default_style);
return styles;
}
string const BufferParams::getBibtexCommand(string const cmd, bool const warn) const
{
// split from options
string command_in;
split(cmd, command_in, ' ');
// Look if the requested command is available. If so, use that.
for (auto const & alts : lyxrc.bibtex_alternatives) {
string command_prov;
split(alts, command_prov, ' ');
if (command_in == command_prov)
return cmd;
}
// If not, find the most suitable fallback for the current cite framework,
// and warn. Note that we omit options in any such case.
string fallback;
if (useBiblatex()) {
// For Biblatex, we prefer biber (also for Japanese)
// and try to fall back to bibtex8
if (lyxrc.bibtex_alternatives.find("biber") != lyxrc.bibtex_alternatives.end())
fallback = "biber";
else if (lyxrc.bibtex_alternatives.find("bibtex8") != lyxrc.bibtex_alternatives.end())
fallback = "bibtex8";
}
// For classic BibTeX and as last resort for biblatex, try bibtex
if (fallback.empty()) {
if (lyxrc.bibtex_alternatives.find("bibtex") != lyxrc.bibtex_alternatives.end())
fallback = "bibtex";
}
if (!warn)
return fallback;
if (fallback.empty()) {
frontend::Alert::warning(
_("No bibliography processor found!"),
support::bformat(
_("The bibliography processor requested by this document "
"(%1$s) is not available and no appropriate "
"alternative has been found. "
"No bibliography and references will be generated.\n"
"Please fix your installation!"),
from_utf8(cmd)));
} else {
frontend::Alert::warning(
_("Requested bibliography processor not found!"),
support::bformat(
_("The bibliography processor requested by this document "
"(%1$s) is not available. "
"As a fallback, '%2$s' will be used, options are omitted. "
"This might result in errors or unwanted changes in "
"the bibliography. Please check carefully!\n"
"It is suggested to install the missing processor."),
from_utf8(cmd), from_utf8(fallback)));
}
return fallback;
}
string const BufferParams::bibtexCommand(bool const warn) const
{
// Return document-specific setting if available
if (bibtex_command != "default")
return getBibtexCommand(bibtex_command, warn);
// 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 getBibtexCommand(lyxrc.bibtex_command, warn);
// 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()]->getCiteFramework() == "biblatex";
}
void BufferParams::invalidateConverterCache() const
{
pimpl_->isExportCacheValid = false;
pimpl_->isViewCacheValid = false;
}
// We shouldn't need to reset the params here, since anything
// we need will be recopied.
void BufferParams::copyForAdvFR(const BufferParams & bp)
{
string const & lang = bp.language->lang();
setLanguage(lang);
quotes_style = bp.quotes_style;
layout_modules_ = bp.layout_modules_;
string const & doc_class = bp.documentClass().name();
setBaseClass(doc_class);
}
void BufferParams::setBibFileEncoding(string const & file, string const & enc)
{
bib_encodings[file] = enc;
}
string const BufferParams::bibFileEncoding(string const & file) const
{
if (bib_encodings.find(file) == bib_encodings.end())
return string();
return bib_encodings.find(file)->second;
}
BufferParams const & defaultBufferParams()
{
static BufferParams default_params;
return default_params;
}
} // namespace lyx