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lyx_mirror/src/tex2lyx/text.cpp

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/**
* \file tex2lyx/text.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author André Pönitz
* \author Jean-Marc Lasgouttes
* \author Uwe Stöhr
*
* Full author contact details are available in file CREDITS.
*/
// {[(
#include <config.h>
#include "tex2lyx.h"
#include "Context.h"
#include "Encoding.h"
#include "FloatList.h"
#include "LaTeXPackages.h"
#include "Layout.h"
#include "Length.h"
#include "Preamble.h"
#include "insets/ExternalTemplate.h"
#include "support/lassert.h"
#include "support/convert.h"
#include "support/FileName.h"
#include "support/filetools.h"
#include "support/lstrings.h"
#include "support/lyxtime.h"
#include <algorithm>
#include <iostream>
#include <map>
#include <sstream>
#include <vector>
using namespace std;
using namespace lyx::support;
namespace lyx {
namespace {
void output_arguments(ostream &, Parser &, bool, bool, bool, Context &,
Layout::LaTeXArgMap const &);
}
void parse_text_in_inset(Parser & p, ostream & os, unsigned flags, bool outer,
Context const & context, InsetLayout const * layout)
{
bool const forcePlainLayout =
layout ? layout->forcePlainLayout() : false;
Context newcontext(true, context.textclass);
if (forcePlainLayout)
newcontext.layout = &context.textclass.plainLayout();
else
newcontext.font = context.font;
if (layout)
output_arguments(os, p, outer, false, false, newcontext,
layout->latexargs());
parse_text(p, os, flags, outer, newcontext);
if (layout)
output_arguments(os, p, outer, false, true, newcontext,
layout->postcommandargs());
newcontext.check_end_layout(os);
}
namespace {
void parse_text_in_inset(Parser & p, ostream & os, unsigned flags, bool outer,
Context const & context, string const & name)
{
InsetLayout const * layout = 0;
DocumentClass::InsetLayouts::const_iterator it =
context.textclass.insetLayouts().find(from_ascii(name));
if (it != context.textclass.insetLayouts().end())
layout = &(it->second);
parse_text_in_inset(p, os, flags, outer, context, layout);
}
/// parses a paragraph snippet, useful for example for \\emph{...}
void parse_text_snippet(Parser & p, ostream & os, unsigned flags, bool outer,
Context & context)
{
Context newcontext(context);
// Don't inherit the paragraph-level extra stuff
newcontext.par_extra_stuff.clear();
parse_text(p, os, flags, outer, newcontext);
// Make sure that we don't create invalid .lyx files
context.need_layout = newcontext.need_layout;
context.need_end_layout = newcontext.need_end_layout;
}
/*!
* Thin wrapper around parse_text_snippet() using a string.
*
* We completely ignore \c context.need_layout and \c context.need_end_layout,
* because our return value is not used directly (otherwise the stream version
* of parse_text_snippet() could be used). That means that the caller needs
* to do layout management manually.
* This is intended to parse text that does not create any layout changes.
*/
string parse_text_snippet(Parser & p, unsigned flags, const bool outer,
Context & context)
{
Context newcontext(context);
newcontext.need_layout = false;
newcontext.need_end_layout = false;
newcontext.new_layout_allowed = false;
// Avoid warning by Context::~Context()
newcontext.par_extra_stuff.clear();
ostringstream os;
parse_text_snippet(p, os, flags, outer, newcontext);
return os.str();
}
string fboxrule = "";
string fboxsep = "";
string shadow_size = "";
bool wasBoxAlign = false;
char const * const known_ref_commands[] = { "ref", "pageref", "vref",
"vpageref", "prettyref", "nameref", "eqref", 0 };
char const * const known_coded_ref_commands[] = { "ref", "pageref", "vref",
"vpageref", "formatted", "nameref", "eqref", 0 };
char const * const known_refstyle_commands[] = { "algref", "chapref", "corref",
"eqref", "enuref", "figref", "fnref", "lemref", "parref", "partref", "propref",
"secref", "subref", "tabref", "thmref", 0 };
char const * const known_refstyle_prefixes[] = { "alg", "chap", "cor",
"eq", "enu", "fig", "fn", "lem", "par", "part", "prop",
"sec", "sub", "tab", "thm", 0 };
/**
* supported CJK encodings
* JIS does not work with LyX's encoding conversion
*/
const char * const supported_CJK_encodings[] = {
"EUC-JP", "KS", "GB", "UTF8",
"Bg5", /*"JIS",*/ "SJIS", 0};
/**
* the same as supported_CJK_encodings with their corresponding LyX language name
* FIXME: The mapping "UTF8" => "chinese-traditional" is only correct for files
* created by LyX.
* NOTE: "Bg5", "JIS" and "SJIS" are not supported by LyX, on re-export the
* encodings "UTF8", "EUC-JP" and "EUC-JP" will be used.
* please keep this in sync with supported_CJK_encodings line by line!
*/
const char * const supported_CJK_languages[] = {
"japanese-cjk", "korean", "chinese-simplified", "chinese-traditional",
"chinese-traditional", /*"japanese-cjk",*/ "japanese-cjk", 0};
/*!
* natbib commands.
* The starred forms are also known except for "citefullauthor",
* "citeyear" and "citeyearpar".
*/
char const * const known_natbib_commands[] = { "cite", "citet", "citep",
"citealt", "citealp", "citeauthor", "citeyear", "citeyearpar",
"citefullauthor", "Citet", "Citep", "Citealt", "Citealp", "Citeauthor", 0 };
/*!
* jurabib commands.
* No starred form other than "cite*" known.
*/
char const * const known_jurabib_commands[] = { "cite", "citet", "citep",
"citealt", "citealp", "citeauthor", "citeyear", "citeyearpar",
// jurabib commands not (yet) supported by LyX:
// "fullcite",
// "footcite", "footcitet", "footcitep", "footcitealt", "footcitealp",
// "footciteauthor", "footciteyear", "footciteyearpar",
"citefield", "citetitle", 0 };
/// LaTeX names for quotes
char const * const known_quotes[] = { "dq", "guillemotleft", "flqq", "og",
"guillemotright", "frqq", "fg", "glq", "glqq", "textquoteleft", "grq", "grqq",
"quotedblbase", "textquotedblleft", "quotesinglbase", "textquoteright", "flq",
"guilsinglleft", "frq", "guilsinglright", 0};
/// the same as known_quotes with .lyx names
char const * const known_coded_quotes[] = { "prd", "ard", "ard", "ard",
"ald", "ald", "ald", "gls", "gld", "els", "els", "grd",
"gld", "grd", "gls", "ers", "fls",
"fls", "frs", "frs", 0};
/// LaTeX names for font sizes
char const * const known_sizes[] = { "tiny", "scriptsize", "footnotesize",
"small", "normalsize", "large", "Large", "LARGE", "huge", "Huge", 0};
/// the same as known_sizes with .lyx names
char const * const known_coded_sizes[] = { "tiny", "scriptsize", "footnotesize",
"small", "normal", "large", "larger", "largest", "huge", "giant", 0};
/// LaTeX 2.09 names for font families
char const * const known_old_font_families[] = { "rm", "sf", "tt", 0};
/// LaTeX names for font families
char const * const known_font_families[] = { "rmfamily", "sffamily",
"ttfamily", 0};
/// LaTeX names for font family changing commands
char const * const known_text_font_families[] = { "textrm", "textsf",
"texttt", 0};
/// The same as known_old_font_families, known_font_families and
/// known_text_font_families with .lyx names
char const * const known_coded_font_families[] = { "roman", "sans",
"typewriter", 0};
/// LaTeX 2.09 names for font series
char const * const known_old_font_series[] = { "bf", 0};
/// LaTeX names for font series
char const * const known_font_series[] = { "bfseries", "mdseries", 0};
/// LaTeX names for font series changing commands
char const * const known_text_font_series[] = { "textbf", "textmd", 0};
/// The same as known_old_font_series, known_font_series and
/// known_text_font_series with .lyx names
char const * const known_coded_font_series[] = { "bold", "medium", 0};
/// LaTeX 2.09 names for font shapes
char const * const known_old_font_shapes[] = { "it", "sl", "sc", 0};
/// LaTeX names for font shapes
char const * const known_font_shapes[] = { "itshape", "slshape", "scshape",
"upshape", 0};
/// LaTeX names for font shape changing commands
char const * const known_text_font_shapes[] = { "textit", "textsl", "textsc",
"textup", 0};
/// The same as known_old_font_shapes, known_font_shapes and
/// known_text_font_shapes with .lyx names
char const * const known_coded_font_shapes[] = { "italic", "slanted",
"smallcaps", "up", 0};
/// Known special characters which need skip_spaces_braces() afterwards
char const * const known_special_chars[] = {"ldots",
"lyxarrow", "textcompwordmark",
"slash", "textasciitilde", "textasciicircum", "textbackslash",
"LyX", "TeX", "LaTeXe",
"LaTeX", 0};
/// special characters from known_special_chars which may have a \\protect before
char const * const known_special_protect_chars[] = {"LyX", "TeX",
"LaTeXe", "LaTeX", 0};
/// the same as known_special_chars with .lyx names
char const * const known_coded_special_chars[] = {"\\SpecialChar ldots\n",
"\\SpecialChar menuseparator\n", "\\SpecialChar ligaturebreak\n",
"\\SpecialChar breakableslash\n", "~", "^", "\n\\backslash\n",
"\\SpecialChar LyX\n", "\\SpecialChar TeX\n", "\\SpecialChar LaTeX2e\n",
"\\SpecialChar LaTeX\n", 0};
/*!
* Graphics file extensions known by the dvips driver of the graphics package.
* These extensions are used to complete the filename of an included
* graphics file if it does not contain an extension.
* The order must be the same that latex uses to find a file, because we
* will use the first extension that matches.
* This is only an approximation for the common cases. If we would want to
* do it right in all cases, we would need to know which graphics driver is
* used and know the extensions of every driver of the graphics package.
*/
char const * const known_dvips_graphics_formats[] = {"eps", "ps", "eps.gz",
"ps.gz", "eps.Z", "ps.Z", 0};
/*!
* Graphics file extensions known by the pdftex driver of the graphics package.
* \sa known_dvips_graphics_formats
*/
char const * const known_pdftex_graphics_formats[] = {"png", "pdf", "jpg",
"mps", "tif", 0};
/*!
* Known file extensions for TeX files as used by \\include.
*/
char const * const known_tex_extensions[] = {"tex", 0};
/// spaces known by InsetSpace
char const * const known_spaces[] = { " ", "space", ",",
"thinspace", "quad", "qquad", "enspace", "enskip",
"negthinspace", "negmedspace", "negthickspace", "textvisiblespace",
"hfill", "dotfill", "hrulefill", "leftarrowfill", "rightarrowfill",
"upbracefill", "downbracefill", 0};
/// the same as known_spaces with .lyx names
char const * const known_coded_spaces[] = { "space{}", "space{}",
"thinspace{}", "thinspace{}", "quad{}", "qquad{}", "enspace{}", "enskip{}",
"negthinspace{}", "negmedspace{}", "negthickspace{}", "textvisiblespace{}",
"hfill{}", "dotfill{}", "hrulefill{}", "leftarrowfill{}", "rightarrowfill{}",
"upbracefill{}", "downbracefill{}", 0};
/// known TIPA combining diacritical marks
char const * const known_tipa_marks[] = {"textsubwedge", "textsubumlaut",
"textsubtilde", "textseagull", "textsubbridge", "textinvsubbridge",
"textsubsquare", "textsubrhalfring", "textsublhalfring", "textsubplus",
"textovercross", "textsubarch", "textsuperimposetilde", "textraising",
"textlowering", "textadvancing", "textretracting", "textdoublegrave",
"texthighrise", "textlowrise", "textrisefall", "textsyllabic",
"textsubring", 0};
/// TIPA tones that need special handling
char const * const known_tones[] = {"15", "51", "45", "12", "454", 0};
// string to store the float type to be able to determine the type of subfloats
string float_type = "";
/// splits "x=z, y=b" into a map and an ordered keyword vector
void split_map(string const & s, map<string, string> & res, vector<string> & keys)
{
vector<string> v;
split(s, v);
res.clear();
keys.resize(v.size());
for (size_t i = 0; i < v.size(); ++i) {
size_t const pos = v[i].find('=');
string const index = trimSpaceAndEol(v[i].substr(0, pos));
string const value = trimSpaceAndEol(v[i].substr(pos + 1, string::npos));
res[index] = value;
keys[i] = index;
}
}
/*!
* Split a LaTeX length into value and unit.
* The latter can be a real unit like "pt", or a latex length variable
* like "\textwidth". The unit may contain additional stuff like glue
* lengths, but we don't care, because such lengths are ERT anyway.
* \returns true if \p value and \p unit are valid.
*/
bool splitLatexLength(string const & len, string & value, string & unit)
{
if (len.empty())
return false;
const string::size_type i = len.find_first_not_of(" -+0123456789.,");
//'4,5' is a valid LaTeX length number. Change it to '4.5'
string const length = subst(len, ',', '.');
if (i == string::npos)
return false;
if (i == 0) {
if (len[0] == '\\') {
// We had something like \textwidth without a factor
value = "1.0";
} else {
return false;
}
} else {
value = trimSpaceAndEol(string(length, 0, i));
}
if (value == "-")
value = "-1.0";
// 'cM' is a valid LaTeX length unit. Change it to 'cm'
if (contains(len, '\\'))
unit = trimSpaceAndEol(string(len, i));
else
unit = ascii_lowercase(trimSpaceAndEol(string(len, i)));
return true;
}
/// A simple function to translate a latex length to something LyX can
/// understand. Not perfect, but rather best-effort.
bool translate_len(string const & length, string & valstring, string & unit)
{
if (!splitLatexLength(length, valstring, unit))
return false;
// LyX uses percent values
double value;
istringstream iss(valstring);
iss >> value;
value *= 100;
ostringstream oss;
oss << value;
string const percentval = oss.str();
// a normal length
if (unit.empty() || unit[0] != '\\')
return true;
string::size_type const i = unit.find(' ');
string const endlen = (i == string::npos) ? string() : string(unit, i);
if (unit == "\\textwidth") {
valstring = percentval;
unit = "text%" + endlen;
} else if (unit == "\\columnwidth") {
valstring = percentval;
unit = "col%" + endlen;
} else if (unit == "\\paperwidth") {
valstring = percentval;
unit = "page%" + endlen;
} else if (unit == "\\linewidth") {
valstring = percentval;
unit = "line%" + endlen;
} else if (unit == "\\paperheight") {
valstring = percentval;
unit = "pheight%" + endlen;
} else if (unit == "\\textheight") {
valstring = percentval;
unit = "theight%" + endlen;
}
return true;
}
}
string translate_len(string const & length)
{
string unit;
string value;
if (translate_len(length, value, unit))
return value + unit;
// If the input is invalid, return what we have.
return length;
}
namespace {
/*!
* Translates a LaTeX length into \p value, \p unit and
* \p special parts suitable for a box inset.
* The difference from translate_len() is that a box inset knows about
* some special "units" that are stored in \p special.
*/
void translate_box_len(string const & length, string & value, string & unit, string & special)
{
if (translate_len(length, value, unit)) {
if (unit == "\\height" || unit == "\\depth" ||
unit == "\\totalheight" || unit == "\\width") {
special = unit.substr(1);
// The unit is not used, but LyX requires a dummy setting
unit = "in";
} else
special = "none";
} else {
value.clear();
unit = length;
special = "none";
}
}
/*!
* Find a file with basename \p name in path \p path and an extension
* in \p extensions.
*/
string find_file(string const & name, string const & path,
char const * const * extensions)
{
for (char const * const * what = extensions; *what; ++what) {
string const trial = addExtension(name, *what);
if (makeAbsPath(trial, path).exists())
return trial;
}
return string();
}
void begin_inset(ostream & os, string const & name)
{
os << "\n\\begin_inset " << name;
}
void begin_command_inset(ostream & os, string const & name,
string const & latexname)
{
begin_inset(os, "CommandInset ");
os << name << "\nLatexCommand " << latexname << '\n';
}
void end_inset(ostream & os)
{
os << "\n\\end_inset\n\n";
}
bool skip_braces(Parser & p)
{
if (p.next_token().cat() != catBegin)
return false;
p.get_token();
if (p.next_token().cat() == catEnd) {
p.get_token();
return true;
}
p.putback();
return false;
}
/// replace LaTeX commands in \p s from the unicodesymbols file with their
/// unicode points
docstring convert_unicodesymbols(docstring s)
{
odocstringstream os;
for (size_t i = 0; i < s.size();) {
if (s[i] != '\\') {
os.put(s[i++]);
continue;
}
s = s.substr(i);
bool termination;
docstring rem;
set<string> req;
docstring parsed = encodings.fromLaTeXCommand(s,
Encodings::TEXT_CMD, termination, rem, &req);
set<string>::const_iterator it = req.begin();
set<string>::const_iterator en = req.end();
for (; it != en; ++it)
preamble.registerAutomaticallyLoadedPackage(*it);
os << parsed;
s = rem;
if (s.empty() || s[0] != '\\')
i = 0;
else
i = 1;
}
return os.str();
}
/// try to convert \p s to a valid InsetCommand argument
string convert_command_inset_arg(string s)
{
if (isAscii(s))
// since we don't know the input encoding we can't use from_utf8
s = to_utf8(convert_unicodesymbols(from_ascii(s)));
// LyX cannot handle newlines in a latex command
return subst(s, "\n", " ");
}
void output_ert(ostream & os, string const & s, Context & context)
{
context.check_layout(os);
for (string::const_iterator it = s.begin(), et = s.end(); it != et; ++it) {
if (*it == '\\')
os << "\n\\backslash\n";
else if (*it == '\n') {
context.new_paragraph(os);
context.check_layout(os);
} else
os << *it;
}
context.check_end_layout(os);
}
void output_ert_inset(ostream & os, string const & s, Context & context)
{
// We must have a valid layout before outputting the ERT inset.
context.check_layout(os);
Context newcontext(true, context.textclass);
InsetLayout const & layout = context.textclass.insetLayout(from_ascii("ERT"));
if (layout.forcePlainLayout())
newcontext.layout = &context.textclass.plainLayout();
begin_inset(os, "ERT");
os << "\nstatus collapsed\n";
output_ert(os, s, newcontext);
end_inset(os);
}
Layout const * findLayout(TextClass const & textclass, string const & name, bool command)
{
Layout const * layout = findLayoutWithoutModule(textclass, name, command);
if (layout)
return layout;
if (checkModule(name, command))
return findLayoutWithoutModule(textclass, name, command);
return layout;
}
InsetLayout const * findInsetLayout(TextClass const & textclass, string const & name, bool command)
{
InsetLayout const * insetlayout = findInsetLayoutWithoutModule(textclass, name, command);
if (insetlayout)
return insetlayout;
if (checkModule(name, command))
return findInsetLayoutWithoutModule(textclass, name, command);
return insetlayout;
}
void eat_whitespace(Parser &, ostream &, Context &, bool);
/*!
* Skips whitespace and braces.
* This should be called after a command has been parsed that is not put into
* ERT, and where LyX adds "{}" if needed.
*/
void skip_spaces_braces(Parser & p, bool keepws = false)
{
/* The following four examples produce the same typeset output and
should be handled by this function:
- abc \j{} xyz
- abc \j {} xyz
- abc \j
{} xyz
- abc \j %comment
{} xyz
*/
// Unfortunately we need to skip comments, too.
// We can't use eat_whitespace since writing them after the {}
// results in different output in some cases.
bool const skipped_spaces = p.skip_spaces(true);
bool const skipped_braces = skip_braces(p);
if (keepws && skipped_spaces && !skipped_braces)
// put back the space (it is better handled by check_space)
p.unskip_spaces(true);
}
void output_arguments(ostream & os, Parser & p, bool outer, bool need_layout, bool post,
Context & context, Layout::LaTeXArgMap const & latexargs)
{
if (need_layout) {
context.check_layout(os);
need_layout = false;
} else
need_layout = true;
int i = 0;
Layout::LaTeXArgMap::const_iterator lait = latexargs.begin();
Layout::LaTeXArgMap::const_iterator const laend = latexargs.end();
for (; lait != laend; ++lait) {
++i;
eat_whitespace(p, os, context, false);
if (lait->second.mandatory) {
if (p.next_token().cat() != catBegin)
break;
p.get_token(); // eat '{'
if (need_layout) {
context.check_layout(os);
need_layout = false;
}
begin_inset(os, "Argument ");
if (post)
os << "post:";
os << i << "\nstatus collapsed\n\n";
parse_text_in_inset(p, os, FLAG_BRACE_LAST, outer, context);
end_inset(os);
} else {
if (p.next_token().cat() == catEscape ||
p.next_token().character() != '[')
continue;
p.get_token(); // eat '['
if (need_layout) {
context.check_layout(os);
need_layout = false;
}
begin_inset(os, "Argument ");
if (post)
os << "post:";
os << i << "\nstatus collapsed\n\n";
parse_text_in_inset(p, os, FLAG_BRACK_LAST, outer, context);
end_inset(os);
}
eat_whitespace(p, os, context, false);
}
}
void output_command_layout(ostream & os, Parser & p, bool outer,
Context & parent_context,
Layout const * newlayout)
{
TeXFont const oldFont = parent_context.font;
// save the current font size
string const size = oldFont.size;
// reset the font size to default, because the font size switches
// don't affect section headings and the like
parent_context.font.size = Context::normalfont.size;
// we only need to write the font change if we have an open layout
if (!parent_context.atParagraphStart())
output_font_change(os, oldFont, parent_context.font);
parent_context.check_end_layout(os);
Context context(true, parent_context.textclass, newlayout,
parent_context.layout, parent_context.font);
if (parent_context.deeper_paragraph) {
// We are beginning a nested environment after a
// deeper paragraph inside the outer list environment.
// Therefore we don't need to output a "begin deeper".
context.need_end_deeper = true;
}
context.check_deeper(os);
output_arguments(os, p, outer, true, false, context,
context.layout->latexargs());
parse_text(p, os, FLAG_ITEM, outer, context);
output_arguments(os, p, outer, false, true, context,
context.layout->postcommandargs());
context.check_end_layout(os);
if (parent_context.deeper_paragraph) {
// We must suppress the "end deeper" because we
// suppressed the "begin deeper" above.
context.need_end_deeper = false;
}
context.check_end_deeper(os);
// We don't need really a new paragraph, but
// we must make sure that the next item gets a \begin_layout.
parent_context.new_paragraph(os);
// Set the font size to the original value. No need to output it here
// (Context::begin_layout() will do that if needed)
parent_context.font.size = size;
}
/*!
* Output a space if necessary.
* This function gets called for every whitespace token.
*
* We have three cases here:
* 1. A space must be suppressed. Example: The lyxcode case below
* 2. A space may be suppressed. Example: Spaces before "\par"
* 3. A space must not be suppressed. Example: A space between two words
*
* We currently handle only 1. and 3 and from 2. only the case of
* spaces before newlines as a side effect.
*
* 2. could be used to suppress as many spaces as possible. This has two effects:
* - Reimporting LyX generated LaTeX files changes almost no whitespace
* - Superflous whitespace from non LyX generated LaTeX files is removed.
* The drawback is that the logic inside the function becomes
* complicated, and that is the reason why it is not implemented.
*/
void check_space(Parser & p, ostream & os, Context & context)
{
Token const next = p.next_token();
Token const curr = p.curr_token();
// A space before a single newline and vice versa must be ignored
// LyX emits a newline before \end{lyxcode}.
// This newline must be ignored,
// otherwise LyX will add an additional protected space.
if (next.cat() == catSpace ||
next.cat() == catNewline ||
(next.cs() == "end" && context.layout->free_spacing && curr.cat() == catNewline)) {
return;
}
context.check_layout(os);
os << ' ';
}
/*!
* Parse all arguments of \p command
*/
void parse_arguments(string const & command,
vector<ArgumentType> const & template_arguments,
Parser & p, ostream & os, bool outer, Context & context)
{
string ert = command;
size_t no_arguments = template_arguments.size();
for (size_t i = 0; i < no_arguments; ++i) {
switch (template_arguments[i]) {
case required:
case req_group:
// This argument contains regular LaTeX
output_ert_inset(os, ert + '{', context);
eat_whitespace(p, os, context, false);
if (template_arguments[i] == required)
parse_text(p, os, FLAG_ITEM, outer, context);
else
parse_text_snippet(p, os, FLAG_ITEM, outer, context);
ert = "}";
break;
case item:
// This argument consists only of a single item.
// The presence of '{' or not must be preserved.
p.skip_spaces();
if (p.next_token().cat() == catBegin)
ert += '{' + p.verbatim_item() + '}';
else
ert += p.verbatim_item();
break;
case displaymath:
case verbatim:
// This argument may contain special characters
ert += '{' + p.verbatim_item() + '}';
break;
case optional:
case opt_group:
// true because we must not eat whitespace
// if an optional arg follows we must not strip the
// brackets from this one
if (i < no_arguments - 1 &&
template_arguments[i+1] == optional)
ert += p.getFullOpt(true);
else
ert += p.getOpt(true);
break;
}
}
output_ert_inset(os, ert, context);
}
/*!
* Check whether \p command is a known command. If yes,
* handle the command with all arguments.
* \return true if the command was parsed, false otherwise.
*/
bool parse_command(string const & command, Parser & p, ostream & os,
bool outer, Context & context)
{
if (known_commands.find(command) != known_commands.end()) {
parse_arguments(command, known_commands[command], p, os,
outer, context);
return true;
}
return false;
}
/// Parses a minipage or parbox
void parse_box(Parser & p, ostream & os, unsigned outer_flags,
unsigned inner_flags, bool outer, Context & parent_context,
string const & outer_type, string const & special,
string inner_type, string const & frame_color,
string const & background_color)
{
string position;
string inner_pos;
string hor_pos = "l";
// We need to set the height to the LaTeX default of 1\\totalheight
// for the case when no height argument is given
string height_value = "1";
string height_unit = "in";
string height_special = "totalheight";
string latex_height;
string width_value;
string width_unit;
string latex_width;
string width_special = "none";
string thickness = "0.4pt";
if (fboxrule != "")
thickness = fboxrule;
else
thickness = "0.4pt";
string separation;
if (fboxsep != "")
separation = fboxsep;
else
separation = "3pt";
string shadowsize;
if (shadow_size != "")
shadowsize = shadow_size;
else
shadowsize = "4pt";
string framecolor = "black";
string backgroundcolor = "none";
if (frame_color != "")
framecolor = frame_color;
if (background_color != "")
backgroundcolor = background_color;
// if there is a color box around the \begin statements have not yet been parsed
// so do this now
if (frame_color != "" || background_color != "") {
eat_whitespace(p, os, parent_context, false);
p.get_token().asInput(); // the '{'
// parse minipage
if (p.next_token().asInput() == "\\begin") {
p.get_token().asInput();
p.getArg('{', '}');
inner_type = "minipage";
inner_flags = FLAG_END;
}
// parse parbox
else if (p.next_token().asInput() == "\\parbox") {
p.get_token().asInput();
inner_type = "parbox";
inner_flags = FLAG_ITEM;
}
// parse makebox
else if (p.next_token().asInput() == "\\makebox") {
p.get_token().asInput();
inner_type = "makebox";
inner_flags = FLAG_ITEM;
}
// in case there is just \colorbox{color}{text}
else {
latex_width = "";
inner_type = "makebox";
inner_flags = FLAG_BRACE_LAST;
position = "t";
inner_pos = "t";
}
}
if (!inner_type.empty() && p.hasOpt()) {
if (inner_type != "makebox")
position = p.getArg('[', ']');
else {
latex_width = p.getArg('[', ']');
translate_box_len(latex_width, width_value, width_unit, width_special);
position = "t";
}
if (position != "t" && position != "c" && position != "b") {
cerr << "invalid position " << position << " for "
<< inner_type << endl;
position = "c";
}
if (p.hasOpt()) {
if (inner_type != "makebox") {
latex_height = p.getArg('[', ']');
translate_box_len(latex_height, height_value, height_unit, height_special);
} else {
string const opt = p.getArg('[', ']');
if (!opt.empty()) {
hor_pos = opt;
if (hor_pos != "l" && hor_pos != "c" &&
hor_pos != "r" && hor_pos != "s") {
cerr << "invalid hor_pos " << hor_pos
<< " for " << inner_type << endl;
hor_pos = "c";
}
}
}
if (p.hasOpt()) {
inner_pos = p.getArg('[', ']');
if (inner_pos != "c" && inner_pos != "t" &&
inner_pos != "b" && inner_pos != "s") {
cerr << "invalid inner_pos "
<< inner_pos << " for "
<< inner_type << endl;
inner_pos = position;
}
}
} else {
if (inner_type == "makebox")
hor_pos = "c";
}
}
if (inner_type.empty()) {
if (special.empty() && outer_type != "framebox")
latex_width = "1\\columnwidth";
else {
Parser p2(special);
latex_width = p2.getArg('[', ']');
string const opt = p2.getArg('[', ']');
if (!opt.empty()) {
hor_pos = opt;
if (hor_pos != "l" && hor_pos != "c" &&
hor_pos != "r" && hor_pos != "s") {
cerr << "invalid hor_pos " << hor_pos
<< " for " << outer_type << endl;
hor_pos = "c";
}
} else {
if (outer_type == "framebox")
hor_pos = "c";
}
}
} else if (inner_type != "makebox")
latex_width = p.verbatim_item();
// if e.g. only \ovalbox{content} was used, set the width to 1\columnwidth
// as this is LyX's standard for such cases (except for makebox)
// \framebox is more special and handled below
if (latex_width.empty() && inner_type != "makebox"
&& outer_type != "framebox")
latex_width = "1\\columnwidth";
translate_len(latex_width, width_value, width_unit);
bool shadedparbox = false;
if (inner_type == "shaded") {
eat_whitespace(p, os, parent_context, false);
if (outer_type == "parbox") {
// Eat '{'
if (p.next_token().cat() == catBegin)
p.get_token();
eat_whitespace(p, os, parent_context, false);
shadedparbox = true;
}
p.get_token();
p.getArg('{', '}');
}
// If we already read the inner box we have to push the inner env
if (!outer_type.empty() && !inner_type.empty() &&
(inner_flags & FLAG_END))
active_environments.push_back(inner_type);
bool use_ert = false;
if (!outer_type.empty() && !inner_type.empty()) {
// Look whether there is some content after the end of the
// inner box, but before the end of the outer box.
// If yes, we need to output ERT.
p.pushPosition();
if (inner_flags & FLAG_END)
p.ertEnvironment(inner_type);
else
p.verbatim_item();
p.skip_spaces(true);
bool const outer_env(outer_type == "framed" || outer_type == "minipage");
if ((outer_env && p.next_token().asInput() != "\\end") ||
(!outer_env && p.next_token().cat() != catEnd)) {
// something is between the end of the inner box and
// the end of the outer box, so we need to use ERT.
use_ert = true;
}
p.popPosition();
}
// if only \makebox{content} was used we can set its width to 1\width
// because this identic and also identic to \mbox
// this doesn't work for \framebox{content}, thus we have to use ERT for this
if (latex_width.empty() && inner_type == "makebox" && background_color == "") {
width_value = "1";
width_unit = "in";
width_special = "width";
} else if (latex_width.empty() && outer_type == "framebox") {
width_value.clear();
width_unit.clear();
width_special = "none";
}
// try to determine the box content alignment
// first handle the simple case of "{\centering..."
if (p.next_token().asInput() == "\\raggedright") {
wasBoxAlign = true;
hor_pos = "l";
} else if (p.next_token().asInput() == "\\centering") {
wasBoxAlign = true;
hor_pos = "c";
} else if (p.next_token().asInput() == "\\raggedleft") {
wasBoxAlign = true;
hor_pos = "r";
} else {
// now handle the cases "{%catNewline\centering..."
// and "{catNewline\centering..."
p.pushPosition();
p.get_token().asInput();
if (p.next_token().cat() == catComment || p.next_token().cat() == catNewline)
p.get_token().asInput();
if (p.next_token().asInput() == "\\raggedright") {
wasBoxAlign = true;
hor_pos = "l";
} else if (p.next_token().asInput() == "\\centering") {
wasBoxAlign = true;
os << "\n sada";
hor_pos = "c";
} else if (p.next_token().asInput() == "\\raggedleft") {
wasBoxAlign = true;
hor_pos = "r";
}
p.popPosition();
}
if (use_ert) {
ostringstream ss;
if (!outer_type.empty()) {
if (outer_flags & FLAG_END)
ss << "\\begin{" << outer_type << '}';
else {
ss << '\\' << outer_type << '{';
if (!special.empty())
ss << special;
}
}
if (!inner_type.empty()) {
if (inner_type != "shaded") {
if (inner_flags & FLAG_END)
ss << "\\begin{" << inner_type << '}';
else
ss << '\\' << inner_type;
}
if (!position.empty())
ss << '[' << position << ']';
if (!latex_height.empty())
ss << '[' << latex_height << ']';
if (!inner_pos.empty())
ss << '[' << inner_pos << ']';
ss << '{' << latex_width << '}';
if (!(inner_flags & FLAG_END))
ss << '{';
}
if (inner_type == "shaded")
ss << "\\begin{shaded}";
output_ert_inset(os, ss.str(), parent_context);
if (!inner_type.empty()) {
parse_text(p, os, inner_flags, outer, parent_context);
if (inner_flags & FLAG_END)
output_ert_inset(os, "\\end{" + inner_type + '}',
parent_context);
else
output_ert_inset(os, "}", parent_context);
}
if (!outer_type.empty()) {
// If we already read the inner box we have to pop
// the inner env
if (!inner_type.empty() && (inner_flags & FLAG_END))
active_environments.pop_back();
// Ensure that the end of the outer box is parsed correctly:
// The opening brace has been eaten by parse_outer_box()
if (!outer_type.empty() && (outer_flags & FLAG_ITEM)) {
outer_flags &= ~FLAG_ITEM;
outer_flags |= FLAG_BRACE_LAST;
}
parse_text(p, os, outer_flags, outer, parent_context);
if (outer_flags & FLAG_END)
output_ert_inset(os, "\\end{" + outer_type + '}',
parent_context);
else
output_ert_inset(os, "}", parent_context);
}
} else {
// LyX does not like empty positions, so we have
// to set them to the LaTeX default values here.
if (position.empty())
position = "c";
if (inner_pos.empty())
inner_pos = position;
parent_context.check_layout(os);
begin_inset(os, "Box ");
if (outer_type == "framed")
os << "Framed\n";
else if (outer_type == "framebox" || outer_type == "fbox" || frame_color != "")
os << "Boxed\n";
else if (outer_type == "shadowbox")
os << "Shadowbox\n";
else if ((outer_type == "shaded" && inner_type.empty()) ||
(outer_type == "minipage" && inner_type == "shaded") ||
(outer_type == "parbox" && inner_type == "shaded")) {
os << "Shaded\n";
preamble.registerAutomaticallyLoadedPackage("color");
} else if (outer_type == "doublebox")
os << "Doublebox\n";
else if (outer_type.empty() || outer_type == "mbox")
os << "Frameless\n";
else
os << outer_type << '\n';
os << "position \"" << position << "\"\n";
os << "hor_pos \"" << hor_pos << "\"\n";
if (outer_type == "mbox")
os << "has_inner_box 1\n";
if (frame_color != "")
os << "has_inner_box 0\n";
else
os << "has_inner_box " << !inner_type.empty() << "\n";
os << "inner_pos \"" << inner_pos << "\"\n";
os << "use_parbox " << (inner_type == "parbox" || shadedparbox)
<< '\n';
if (outer_type == "mbox")
os << "use_makebox 1\n";
if (frame_color != "")
os << "use_makebox 0\n";
else
os << "use_makebox " << (inner_type == "makebox") << '\n';
if (outer_type == "mbox" || (outer_type == "fbox" && inner_type == ""))
os << "width \"\"\n";
// for values like "1.5\width" LyX uses "1.5in" as width ad sets "width" as sepecial
else if (contains(width_unit, '\\'))
os << "width \"" << width_value << "in" << "\"\n";
else
os << "width \"" << width_value << width_unit << "\"\n";
if (contains(width_unit, '\\')) {
width_unit.erase (0,1); // remove the leading '\'
os << "special \"" << width_unit << "\"\n";
} else
os << "special \"" << width_special << "\"\n";
if (contains(height_unit, '\\'))
os << "height \"" << height_value << "in" << "\"\n";
else
os << "height \"" << height_value << height_unit << "\"\n";
os << "height_special \"" << height_special << "\"\n";
os << "thickness \"" << thickness << "\"\n";
os << "separation \"" << separation << "\"\n";
os << "shadowsize \"" << shadowsize << "\"\n";
os << "framecolor \"" << framecolor << "\"\n";
os << "backgroundcolor \"" << backgroundcolor << "\"\n";
os << "status open\n\n";
// Unfortunately we can't use parse_text_in_inset:
// InsetBox::forcePlainLayout() is hard coded and does not
// use the inset layout. Apart from that do we call parse_text
// up to two times, but need only one check_end_layout.
bool const forcePlainLayout =
(!inner_type.empty() || inner_type == "makebox") &&
outer_type != "shaded" && outer_type != "framed";
Context context(true, parent_context.textclass);
if (forcePlainLayout)
context.layout = &context.textclass.plainLayout();
else
context.font = parent_context.font;
// If we have no inner box the contents will be read with the outer box
if (!inner_type.empty())
parse_text(p, os, inner_flags, outer, context);
// Ensure that the end of the outer box is parsed correctly:
// The opening brace has been eaten by parse_outer_box()
if (!outer_type.empty() && (outer_flags & FLAG_ITEM)) {
outer_flags &= ~FLAG_ITEM;
outer_flags |= FLAG_BRACE_LAST;
}
// Find end of outer box, output contents if inner_type is
// empty and output possible comments
if (!outer_type.empty()) {
// If we already read the inner box we have to pop
// the inner env
if (!inner_type.empty() && (inner_flags & FLAG_END))
active_environments.pop_back();
// This does not output anything but comments if
// inner_type is not empty (see use_ert)
parse_text(p, os, outer_flags, outer, context);
}
context.check_end_layout(os);
end_inset(os);
#ifdef PRESERVE_LAYOUT
// LyX puts a % after the end of the minipage
if (p.next_token().cat() == catNewline && p.next_token().cs().size() > 1) {
// new paragraph
//output_ert_inset(os, "%dummy", parent_context);
p.get_token();
p.skip_spaces();
parent_context.new_paragraph(os);
}
else if (p.next_token().cat() == catSpace || p.next_token().cat() == catNewline) {
//output_ert_inset(os, "%dummy", parent_context);
p.get_token();
p.skip_spaces();
// We add a protected space if something real follows
if (p.good() && p.next_token().cat() != catComment) {
begin_inset(os, "space ~\n");
end_inset(os);
}
}
#endif
}
if (inner_flags != FLAG_BRACE_LAST && (frame_color != "" || background_color != "")) {
// in this case we have to eat the the closing brace of the color box
p.get_token().asInput(); // the '}'
}
if (p.next_token().asInput() == "}"
&& (fboxrule != "" || fboxsep != "" || shadow_size != "")) {
// in this case we assume that the closing brace is from the box settings
// therefore reset these values for the next box
fboxrule = "";
fboxsep = "";
shadow_size = "";
}
// all boxes except of Frameless and Shaded require calc
if (!(outer_type.empty() || outer_type == "mbox") &&
!((outer_type == "shaded" && inner_type.empty()) ||
(outer_type == "minipage" && inner_type == "shaded") ||
(outer_type == "parbox" && inner_type == "shaded")))
preamble.registerAutomaticallyLoadedPackage("calc");
}
void parse_outer_box(Parser & p, ostream & os, unsigned flags, bool outer,
Context & parent_context, string const & outer_type,
string const & special)
{
eat_whitespace(p, os, parent_context, false);
if (flags & FLAG_ITEM) {
// Eat '{'
if (p.next_token().cat() == catBegin)
p.get_token();
else
cerr << "Warning: Ignoring missing '{' after \\"
<< outer_type << '.' << endl;
eat_whitespace(p, os, parent_context, false);
}
string inner;
unsigned int inner_flags = 0;
p.pushPosition();
if (outer_type == "minipage" || outer_type == "parbox") {
p.skip_spaces(true);
while (p.hasOpt()) {
p.getArg('[', ']');
p.skip_spaces(true);
}
p.getArg('{', '}');
p.skip_spaces(true);
if (outer_type == "parbox") {
// Eat '{'
if (p.next_token().cat() == catBegin)
p.get_token();
p.skip_spaces(true);
}
}
if (outer_type == "shaded" || outer_type == "mbox") {
// These boxes never have an inner box
;
} else if (p.next_token().asInput() == "\\parbox") {
inner = p.get_token().cs();
inner_flags = FLAG_ITEM;
} else if (p.next_token().asInput() == "\\begin") {
// Is this a minipage or shaded box?
p.pushPosition();
p.get_token();
inner = p.getArg('{', '}');
p.popPosition();
if (inner == "minipage" || inner == "shaded")
inner_flags = FLAG_END;
else
inner = "";
}
p.popPosition();
if (inner_flags == FLAG_END) {
if (inner != "shaded")
{
p.get_token();
p.getArg('{', '}');
eat_whitespace(p, os, parent_context, false);
}
parse_box(p, os, flags, FLAG_END, outer, parent_context,
outer_type, special, inner, "", "");
} else {
if (inner_flags == FLAG_ITEM) {
p.get_token();
eat_whitespace(p, os, parent_context, false);
}
parse_box(p, os, flags, inner_flags, outer, parent_context,
outer_type, special, inner, "", "");
}
}
void parse_listings(Parser & p, ostream & os, Context & parent_context, bool in_line)
{
parent_context.check_layout(os);
begin_inset(os, "listings\n");
if (p.hasOpt()) {
string arg = p.verbatimOption();
os << "lstparams " << '"' << arg << '"' << '\n';
if (arg.find("\\color") != string::npos)
preamble.registerAutomaticallyLoadedPackage("color");
}
if (in_line)
os << "inline true\n";
else
os << "inline false\n";
os << "status collapsed\n";
Context context(true, parent_context.textclass);
context.layout = &parent_context.textclass.plainLayout();
string s;
if (in_line) {
// set catcodes to verbatim early, just in case.
p.setCatcodes(VERBATIM_CATCODES);
string delim = p.get_token().asInput();
//FIXME: handler error condition
s = p.verbatimStuff(delim).second;
// context.new_paragraph(os);
} else
s = p.verbatimEnvironment("lstlisting");
output_ert(os, s, context);
end_inset(os);
}
/// parse an unknown environment
void parse_unknown_environment(Parser & p, string const & name, ostream & os,
unsigned flags, bool outer,
Context & parent_context)
{
if (name == "tabbing")
// We need to remember that we have to handle '\=' specially
flags |= FLAG_TABBING;
// We need to translate font changes and paragraphs inside the
// environment to ERT if we have a non standard font.
// Otherwise things like
// \large\begin{foo}\huge bar\end{foo}
// will not work.
bool const specialfont =
(parent_context.font != parent_context.normalfont);
bool const new_layout_allowed = parent_context.new_layout_allowed;
if (specialfont)
parent_context.new_layout_allowed = false;
output_ert_inset(os, "\\begin{" + name + "}", parent_context);
parse_text_snippet(p, os, flags, outer, parent_context);
output_ert_inset(os, "\\end{" + name + "}", parent_context);
if (specialfont)
parent_context.new_layout_allowed = new_layout_allowed;
}
void parse_environment(Parser & p, ostream & os, bool outer,
string & last_env, Context & parent_context)
{
Layout const * newlayout;
InsetLayout const * newinsetlayout = 0;
string const name = p.getArg('{', '}');
const bool is_starred = suffixIs(name, '*');
string const unstarred_name = rtrim(name, "*");
active_environments.push_back(name);
if (is_math_env(name)) {
parent_context.check_layout(os);
begin_inset(os, "Formula ");
os << "\\begin{" << name << "}";
parse_math(p, os, FLAG_END, MATH_MODE);
os << "\\end{" << name << "}";
end_inset(os);
if (is_display_math_env(name)) {
// Prevent the conversion of a line break to a space
// (bug 7668). This does not change the output, but
// looks ugly in LyX.
eat_whitespace(p, os, parent_context, false);
}
}
else if (is_known(name, preamble.polyglossia_languages)) {
// We must begin a new paragraph if not already done
if (! parent_context.atParagraphStart()) {
parent_context.check_end_layout(os);
parent_context.new_paragraph(os);
}
// save the language in the context so that it is
// handled by parse_text
parent_context.font.language = preamble.polyglossia2lyx(name);
parse_text(p, os, FLAG_END, outer, parent_context);
// Just in case the environment is empty
parent_context.extra_stuff.erase();
// We must begin a new paragraph to reset the language
parent_context.new_paragraph(os);
p.skip_spaces();
}
else if (unstarred_name == "tabular" || name == "longtable") {
eat_whitespace(p, os, parent_context, false);
string width = "0pt";
if (name == "tabular*") {
width = lyx::translate_len(p.getArg('{', '}'));
eat_whitespace(p, os, parent_context, false);
}
parent_context.check_layout(os);
begin_inset(os, "Tabular ");
handle_tabular(p, os, name, width, parent_context);
end_inset(os);
p.skip_spaces();
}
else if (parent_context.textclass.floats().typeExist(unstarred_name)) {
eat_whitespace(p, os, parent_context, false);
string const opt = p.hasOpt() ? p.getArg('[', ']') : string();
eat_whitespace(p, os, parent_context, false);
parent_context.check_layout(os);
begin_inset(os, "Float " + unstarred_name + "\n");
// store the float type for subfloats
// subfloats only work with figures and tables
if (unstarred_name == "figure")
float_type = unstarred_name;
else if (unstarred_name == "table")
float_type = unstarred_name;
else
float_type = "";
if (!opt.empty())
os << "placement " << opt << '\n';
if (contains(opt, "H"))
preamble.registerAutomaticallyLoadedPackage("float");
else {
Floating const & fl = parent_context.textclass.floats()
.getType(unstarred_name);
if (!fl.floattype().empty() && fl.usesFloatPkg())
preamble.registerAutomaticallyLoadedPackage("float");
}
os << "wide " << convert<string>(is_starred)
<< "\nsideways false"
<< "\nstatus open\n\n";
parse_text_in_inset(p, os, FLAG_END, outer, parent_context);
end_inset(os);
// We don't need really a new paragraph, but
// we must make sure that the next item gets a \begin_layout.
parent_context.new_paragraph(os);
p.skip_spaces();
// the float is parsed thus delete the type
float_type = "";
}
else if (unstarred_name == "sidewaysfigure"
|| unstarred_name == "sidewaystable") {
eat_whitespace(p, os, parent_context, false);
parent_context.check_layout(os);
if (unstarred_name == "sidewaysfigure")
begin_inset(os, "Float figure\n");
else
begin_inset(os, "Float table\n");
os << "wide " << convert<string>(is_starred)
<< "\nsideways true"
<< "\nstatus open\n\n";
parse_text_in_inset(p, os, FLAG_END, outer, parent_context);
end_inset(os);
// We don't need really a new paragraph, but
// we must make sure that the next item gets a \begin_layout.
parent_context.new_paragraph(os);
p.skip_spaces();
preamble.registerAutomaticallyLoadedPackage("rotfloat");
}
else if (name == "wrapfigure" || name == "wraptable") {
// syntax is \begin{wrapfigure}[lines]{placement}[overhang]{width}
eat_whitespace(p, os, parent_context, false);
parent_context.check_layout(os);
// default values
string lines = "0";
string overhang = "0col%";
// parse
if (p.hasOpt())
lines = p.getArg('[', ']');
string const placement = p.getArg('{', '}');
if (p.hasOpt())
overhang = p.getArg('[', ']');
string const width = p.getArg('{', '}');
// write
if (name == "wrapfigure")
begin_inset(os, "Wrap figure\n");
else
begin_inset(os, "Wrap table\n");
os << "lines " << lines
<< "\nplacement " << placement
<< "\noverhang " << lyx::translate_len(overhang)
<< "\nwidth " << lyx::translate_len(width)
<< "\nstatus open\n\n";
parse_text_in_inset(p, os, FLAG_END, outer, parent_context);
end_inset(os);
// We don't need really a new paragraph, but
// we must make sure that the next item gets a \begin_layout.
parent_context.new_paragraph(os);
p.skip_spaces();
preamble.registerAutomaticallyLoadedPackage("wrapfig");
}
else if (name == "minipage") {
eat_whitespace(p, os, parent_context, false);
// Test whether this is an outer box of a shaded box
p.pushPosition();
// swallow arguments
while (p.hasOpt()) {
p.getArg('[', ']');
p.skip_spaces(true);
}
p.getArg('{', '}');
p.skip_spaces(true);
Token t = p.get_token();
bool shaded = false;
if (t.asInput() == "\\begin") {
p.skip_spaces(true);
if (p.getArg('{', '}') == "shaded")
shaded = true;
}
p.popPosition();
if (shaded)
parse_outer_box(p, os, FLAG_END, outer,
parent_context, name, "shaded");
else
parse_box(p, os, 0, FLAG_END, outer, parent_context,
"", "", name, "", "");
p.skip_spaces();
}
else if (name == "comment") {
eat_whitespace(p, os, parent_context, false);
parent_context.check_layout(os);
begin_inset(os, "Note Comment\n");
os << "status open\n";
parse_text_in_inset(p, os, FLAG_END, outer, parent_context);
end_inset(os);
p.skip_spaces();
skip_braces(p); // eat {} that might by set by LyX behind comments
preamble.registerAutomaticallyLoadedPackage("verbatim");
}
else if (name == "verbatim") {
// FIXME: this should go in the generic code that
// handles environments defined in layout file that
// have "PassThru 1". However, the code over there is
// already too complicated for my taste.
parent_context.new_paragraph(os);
Context context(true, parent_context.textclass,
&parent_context.textclass[from_ascii("Verbatim")]);
string s = p.verbatimEnvironment("verbatim");
output_ert(os, s, context);
p.skip_spaces();
}
else if (name == "IPA") {
eat_whitespace(p, os, parent_context, false);
parent_context.check_layout(os);
begin_inset(os, "IPA\n");
parse_text_in_inset(p, os, FLAG_END, outer, parent_context);
end_inset(os);
p.skip_spaces();
preamble.registerAutomaticallyLoadedPackage("tipa");
preamble.registerAutomaticallyLoadedPackage("tipx");
}
else if (name == "CJK") {
// the scheme is \begin{CJK}{encoding}{mapping}text\end{CJK}
// It is impossible to decide if a CJK environment was in its own paragraph or within
// a line. We therefore always assume a paragraph since the latter is a rare case.
eat_whitespace(p, os, parent_context, false);
parent_context.check_end_layout(os);
// store the encoding to be able to reset it
string const encoding_old = p.getEncoding();
string const encoding = p.getArg('{', '}');
// FIXME: For some reason JIS does not work. Although the text
// in tests/CJK.tex is identical with the SJIS version if you
// convert both snippets using the recode command line utility,
// the resulting .lyx file contains some extra characters if
// you set buggy_encoding to false for JIS.
bool const buggy_encoding = encoding == "JIS";
if (!buggy_encoding)
p.setEncoding(encoding, Encoding::CJK);
else {
// FIXME: This will read garbage, since the data is not encoded in utf8.
p.setEncoding("UTF-8");
}
// LyX only supports the same mapping for all CJK
// environments, so we might need to output everything as ERT
string const mapping = trim(p.getArg('{', '}'));
char const * const * const where =
is_known(encoding, supported_CJK_encodings);
if (!buggy_encoding && !preamble.fontCJKSet())
preamble.fontCJK(mapping);
bool knownMapping = mapping == preamble.fontCJK();
if (buggy_encoding || !knownMapping || !where) {
parent_context.check_layout(os);
output_ert_inset(os, "\\begin{" + name + "}{" + encoding + "}{" + mapping + "}",
parent_context);
// we must parse the content as verbatim because e.g. JIS can contain
// normally invalid characters
// FIXME: This works only for the most simple cases.
// Since TeX control characters are not parsed,
// things like comments are completely wrong.
string const s = p.plainEnvironment("CJK");
for (string::const_iterator it = s.begin(), et = s.end(); it != et; ++it) {
if (*it == '\\')
output_ert_inset(os, "\\", parent_context);
else if (*it == '$')
output_ert_inset(os, "$", parent_context);
else if (*it == '\n' && it + 1 != et && s.begin() + 1 != it)
os << "\n ";
else
os << *it;
}
output_ert_inset(os, "\\end{" + name + "}",
parent_context);
} else {
string const lang =
supported_CJK_languages[where - supported_CJK_encodings];
// store the language because we must reset it at the end
string const lang_old = parent_context.font.language;
parent_context.font.language = lang;
parse_text_in_inset(p, os, FLAG_END, outer, parent_context);
parent_context.font.language = lang_old;
parent_context.new_paragraph(os);
}
p.setEncoding(encoding_old);
p.skip_spaces();
}
else if (name == "lyxgreyedout") {
eat_whitespace(p, os, parent_context, false);
parent_context.check_layout(os);
begin_inset(os, "Note Greyedout\n");
os << "status open\n";
parse_text_in_inset(p, os, FLAG_END, outer, parent_context);
end_inset(os);
p.skip_spaces();
if (!preamble.notefontcolor().empty())
preamble.registerAutomaticallyLoadedPackage("color");
}
else if (name == "btSect") {
eat_whitespace(p, os, parent_context, false);
parent_context.check_layout(os);
begin_command_inset(os, "bibtex", "bibtex");
string bibstyle = "plain";
if (p.hasOpt()) {
bibstyle = p.getArg('[', ']');
p.skip_spaces(true);
}
string const bibfile = p.getArg('{', '}');
eat_whitespace(p, os, parent_context, false);
Token t = p.get_token();
if (t.asInput() == "\\btPrintCited") {
p.skip_spaces(true);
os << "btprint " << '"' << "btPrintCited" << '"' << "\n";
}
if (t.asInput() == "\\btPrintNotCited") {
p.skip_spaces(true);
os << "btprint " << '"' << "btPrintNotCited" << '"' << "\n";
}
if (t.asInput() == "\\btPrintAll") {
p.skip_spaces(true);
os << "btprint " << '"' << "btPrintAll" << '"' << "\n";
}
os << "bibfiles " << '"' << bibfile << '"' << "\n";
os << "options " << '"' << bibstyle << '"' << "\n";
parse_text_in_inset(p, os, FLAG_END, outer, parent_context);
end_inset(os);
p.skip_spaces();
}
else if (name == "framed" || name == "shaded") {
eat_whitespace(p, os, parent_context, false);
parse_outer_box(p, os, FLAG_END, outer, parent_context, name, "");
p.skip_spaces();
preamble.registerAutomaticallyLoadedPackage("framed");
}
else if (name == "lstlisting") {
eat_whitespace(p, os, parent_context, false);
parse_listings(p, os, parent_context, false);
p.skip_spaces();
}
else if (!parent_context.new_layout_allowed)
parse_unknown_environment(p, name, os, FLAG_END, outer,
parent_context);
// Alignment and spacing settings
// FIXME (bug xxxx): These settings can span multiple paragraphs and
// therefore are totally broken!
// Note that \centering, raggedright, and raggedleft cannot be handled, as
// they are commands not environments. They are furthermore switches that
// can be ended by another switches, but also by commands like \footnote or
// \parbox. So the only safe way is to leave them untouched.
else if (name == "center" || name == "centering" ||
name == "flushleft" || name == "flushright" ||
name == "singlespace" || name == "onehalfspace" ||
name == "doublespace" || name == "spacing") {
eat_whitespace(p, os, parent_context, false);
// We must begin a new paragraph if not already done
if (! parent_context.atParagraphStart()) {
parent_context.check_end_layout(os);
parent_context.new_paragraph(os);
}
if (name == "flushleft")
parent_context.add_extra_stuff("\\align left\n");
else if (name == "flushright")
parent_context.add_extra_stuff("\\align right\n");
else if (name == "center" || name == "centering")
parent_context.add_extra_stuff("\\align center\n");
else if (name == "singlespace")
parent_context.add_extra_stuff("\\paragraph_spacing single\n");
else if (name == "onehalfspace") {
parent_context.add_extra_stuff("\\paragraph_spacing onehalf\n");
preamble.registerAutomaticallyLoadedPackage("setspace");
} else if (name == "doublespace") {
parent_context.add_extra_stuff("\\paragraph_spacing double\n");
preamble.registerAutomaticallyLoadedPackage("setspace");
} else if (name == "spacing") {
parent_context.add_extra_stuff("\\paragraph_spacing other " + p.verbatim_item() + "\n");
preamble.registerAutomaticallyLoadedPackage("setspace");
}
parse_text(p, os, FLAG_END, outer, parent_context);
// Just in case the environment is empty
parent_context.extra_stuff.erase();
// We must begin a new paragraph to reset the alignment
parent_context.new_paragraph(os);
p.skip_spaces();
}
// The single '=' is meant here.
else if ((newlayout = findLayout(parent_context.textclass, name, false))) {
eat_whitespace(p, os, parent_context, false);
Context context(true, parent_context.textclass, newlayout,
parent_context.layout, parent_context.font);
if (parent_context.deeper_paragraph) {
// We are beginning a nested environment after a
// deeper paragraph inside the outer list environment.
// Therefore we don't need to output a "begin deeper".
context.need_end_deeper = true;
}
parent_context.check_end_layout(os);
if (last_env == name) {
// we need to output a separator since LyX would export
// the two environments as one otherwise (bug 5716)
TeX2LyXDocClass const & textclass(parent_context.textclass);
Context newcontext(true, textclass,
&(textclass.defaultLayout()));
newcontext.check_layout(os);
begin_inset(os, "Separator plain\n");
end_inset(os);
newcontext.check_end_layout(os);
}
switch (context.layout->latextype) {
case LATEX_LIST_ENVIRONMENT:
context.add_par_extra_stuff("\\labelwidthstring "
+ p.verbatim_item() + '\n');
p.skip_spaces();
break;
case LATEX_BIB_ENVIRONMENT:
p.verbatim_item(); // swallow next arg
p.skip_spaces();
break;
default:
break;
}
context.check_deeper(os);
// handle known optional and required arguments
// Unfortunately LyX can't handle arguments of list arguments (bug 7468):
// It is impossible to place anything after the environment name,
// but before the first \\item.
if (context.layout->latextype == LATEX_ENVIRONMENT)
output_arguments(os, p, outer, false, false, context,
context.layout->latexargs());
parse_text(p, os, FLAG_END, outer, context);
if (context.layout->latextype == LATEX_ENVIRONMENT)
output_arguments(os, p, outer, false, true, context,
context.layout->postcommandargs());
context.check_end_layout(os);
if (parent_context.deeper_paragraph) {
// We must suppress the "end deeper" because we
// suppressed the "begin deeper" above.
context.need_end_deeper = false;
}
context.check_end_deeper(os);
parent_context.new_paragraph(os);
p.skip_spaces();
if (!preamble.titleLayoutFound())
preamble.titleLayoutFound(newlayout->intitle);
set<string> const & req = newlayout->requires();
set<string>::const_iterator it = req.begin();
set<string>::const_iterator en = req.end();
for (; it != en; ++it)
preamble.registerAutomaticallyLoadedPackage(*it);
}
// The single '=' is meant here.
else if ((newinsetlayout = findInsetLayout(parent_context.textclass, name, false))) {
eat_whitespace(p, os, parent_context, false);
parent_context.check_layout(os);
begin_inset(os, "Flex ");
os << to_utf8(newinsetlayout->name()) << '\n'
<< "status collapsed\n";
if (newinsetlayout->isPassThru()) {
string const arg = p.verbatimEnvironment(name);
Context context(true, parent_context.textclass,
&parent_context.textclass.plainLayout(),
parent_context.layout);
output_ert(os, arg, parent_context);
} else
parse_text_in_inset(p, os, FLAG_END, false, parent_context, newinsetlayout);
end_inset(os);
}
else if (name == "appendix") {
// This is no good latex style, but it works and is used in some documents...
eat_whitespace(p, os, parent_context, false);
parent_context.check_end_layout(os);
Context context(true, parent_context.textclass, parent_context.layout,
parent_context.layout, parent_context.font);
context.check_layout(os);
os << "\\start_of_appendix\n";
parse_text(p, os, FLAG_END, outer, context);
context.check_end_layout(os);
p.skip_spaces();
}
else if (known_environments.find(name) != known_environments.end()) {
vector<ArgumentType> arguments = known_environments[name];
// The last "argument" denotes wether we may translate the
// environment contents to LyX
// The default required if no argument is given makes us
// compatible with the reLyXre environment.
ArgumentType contents = arguments.empty() ?
required :
arguments.back();
if (!arguments.empty())
arguments.pop_back();
// See comment in parse_unknown_environment()
bool const specialfont =
(parent_context.font != parent_context.normalfont);
bool const new_layout_allowed =
parent_context.new_layout_allowed;
if (specialfont)
parent_context.new_layout_allowed = false;
parse_arguments("\\begin{" + name + "}", arguments, p, os,
outer, parent_context);
if (contents == verbatim)
output_ert_inset(os, p.ertEnvironment(name),
parent_context);
else
parse_text_snippet(p, os, FLAG_END, outer,
parent_context);
output_ert_inset(os, "\\end{" + name + "}", parent_context);
if (specialfont)
parent_context.new_layout_allowed = new_layout_allowed;
}
else
parse_unknown_environment(p, name, os, FLAG_END, outer,
parent_context);
last_env = name;
active_environments.pop_back();
}
/// parses a comment and outputs it to \p os.
void parse_comment(Parser & p, ostream & os, Token const & t, Context & context)
{
LASSERT(t.cat() == catComment, return);
if (!t.cs().empty()) {
context.check_layout(os);
output_ert_inset(os, '%' + t.cs(), context);
if (p.next_token().cat() == catNewline) {
// A newline after a comment line starts a new
// paragraph
if (context.new_layout_allowed) {
if(!context.atParagraphStart())
// Only start a new paragraph if not already
// done (we might get called recursively)
context.new_paragraph(os);
} else
output_ert_inset(os, "\n", context);
eat_whitespace(p, os, context, true);
}
} else {
// "%\n" combination
p.skip_spaces();
}
}
/*!
* Reads spaces and comments until the first non-space, non-comment token.
* New paragraphs (double newlines or \\par) are handled like simple spaces
* if \p eatParagraph is true.
* Spaces are skipped, but comments are written to \p os.
*/
void eat_whitespace(Parser & p, ostream & os, Context & context,
bool eatParagraph)
{
while (p.good()) {
Token const & t = p.get_token();
if (t.cat() == catComment)
parse_comment(p, os, t, context);
else if ((! eatParagraph && p.isParagraph()) ||
(t.cat() != catSpace && t.cat() != catNewline)) {
p.putback();
return;
}
}
}
/*!
* Set a font attribute, parse text and reset the font attribute.
* \param attribute Attribute name (e.g. \\family, \\shape etc.)
* \param currentvalue Current value of the attribute. Is set to the new
* value during parsing.
* \param newvalue New value of the attribute
*/
void parse_text_attributes(Parser & p, ostream & os, unsigned flags, bool outer,
Context & context, string const & attribute,
string & currentvalue, string const & newvalue)
{
context.check_layout(os);
string const oldvalue = currentvalue;
currentvalue = newvalue;
os << '\n' << attribute << ' ' << newvalue << "\n";
parse_text_snippet(p, os, flags, outer, context);
context.check_layout(os);
os << '\n' << attribute << ' ' << oldvalue << "\n";
currentvalue = oldvalue;
}
/// get the arguments of a natbib or jurabib citation command
void get_cite_arguments(Parser & p, bool natbibOrder,
string & before, string & after)
{
// We need to distinguish "" and "[]", so we can't use p.getOpt().
// text before the citation
before.clear();
// text after the citation
after = p.getFullOpt();
if (!after.empty()) {
before = p.getFullOpt();
if (natbibOrder && !before.empty())
swap(before, after);
}
}
/// Convert filenames with TeX macros and/or quotes to something LyX
/// can understand
string const normalize_filename(string const & name)
{
Parser p(name);
ostringstream os;
while (p.good()) {
Token const & t = p.get_token();
if (t.cat() != catEscape)
os << t.asInput();
else if (t.cs() == "lyxdot") {
// This is used by LyX for simple dots in relative
// names
os << '.';
p.skip_spaces();
} else if (t.cs() == "space") {
os << ' ';
p.skip_spaces();
} else if (t.cs() == "string") {
// Convert \string" to " and \string~ to ~
Token const & n = p.next_token();
if (n.asInput() != "\"" && n.asInput() != "~")
os << t.asInput();
} else
os << t.asInput();
}
// Strip quotes. This is a bit complicated (see latex_path()).
string full = os.str();
if (!full.empty() && full[0] == '"') {
string base = removeExtension(full);
string ext = getExtension(full);
if (!base.empty() && base[base.length()-1] == '"')
// "a b"
// "a b".tex
return addExtension(trim(base, "\""), ext);
if (full[full.length()-1] == '"')
// "a b.c"
// "a b.c".tex
return trim(full, "\"");
}
return full;
}
/// Convert \p name from TeX convention (relative to master file) to LyX
/// convention (relative to .lyx file) if it is relative
void fix_child_filename(string & name)
{
string const absMasterTeX = getMasterFilePath(true);
bool const isabs = FileName::isAbsolute(name);
// convert from "relative to .tex master" to absolute original path
if (!isabs)
name = makeAbsPath(name, absMasterTeX).absFileName();
bool copyfile = copyFiles();
string const absParentLyX = getParentFilePath(false);
string abs = name;
if (copyfile) {
// convert from absolute original path to "relative to master file"
string const rel = to_utf8(makeRelPath(from_utf8(name),
from_utf8(absMasterTeX)));
// re-interpret "relative to .tex file" as "relative to .lyx file"
// (is different if the master .lyx file resides in a
// different path than the master .tex file)
string const absMasterLyX = getMasterFilePath(false);
abs = makeAbsPath(rel, absMasterLyX).absFileName();
// Do not copy if the new path is impossible to create. Example:
// absMasterTeX = "/foo/bar/"
// absMasterLyX = "/bar/"
// name = "/baz.eps" => new absolute name would be "/../baz.eps"
if (contains(name, "/../"))
copyfile = false;
}
if (copyfile) {
if (isabs)
name = abs;
else {
// convert from absolute original path to
// "relative to .lyx file"
name = to_utf8(makeRelPath(from_utf8(abs),
from_utf8(absParentLyX)));
}
}
else if (!isabs) {
// convert from absolute original path to "relative to .lyx file"
name = to_utf8(makeRelPath(from_utf8(name),
from_utf8(absParentLyX)));
}
}
void copy_file(FileName const & src, string dstname)
{
if (!copyFiles())
return;
string const absParent = getParentFilePath(false);
FileName dst;
if (FileName::isAbsolute(dstname))
dst = FileName(dstname);
else
dst = makeAbsPath(dstname, absParent);
string const absMaster = getMasterFilePath(false);
FileName const srcpath = src.onlyPath();
FileName const dstpath = dst.onlyPath();
if (equivalent(srcpath, dstpath))
return;
if (!dstpath.isDirectory()) {
if (!dstpath.createPath()) {
cerr << "Warning: Could not create directory for file `"
<< dst.absFileName() << "´." << endl;
return;
}
}
if (dst.isReadableFile()) {
if (overwriteFiles())
cerr << "Warning: Overwriting existing file `"
<< dst.absFileName() << "´." << endl;
else {
cerr << "Warning: Not overwriting existing file `"
<< dst.absFileName() << "´." << endl;
return;
}
}
if (!src.copyTo(dst))
cerr << "Warning: Could not copy file `" << src.absFileName()
<< "´ to `" << dst.absFileName() << "´." << endl;
}
/// Parse a literate Chunk section. The initial "<<" is already parsed.
bool parse_chunk(Parser & p, ostream & os, Context & context)
{
// check whether a chunk is possible here.
if (!context.textclass.hasInsetLayout(from_ascii("Flex:Chunk"))) {
return false;
}
p.pushPosition();
// read the parameters
Parser::Arg const params = p.verbatimStuff(">>=\n", false);
if (!params.first) {
p.popPosition();
return false;
}
Parser::Arg const code = p.verbatimStuff("\n@");
if (!code.first) {
p.popPosition();
return false;
}
string const post_chunk = p.verbatimStuff("\n").second + '\n';
if (post_chunk[0] != ' ' && post_chunk[0] != '\n') {
p.popPosition();
return false;
}
// The last newline read is important for paragraph handling
p.putback();
p.deparse();
//cerr << "params=[" << params.second << "], code=[" << code.second << "]" <<endl;
// We must have a valid layout before outputting the Chunk inset.
context.check_layout(os);
Context chunkcontext(true, context.textclass);
chunkcontext.layout = &context.textclass.plainLayout();
begin_inset(os, "Flex Chunk");
os << "\nstatus open\n";
if (!params.second.empty()) {
chunkcontext.check_layout(os);
Context paramscontext(true, context.textclass);
paramscontext.layout = &context.textclass.plainLayout();
begin_inset(os, "Argument 1");
os << "\nstatus open\n";
output_ert(os, params.second, paramscontext);
end_inset(os);
}
output_ert(os, code.second, chunkcontext);
end_inset(os);
p.dropPosition();
return true;
}
/// detects \\def, \\long\\def and \\global\\long\\def with ws and comments
bool is_macro(Parser & p)
{
Token first = p.curr_token();
if (first.cat() != catEscape || !p.good())
return false;
if (first.cs() == "def")
return true;
if (first.cs() != "global" && first.cs() != "long")
return false;
Token second = p.get_token();
int pos = 1;
while (p.good() && !p.isParagraph() && (second.cat() == catSpace ||
second.cat() == catNewline || second.cat() == catComment)) {
second = p.get_token();
pos++;
}
bool secondvalid = second.cat() == catEscape;
Token third;
bool thirdvalid = false;
if (p.good() && first.cs() == "global" && secondvalid &&
second.cs() == "long") {
third = p.get_token();
pos++;
while (p.good() && !p.isParagraph() &&
(third.cat() == catSpace ||
third.cat() == catNewline ||
third.cat() == catComment)) {
third = p.get_token();
pos++;
}
thirdvalid = third.cat() == catEscape;
}
for (int i = 0; i < pos; ++i)
p.putback();
if (!secondvalid)
return false;
if (!thirdvalid)
return (first.cs() == "global" || first.cs() == "long") &&
second.cs() == "def";
return first.cs() == "global" && second.cs() == "long" &&
third.cs() == "def";
}
/// Parse a macro definition (assumes that is_macro() returned true)
void parse_macro(Parser & p, ostream & os, Context & context)
{
context.check_layout(os);
Token first = p.curr_token();
Token second;
Token third;
string command = first.asInput();
if (first.cs() != "def") {
p.get_token();
eat_whitespace(p, os, context, false);
second = p.curr_token();
command += second.asInput();
if (second.cs() != "def") {
p.get_token();
eat_whitespace(p, os, context, false);
third = p.curr_token();
command += third.asInput();
}
}
eat_whitespace(p, os, context, false);
string const name = p.get_token().cs();
eat_whitespace(p, os, context, false);
// parameter text
bool simple = true;
string paramtext;
int arity = 0;
while (p.next_token().cat() != catBegin) {
if (p.next_token().cat() == catParameter) {
// # found
p.get_token();
paramtext += "#";
// followed by number?
if (p.next_token().cat() == catOther) {
string s = p.get_token().asInput();
paramtext += s;
// number = current arity + 1?
if (s.size() == 1 && s[0] == arity + '0' + 1)
++arity;
else
simple = false;
} else
paramtext += p.get_token().cs();
} else {
paramtext += p.get_token().cs();
simple = false;
}
}
// only output simple (i.e. compatible) macro as FormulaMacros
string ert = '\\' + name + ' ' + paramtext + '{' + p.verbatim_item() + '}';
if (simple) {
context.check_layout(os);
begin_inset(os, "FormulaMacro");
os << "\n\\def" << ert;
end_inset(os);
} else
output_ert_inset(os, command + ert, context);
}
void registerExternalTemplatePackages(string const & name)
{
external::TemplateManager const & etm = external::TemplateManager::get();
external::Template const * const et = etm.getTemplateByName(name);
if (!et)
return;
external::Template::Formats::const_iterator cit = et->formats.end();
if (pdflatex)
cit = et->formats.find("PDFLaTeX");
if (cit == et->formats.end())
// If the template has not specified a PDFLaTeX output,
// we try the LaTeX format.
cit = et->formats.find("LaTeX");
if (cit == et->formats.end())
return;
vector<string>::const_iterator qit = cit->second.requirements.begin();
vector<string>::const_iterator qend = cit->second.requirements.end();
for (; qit != qend; ++qit)
preamble.registerAutomaticallyLoadedPackage(*qit);
}
} // anonymous namespace
void parse_text(Parser & p, ostream & os, unsigned flags, bool outer,
Context & context)
{
Layout const * newlayout = 0;
InsetLayout const * newinsetlayout = 0;
char const * const * where = 0;
// Store the latest bibliographystyle, addcontentslineContent and
// nocite{*} option (needed for bibtex inset)
string btprint;
string contentslineContent;
string bibliographystyle = "default";
bool const use_natbib = isProvided("natbib");
bool const use_jurabib = isProvided("jurabib");
string last_env;
// it is impossible to determine the correct encoding for non-CJK Japanese.
// Therefore write a note at the beginning of the document
if (is_nonCJKJapanese) {
context.check_layout(os);
begin_inset(os, "Note Note\n");
os << "status open\n\\begin_layout Plain Layout\n"
<< "\\series bold\n"
<< "Important information:\n"
<< "\\end_layout\n\n"
<< "\\begin_layout Plain Layout\n"
<< "The original LaTeX source for this document is in Japanese (pLaTeX).\n"
<< " It was therefore impossible for tex2lyx to determine the correct encoding.\n"
<< " The iconv encoding " << p.getEncoding() << " was used.\n"
<< " If this is incorrect, you must run the tex2lyx program on the command line\n"
<< " and specify the encoding using the -e command-line switch.\n"
<< " In addition, you might want to double check that the desired output encoding\n"
<< " is correctly selected in Document > Settings > Language.\n"
<< "\\end_layout\n";
end_inset(os);
is_nonCJKJapanese = false;
}
while (p.good()) {
Token const & t = p.get_token();
#ifdef FILEDEBUG
debugToken(cerr, t, flags);
#endif
if (flags & FLAG_ITEM) {
if (t.cat() == catSpace)
continue;
flags &= ~FLAG_ITEM;
if (t.cat() == catBegin) {
// skip the brace and collect everything to the next matching
// closing brace
flags |= FLAG_BRACE_LAST;
continue;
}
// handle only this single token, leave the loop if done
flags |= FLAG_LEAVE;
}
if (t.cat() != catEscape && t.character() == ']' &&
(flags & FLAG_BRACK_LAST))
return;
if (t.cat() == catEnd && (flags & FLAG_BRACE_LAST))
return;
// If there is anything between \end{env} and \begin{env} we
// don't need to output a separator.
if (t.cat() != catSpace && t.cat() != catNewline &&
t.asInput() != "\\begin")
last_env = "";
//
// cat codes
//
bool const starred = p.next_token().asInput() == "*";
string const starredname(starred ? (t.cs() + '*') : t.cs());
if (t.cat() == catMath) {
// we are inside some text mode thingy, so opening new math is allowed
context.check_layout(os);
begin_inset(os, "Formula ");
Token const & n = p.get_token();
bool const display(n.cat() == catMath && outer);
if (display) {
// TeX's $$...$$ syntax for displayed math
os << "\\[";
parse_math(p, os, FLAG_SIMPLE, MATH_MODE);
os << "\\]";
p.get_token(); // skip the second '$' token
} else {
// simple $...$ stuff
p.putback();
os << '$';
parse_math(p, os, FLAG_SIMPLE, MATH_MODE);
os << '$';
}
end_inset(os);
if (display) {
// Prevent the conversion of a line break to a
// space (bug 7668). This does not change the
// output, but looks ugly in LyX.
eat_whitespace(p, os, context, false);
}
}
else if (t.cat() == catSuper || t.cat() == catSub)
cerr << "catcode " << t << " illegal in text mode\n";
// Basic support for english quotes. This should be
// extended to other quotes, but is not so easy (a
// left english quote is the same as a right german
// quote...)
else if (t.asInput() == "`" && p.next_token().asInput() == "`") {
context.check_layout(os);
begin_inset(os, "Quotes ");
os << "eld";
end_inset(os);
p.get_token();
skip_braces(p);
}
else if (t.asInput() == "'" && p.next_token().asInput() == "'") {
context.check_layout(os);
begin_inset(os, "Quotes ");
os << "erd";
end_inset(os);
p.get_token();
skip_braces(p);
}
else if (t.asInput() == ">" && p.next_token().asInput() == ">") {
context.check_layout(os);
begin_inset(os, "Quotes ");
os << "ald";
end_inset(os);
p.get_token();
skip_braces(p);
}
else if (t.asInput() == "<"
&& p.next_token().asInput() == "<") {
bool has_chunk = false;
if (noweb_mode) {
p.pushPosition();
p.get_token();
has_chunk = parse_chunk(p, os, context);
if (!has_chunk)
p.popPosition();
}
if (!has_chunk) {
context.check_layout(os);
begin_inset(os, "Quotes ");
//FIXME: this is a right danish quote;
// why not a left french quote?
os << "ard";
end_inset(os);
p.get_token();
skip_braces(p);
}
}
else if (t.cat() == catSpace || (t.cat() == catNewline && ! p.isParagraph()))
check_space(p, os, context);
else if (t.character() == '[' && noweb_mode &&
p.next_token().character() == '[') {
// These can contain underscores
p.putback();
string const s = p.getFullOpt() + ']';
if (p.next_token().character() == ']')
p.get_token();
else
cerr << "Warning: Inserting missing ']' in '"
<< s << "'." << endl;
output_ert_inset(os, s, context);
}
else if (t.cat() == catLetter) {
context.check_layout(os);
os << t.cs();
}
else if (t.cat() == catOther ||
t.cat() == catAlign ||
t.cat() == catParameter) {
context.check_layout(os);
if (t.asInput() == "-" && p.next_token().asInput() == "-" &&
context.merging_hyphens_allowed &&
context.font.family != "ttfamily" &&
!context.layout->pass_thru) {
if (p.next_next_token().asInput() == "-") {
// --- is emdash
os << to_utf8(docstring(1, 0x2014));
p.get_token();
} else
// -- is endash
os << to_utf8(docstring(1, 0x2013));
p.get_token();
} else
// This translates "&" to "\\&" which may be wrong...
os << t.cs();
}
else if (p.isParagraph()) {
if (context.new_layout_allowed)
context.new_paragraph(os);
else
output_ert_inset(os, "\\par ", context);
eat_whitespace(p, os, context, true);
}
else if (t.cat() == catActive) {
context.check_layout(os);
if (t.character() == '~') {
if (context.layout->free_spacing)
os << ' ';
else {
begin_inset(os, "space ~\n");
end_inset(os);
}
} else
os << t.cs();
}
else if (t.cat() == catBegin) {
Token const next = p.next_token();
Token const end = p.next_next_token();
if (next.cat() == catEnd) {
// {}
Token const prev = p.prev_token();
p.get_token();
if (p.next_token().character() == '`')
; // ignore it in {}``
else
output_ert_inset(os, "{}", context);
} else if (next.cat() == catEscape &&
is_known(next.cs(), known_quotes) &&
end.cat() == catEnd) {
// Something like {\textquoteright} (e.g.
// from writer2latex). LyX writes
// \textquoteright{}, so we may skip the
// braces here for better readability.
parse_text_snippet(p, os, FLAG_BRACE_LAST,
outer, context);
} else if (p.next_token().asInput() == "\\ascii") {
// handle the \ascii characters
// (the case without braces is handled later)
// the code is "{\ascii\xxx}"
p.get_token(); // eat \ascii
string name2 = p.get_token().asInput();
p.get_token(); // eat the final '}'
string const name = "{\\ascii" + name2 + "}";
bool termination;
docstring rem;
set<string> req;
// get the character from unicodesymbols
docstring s = encodings.fromLaTeXCommand(from_utf8(name),
Encodings::TEXT_CMD, termination, rem, &req);
if (!s.empty()) {
context.check_layout(os);
os << to_utf8(s);
if (!rem.empty())
output_ert_inset(os,
to_utf8(rem), context);
for (set<string>::const_iterator it = req.begin();
it != req.end(); ++it)
preamble.registerAutomaticallyLoadedPackage(*it);
} else
// we did not find a non-ert version
output_ert_inset(os, name, context);
} else {
context.check_layout(os);
// special handling of font attribute changes
Token const prev = p.prev_token();
TeXFont const oldFont = context.font;
if (next.character() == '[' ||
next.character() == ']' ||
next.character() == '*') {
p.get_token();
if (p.next_token().cat() == catEnd) {
os << next.cs();
p.get_token();
} else {
p.putback();
output_ert_inset(os, "{", context);
parse_text_snippet(p, os,
FLAG_BRACE_LAST,
outer, context);
output_ert_inset(os, "}", context);
}
} else if (! context.new_layout_allowed) {
output_ert_inset(os, "{", context);
parse_text_snippet(p, os, FLAG_BRACE_LAST,
outer, context);
output_ert_inset(os, "}", context);
} else if (is_known(next.cs(), known_sizes)) {
// next will change the size, so we must
// reset it here
parse_text_snippet(p, os, FLAG_BRACE_LAST,
outer, context);
if (!context.atParagraphStart())
os << "\n\\size "
<< context.font.size << "\n";
} else if (is_known(next.cs(), known_font_families)) {
// next will change the font family, so we
// must reset it here
parse_text_snippet(p, os, FLAG_BRACE_LAST,
outer, context);
if (!context.atParagraphStart())
os << "\n\\family "
<< context.font.family << "\n";
} else if (is_known(next.cs(), known_font_series)) {
// next will change the font series, so we
// must reset it here
parse_text_snippet(p, os, FLAG_BRACE_LAST,
outer, context);
if (!context.atParagraphStart())
os << "\n\\series "
<< context.font.series << "\n";
} else if (is_known(next.cs(), known_font_shapes)) {
// next will change the font shape, so we
// must reset it here
parse_text_snippet(p, os, FLAG_BRACE_LAST,
outer, context);
if (!context.atParagraphStart())
os << "\n\\shape "
<< context.font.shape << "\n";
} else if (is_known(next.cs(), known_old_font_families) ||
is_known(next.cs(), known_old_font_series) ||
is_known(next.cs(), known_old_font_shapes)) {
// next will change the font family, series
// and shape, so we must reset it here
parse_text_snippet(p, os, FLAG_BRACE_LAST,
outer, context);
if (!context.atParagraphStart())
os << "\n\\family "
<< context.font.family
<< "\n\\series "
<< context.font.series
<< "\n\\shape "
<< context.font.shape << "\n";
} else {
output_ert_inset(os, "{", context);
parse_text_snippet(p, os, FLAG_BRACE_LAST,
outer, context);
output_ert_inset(os, "}", context);
}
}
}
else if (t.cat() == catEnd) {
if (flags & FLAG_BRACE_LAST) {
return;
}
cerr << "stray '}' in text\n";
output_ert_inset(os, "}", context);
}
else if (t.cat() == catComment)
parse_comment(p, os, t, context);
//
// control sequences
//
else if (t.cs() == "(" || t.cs() == "[") {
bool const simple = t.cs() == "(";
context.check_layout(os);
begin_inset(os, "Formula");
os << " \\" << t.cs();
parse_math(p, os, simple ? FLAG_SIMPLE2 : FLAG_EQUATION, MATH_MODE);
os << '\\' << (simple ? ')' : ']');
end_inset(os);
if (!simple) {
// Prevent the conversion of a line break to a
// space (bug 7668). This does not change the
// output, but looks ugly in LyX.
eat_whitespace(p, os, context, false);
}
}
else if (t.cs() == "begin")
parse_environment(p, os, outer, last_env,
context);
else if (t.cs() == "end") {
if (flags & FLAG_END) {
// eat environment name
string const name = p.getArg('{', '}');
if (name != active_environment())
cerr << "\\end{" + name + "} does not match \\begin{"
+ active_environment() + "}\n";
return;
}
p.error("found 'end' unexpectedly");
}
else if (t.cs() == "item") {
string s;
bool const optarg = p.hasOpt();
if (optarg) {
// FIXME: This swallows comments, but we cannot use
// eat_whitespace() since we must not output
// anything before the item.
p.skip_spaces(true);
s = p.verbatimOption();
} else
p.skip_spaces(false);
context.set_item();
context.check_layout(os);
if (context.has_item) {
// An item in an unknown list-like environment
// FIXME: Do this in check_layout()!
context.has_item = false;
if (optarg)
output_ert_inset(os, "\\item", context);
else
output_ert_inset(os, "\\item ", context);
}
if (optarg) {
if (context.layout->labeltype != LABEL_MANUAL) {
// handle option of itemize item
begin_inset(os, "Argument item:1\n");
os << "status open\n";
os << "\n\\begin_layout Plain Layout\n";
Parser p2(s + ']');
os << parse_text_snippet(p2,
FLAG_BRACK_LAST, outer, context);
// we must not use context.check_end_layout(os)
// because that would close the outer itemize layout
os << "\n\\end_layout\n";
end_inset(os);
eat_whitespace(p, os, context, false);
} else if (!s.empty()) {
// LyX adds braces around the argument,
// so we need to remove them here.
if (s.size() > 2 && s[0] == '{' &&
s[s.size()-1] == '}')
s = s.substr(1, s.size()-2);
// If the argument contains a space we
// must put it into ERT: Otherwise LyX
// would misinterpret the space as
// item delimiter (bug 7663)
if (contains(s, ' ')) {
output_ert_inset(os, s, context);
} else {
Parser p2(s + ']');
os << parse_text_snippet(p2,
FLAG_BRACK_LAST, outer, context);
}
// The space is needed to separate the
// item from the rest of the sentence.
os << ' ';
eat_whitespace(p, os, context, false);
}
}
}
else if (t.cs() == "bibitem") {
context.set_item();
context.check_layout(os);
eat_whitespace(p, os, context, false);
string label = convert_command_inset_arg(p.verbatimOption());
string key = convert_command_inset_arg(p.verbatim_item());
if (contains(label, '\\') || contains(key, '\\')) {
// LyX can't handle LaTeX commands in labels or keys
output_ert_inset(os, t.asInput() + '[' + label +
"]{" + p.verbatim_item() + '}',
context);
} else {
begin_command_inset(os, "bibitem", "bibitem");
os << "label \"" << label << "\"\n"
"key \"" << key << "\"\n";
end_inset(os);
}
}
else if (is_macro(p)) {
// catch the case of \def\inputGnumericTable
bool macro = true;
if (t.cs() == "def") {
Token second = p.next_token();
if (second.cs() == "inputGnumericTable") {
p.pushPosition();
p.get_token();
skip_braces(p);
Token third = p.get_token();
p.popPosition();
if (third.cs() == "input") {
p.get_token();
skip_braces(p);
p.get_token();
string name = normalize_filename(p.verbatim_item());
string const path = getMasterFilePath(true);
// We want to preserve relative / absolute filenames,
// therefore path is only used for testing
// The file extension is in every case ".tex".
// So we need to remove this extension and check for
// the original one.
name = removeExtension(name);
if (!makeAbsPath(name, path).exists()) {
char const * const Gnumeric_formats[] = {"gnumeric",
"ods", "xls", 0};
string const Gnumeric_name =
find_file(name, path, Gnumeric_formats);
if (!Gnumeric_name.empty())
name = Gnumeric_name;
}
FileName const absname = makeAbsPath(name, path);
if (absname.exists()) {
fix_child_filename(name);
copy_file(absname, name);
} else
cerr << "Warning: Could not find file '"
<< name << "'." << endl;
context.check_layout(os);
begin_inset(os, "External\n\ttemplate ");
os << "GnumericSpreadsheet\n\tfilename "
<< name << "\n";
end_inset(os);
context.check_layout(os);
macro = false;
// register the packages that are automatically loaded
// by the Gnumeric template
registerExternalTemplatePackages("GnumericSpreadsheet");
}
}
}
if (macro)
parse_macro(p, os, context);
}
else if (t.cs() == "noindent") {
p.skip_spaces();
context.add_par_extra_stuff("\\noindent\n");
}
else if (t.cs() == "appendix") {
context.add_par_extra_stuff("\\start_of_appendix\n");
// We need to start a new paragraph. Otherwise the
// appendix in 'bla\appendix\chapter{' would start
// too late.
context.new_paragraph(os);
// We need to make sure that the paragraph is
// generated even if it is empty. Otherwise the
// appendix in '\par\appendix\par\chapter{' would
// start too late.
context.check_layout(os);
// FIXME: This is a hack to prevent paragraph
// deletion if it is empty. Handle this better!
output_ert_inset(os,
"%dummy comment inserted by tex2lyx to "
"ensure that this paragraph is not empty",
context);
// Both measures above may generate an additional
// empty paragraph, but that does not hurt, because
// whitespace does not matter here.
eat_whitespace(p, os, context, true);
}
// Must catch empty dates before findLayout is called below
else if (t.cs() == "date") {
eat_whitespace(p, os, context, false);
p.pushPosition();
string const date = p.verbatim_item();
p.popPosition();
if (date.empty()) {
preamble.suppressDate(true);
p.verbatim_item();
} else {
preamble.suppressDate(false);
if (context.new_layout_allowed &&
(newlayout = findLayout(context.textclass,
t.cs(), true))) {
// write the layout
output_command_layout(os, p, outer,
context, newlayout);
parse_text_snippet(p, os, FLAG_ITEM, outer, context);
if (!preamble.titleLayoutFound())
preamble.titleLayoutFound(newlayout->intitle);
set<string> const & req = newlayout->requires();
set<string>::const_iterator it = req.begin();
set<string>::const_iterator en = req.end();
for (; it != en; ++it)
preamble.registerAutomaticallyLoadedPackage(*it);
} else
output_ert_inset(os,
"\\date{" + p.verbatim_item() + '}',
context);
}
}
// Starred section headings
// Must attempt to parse "Section*" before "Section".
else if ((p.next_token().asInput() == "*") &&
context.new_layout_allowed &&
(newlayout = findLayout(context.textclass, t.cs() + '*', true))) {
// write the layout
p.get_token();
output_command_layout(os, p, outer, context, newlayout);
p.skip_spaces();
if (!preamble.titleLayoutFound())
preamble.titleLayoutFound(newlayout->intitle);
set<string> const & req = newlayout->requires();
for (set<string>::const_iterator it = req.begin(); it != req.end(); ++it)
preamble.registerAutomaticallyLoadedPackage(*it);
}
// Section headings and the like
else if (context.new_layout_allowed &&
(newlayout = findLayout(context.textclass, t.cs(), true))) {
// write the layout
output_command_layout(os, p, outer, context, newlayout);
p.skip_spaces();
if (!preamble.titleLayoutFound())
preamble.titleLayoutFound(newlayout->intitle);
set<string> const & req = newlayout->requires();
for (set<string>::const_iterator it = req.begin(); it != req.end(); ++it)
preamble.registerAutomaticallyLoadedPackage(*it);
}
else if (t.cs() == "subfloat") {
// the syntax is \subfloat[list entry][sub caption]{content}
// if it is a table of figure depends on the surrounding float
// FIXME: second optional argument is not parsed
bool has_caption = false;
p.skip_spaces();
// do nothing if there is no outer float
if (!float_type.empty()) {
context.check_layout(os);
p.skip_spaces();
begin_inset(os, "Float " + float_type + "\n");
os << "wide false"
<< "\nsideways false"
<< "\nstatus collapsed\n\n";
// test for caption
string caption;
if (p.next_token().cat() != catEscape &&
p.next_token().character() == '[') {
p.get_token(); // eat '['
caption = parse_text_snippet(p, FLAG_BRACK_LAST, outer, context);
has_caption = true;
}
// the content
parse_text_in_inset(p, os, FLAG_ITEM, outer, context);
// the caption comes always as the last
if (has_caption) {
// we must make sure that the caption gets a \begin_layout
os << "\n\\begin_layout Plain Layout";
p.skip_spaces();
begin_inset(os, "Caption Standard\n");
Context newcontext(true, context.textclass,
0, 0, context.font);
newcontext.check_layout(os);
os << caption << "\n";
newcontext.check_end_layout(os);
// We don't need really a new paragraph, but
// we must make sure that the next item gets a \begin_layout.
//newcontext.new_paragraph(os);
end_inset(os);
p.skip_spaces();
}
// We don't need really a new paragraph, but
// we must make sure that the next item gets a \begin_layout.
if (has_caption)
context.new_paragraph(os);
end_inset(os);
p.skip_spaces();
context.check_end_layout(os);
// close the layout we opened
if (has_caption)
os << "\n\\end_layout\n";
} else {
// if the float type is not supported or there is no surrounding float
// output it as ERT
if (p.hasOpt()) {
string opt_arg = convert_command_inset_arg(p.getArg('[', ']'));
output_ert_inset(os, t.asInput() + '[' + opt_arg +
"]{" + p.verbatim_item() + '}', context);
} else
output_ert_inset(os, t.asInput() + "{" + p.verbatim_item() + '}', context);
}
}
else if (t.cs() == "includegraphics") {
bool const clip = p.next_token().asInput() == "*";
if (clip)
p.get_token();
string const arg = p.getArg('[', ']');
map<string, string> opts;
vector<string> keys;
split_map(arg, opts, keys);
if (clip)
opts["clip"] = string();
string name = normalize_filename(p.verbatim_item());
string const path = getMasterFilePath(true);
// We want to preserve relative / absolute filenames,
// therefore path is only used for testing
if (!makeAbsPath(name, path).exists()) {
// The file extension is probably missing.
// Now try to find it out.
string const dvips_name =
find_file(name, path,
known_dvips_graphics_formats);
string const pdftex_name =
find_file(name, path,
known_pdftex_graphics_formats);
if (!dvips_name.empty()) {
if (!pdftex_name.empty()) {
cerr << "This file contains the "
"latex snippet\n"
"\"\\includegraphics{"
<< name << "}\".\n"
"However, files\n\""
<< dvips_name << "\" and\n\""
<< pdftex_name << "\"\n"
"both exist, so I had to make a "
"choice and took the first one.\n"
"Please move the unwanted one "
"someplace else and try again\n"
"if my choice was wrong."
<< endl;
}
name = dvips_name;
} else if (!pdftex_name.empty()) {
name = pdftex_name;
pdflatex = true;
}
}
FileName const absname = makeAbsPath(name, path);
if (absname.exists()) {
fix_child_filename(name);
copy_file(absname, name);
} else
cerr << "Warning: Could not find graphics file '"
<< name << "'." << endl;
context.check_layout(os);
begin_inset(os, "Graphics ");
os << "\n\tfilename " << name << '\n';
if (opts.find("width") != opts.end())
os << "\twidth "
<< translate_len(opts["width"]) << '\n';
if (opts.find("height") != opts.end())
os << "\theight "
<< translate_len(opts["height"]) << '\n';
if (opts.find("scale") != opts.end()) {
istringstream iss(opts["scale"]);
double val;
iss >> val;
val = val*100;
os << "\tscale " << val << '\n';
}
if (opts.find("angle") != opts.end()) {
os << "\trotateAngle "
<< opts["angle"] << '\n';
vector<string>::const_iterator a =
find(keys.begin(), keys.end(), "angle");
vector<string>::const_iterator s =
find(keys.begin(), keys.end(), "width");
if (s == keys.end())
s = find(keys.begin(), keys.end(), "height");
if (s == keys.end())
s = find(keys.begin(), keys.end(), "scale");
if (s != keys.end() && distance(s, a) > 0)
os << "\tscaleBeforeRotation\n";
}
if (opts.find("origin") != opts.end()) {
ostringstream ss;
string const opt = opts["origin"];
if (opt.find('l') != string::npos) ss << "left";
if (opt.find('r') != string::npos) ss << "right";
if (opt.find('c') != string::npos) ss << "center";
if (opt.find('t') != string::npos) ss << "Top";
if (opt.find('b') != string::npos) ss << "Bottom";
if (opt.find('B') != string::npos) ss << "Baseline";
if (!ss.str().empty())
os << "\trotateOrigin " << ss.str() << '\n';
else
cerr << "Warning: Ignoring unknown includegraphics origin argument '" << opt << "'\n";
}
if (opts.find("keepaspectratio") != opts.end())
os << "\tkeepAspectRatio\n";
if (opts.find("clip") != opts.end())
os << "\tclip\n";
if (opts.find("draft") != opts.end())
os << "\tdraft\n";
if (opts.find("bb") != opts.end())
os << "\tBoundingBox "
<< opts["bb"] << '\n';
int numberOfbbOptions = 0;
if (opts.find("bbllx") != opts.end())
numberOfbbOptions++;
if (opts.find("bblly") != opts.end())
numberOfbbOptions++;
if (opts.find("bburx") != opts.end())
numberOfbbOptions++;
if (opts.find("bbury") != opts.end())
numberOfbbOptions++;
if (numberOfbbOptions == 4)
os << "\tBoundingBox "
<< opts["bbllx"] << " " << opts["bblly"] << " "
<< opts["bburx"] << " " << opts["bbury"] << '\n';
else if (numberOfbbOptions > 0)
cerr << "Warning: Ignoring incomplete includegraphics boundingbox arguments.\n";
numberOfbbOptions = 0;
if (opts.find("natwidth") != opts.end())
numberOfbbOptions++;
if (opts.find("natheight") != opts.end())
numberOfbbOptions++;
if (numberOfbbOptions == 2)
os << "\tBoundingBox 0bp 0bp "
<< opts["natwidth"] << " " << opts["natheight"] << '\n';
else if (numberOfbbOptions > 0)
cerr << "Warning: Ignoring incomplete includegraphics boundingbox arguments.\n";
ostringstream special;
if (opts.find("hiresbb") != opts.end())
special << "hiresbb,";
if (opts.find("trim") != opts.end())
special << "trim,";
if (opts.find("viewport") != opts.end())
special << "viewport=" << opts["viewport"] << ',';
if (opts.find("totalheight") != opts.end())
special << "totalheight=" << opts["totalheight"] << ',';
if (opts.find("type") != opts.end())
special << "type=" << opts["type"] << ',';
if (opts.find("ext") != opts.end())
special << "ext=" << opts["ext"] << ',';
if (opts.find("read") != opts.end())
special << "read=" << opts["read"] << ',';
if (opts.find("command") != opts.end())
special << "command=" << opts["command"] << ',';
string s_special = special.str();
if (!s_special.empty()) {
// We had special arguments. Remove the trailing ','.
os << "\tspecial " << s_special.substr(0, s_special.size() - 1) << '\n';
}
// TODO: Handle the unknown settings better.
// Warn about invalid options.
// Check whether some option was given twice.
end_inset(os);
preamble.registerAutomaticallyLoadedPackage("graphicx");
}
else if (t.cs() == "footnote" ||
(t.cs() == "thanks" && context.layout->intitle)) {
p.skip_spaces();
context.check_layout(os);
begin_inset(os, "Foot\n");
os << "status collapsed\n\n";
parse_text_in_inset(p, os, FLAG_ITEM, false, context);
end_inset(os);
}
else if (t.cs() == "marginpar") {
p.skip_spaces();
context.check_layout(os);
begin_inset(os, "Marginal\n");
os << "status collapsed\n\n";
parse_text_in_inset(p, os, FLAG_ITEM, false, context);
end_inset(os);
}
else if (t.cs() == "lstinline") {
p.skip_spaces();
parse_listings(p, os, context, true);
}
else if (t.cs() == "ensuremath") {
p.skip_spaces();
context.check_layout(os);
string const s = p.verbatim_item();
//FIXME: this never triggers in UTF8
if (s == "\xb1" || s == "\xb3" || s == "\xb2" || s == "\xb5")
os << s;
else
output_ert_inset(os, "\\ensuremath{" + s + "}",
context);
}
else if (t.cs() == "makeindex" || t.cs() == "maketitle") {
if (preamble.titleLayoutFound()) {
// swallow this
skip_spaces_braces(p);
} else
output_ert_inset(os, t.asInput(), context);
}
else if (t.cs() == "tableofcontents" || t.cs() == "lstlistoflistings") {
context.check_layout(os);
begin_command_inset(os, "toc", t.cs());
end_inset(os);
skip_spaces_braces(p);
if (t.cs() == "lstlistoflistings")
preamble.registerAutomaticallyLoadedPackage("listings");
}
else if (t.cs() == "listoffigures" || t.cs() == "listoftables") {
context.check_layout(os);
if (t.cs() == "listoffigures")
begin_inset(os, "FloatList figure\n");
else
begin_inset(os, "FloatList table\n");
end_inset(os);
skip_spaces_braces(p);
}
else if (t.cs() == "listof") {
p.skip_spaces(true);
string const name = p.get_token().cs();
if (context.textclass.floats().typeExist(name)) {
context.check_layout(os);
begin_inset(os, "FloatList ");
os << name << "\n";
end_inset(os);
p.get_token(); // swallow second arg
} else
output_ert_inset(os, "\\listof{" + name + "}", context);
}
else if ((where = is_known(t.cs(), known_text_font_families)))
parse_text_attributes(p, os, FLAG_ITEM, outer,
context, "\\family", context.font.family,
known_coded_font_families[where - known_text_font_families]);
else if ((where = is_known(t.cs(), known_text_font_series)))
parse_text_attributes(p, os, FLAG_ITEM, outer,
context, "\\series", context.font.series,
known_coded_font_series[where - known_text_font_series]);
else if ((where = is_known(t.cs(), known_text_font_shapes)))
parse_text_attributes(p, os, FLAG_ITEM, outer,
context, "\\shape", context.font.shape,
known_coded_font_shapes[where - known_text_font_shapes]);
else if (t.cs() == "textnormal" || t.cs() == "normalfont") {
context.check_layout(os);
TeXFont oldFont = context.font;
context.font.init();
context.font.size = oldFont.size;
os << "\n\\family " << context.font.family << "\n";
os << "\n\\series " << context.font.series << "\n";
os << "\n\\shape " << context.font.shape << "\n";
if (t.cs() == "textnormal") {
parse_text_snippet(p, os, FLAG_ITEM, outer, context);
output_font_change(os, context.font, oldFont);
context.font = oldFont;
} else
eat_whitespace(p, os, context, false);
}
else if (t.cs() == "textcolor") {
// scheme is \textcolor{color name}{text}
string const color = p.verbatim_item();
// we support the predefined colors of the color and the xcolor package
if (color == "black" || color == "blue" || color == "cyan"
|| color == "green" || color == "magenta" || color == "red"
|| color == "white" || color == "yellow") {
context.check_layout(os);
os << "\n\\color " << color << "\n";
parse_text_snippet(p, os, FLAG_ITEM, outer, context);
context.check_layout(os);
os << "\n\\color inherit\n";
preamble.registerAutomaticallyLoadedPackage("color");
} else if (color == "brown" || color == "darkgray" || color == "gray"
|| color == "lightgray" || color == "lime" || color == "olive"
|| color == "orange" || color == "pink" || color == "purple"
|| color == "teal" || color == "violet") {
context.check_layout(os);
os << "\n\\color " << color << "\n";
parse_text_snippet(p, os, FLAG_ITEM, outer, context);
context.check_layout(os);
os << "\n\\color inherit\n";
preamble.registerAutomaticallyLoadedPackage("xcolor");
} else
// for custom defined colors
output_ert_inset(os, t.asInput() + "{" + color + "}", context);
}
else if (t.cs() == "underbar" || t.cs() == "uline") {
// \underbar is not 100% correct (LyX outputs \uline
// of ulem.sty). The difference is that \ulem allows
// line breaks, and \underbar does not.
// Do NOT handle \underline.
// \underbar cuts through y, g, q, p etc.,
// \underline does not.
context.check_layout(os);
os << "\n\\bar under\n";
parse_text_snippet(p, os, FLAG_ITEM, outer, context);
context.check_layout(os);
os << "\n\\bar default\n";
preamble.registerAutomaticallyLoadedPackage("ulem");
}
else if (t.cs() == "sout") {
context.check_layout(os);
os << "\n\\strikeout on\n";
parse_text_snippet(p, os, FLAG_ITEM, outer, context);
context.check_layout(os);
os << "\n\\strikeout default\n";
preamble.registerAutomaticallyLoadedPackage("ulem");
}
else if (t.cs() == "uuline" || t.cs() == "uwave" ||
t.cs() == "emph" || t.cs() == "noun") {
context.check_layout(os);
os << "\n\\" << t.cs() << " on\n";
parse_text_snippet(p, os, FLAG_ITEM, outer, context);
context.check_layout(os);
os << "\n\\" << t.cs() << " default\n";
if (t.cs() == "uuline" || t.cs() == "uwave")
preamble.registerAutomaticallyLoadedPackage("ulem");
}
else if (t.cs() == "lyxadded" || t.cs() == "lyxdeleted") {
context.check_layout(os);
string name = p.getArg('{', '}');
string localtime = p.getArg('{', '}');
preamble.registerAuthor(name);
Author const & author = preamble.getAuthor(name);
// from_asctime_utc() will fail if LyX decides to output the
// time in the text language.
time_t ptime = from_asctime_utc(localtime);
if (ptime == static_cast<time_t>(-1)) {
cerr << "Warning: Could not parse time `" << localtime
<< "´ for change tracking, using current time instead.\n";
ptime = current_time();
}
if (t.cs() == "lyxadded")
os << "\n\\change_inserted ";
else
os << "\n\\change_deleted ";
os << author.bufferId() << ' ' << ptime << '\n';
parse_text_snippet(p, os, FLAG_ITEM, outer, context);
bool dvipost = LaTeXPackages::isAvailable("dvipost");
bool xcolorulem = LaTeXPackages::isAvailable("ulem") &&
LaTeXPackages::isAvailable("xcolor");
// No need to test for luatex, since luatex comes in
// two flavours (dvi and pdf), like latex, and those
// are detected by pdflatex.
if (pdflatex || xetex) {
if (xcolorulem) {
preamble.registerAutomaticallyLoadedPackage("ulem");
preamble.registerAutomaticallyLoadedPackage("xcolor");
preamble.registerAutomaticallyLoadedPackage("pdfcolmk");
}
} else {
if (dvipost) {
preamble.registerAutomaticallyLoadedPackage("dvipost");
} else if (xcolorulem) {
preamble.registerAutomaticallyLoadedPackage("ulem");
preamble.registerAutomaticallyLoadedPackage("xcolor");
}
}
}
else if (t.cs() == "textipa") {
context.check_layout(os);
begin_inset(os, "IPA\n");
bool merging_hyphens_allowed = context.merging_hyphens_allowed;
context.merging_hyphens_allowed = false;
parse_text_in_inset(p, os, FLAG_ITEM, outer, context);
context.merging_hyphens_allowed = merging_hyphens_allowed;
end_inset(os);
preamble.registerAutomaticallyLoadedPackage("tipa");
preamble.registerAutomaticallyLoadedPackage("tipx");
}
else if (t.cs() == "texttoptiebar" || t.cs() == "textbottomtiebar") {
context.check_layout(os);
begin_inset(os, "IPADeco " + t.cs().substr(4) + "\n");
os << "status open\n";
parse_text_in_inset(p, os, FLAG_ITEM, outer, context);
end_inset(os);
p.skip_spaces();
}
else if (t.cs() == "textvertline") {
// FIXME: This is not correct, \textvertline is higher than |
os << "|";
skip_braces(p);
continue;
}
else if (t.cs() == "tone" ) {
context.check_layout(os);
// register the tone package
preamble.registerAutomaticallyLoadedPackage("tone");
string content = trimSpaceAndEol(p.verbatim_item());
string command = t.asInput() + "{" + content + "}";
// some tones can be detected by unicodesymbols, some need special code
if (is_known(content, known_tones)) {
os << "\\IPAChar " << command << "\n";
continue;
}
// try to see whether the string is in unicodesymbols
bool termination;
docstring rem;
set<string> req;
docstring s = encodings.fromLaTeXCommand(from_utf8(command),
Encodings::TEXT_CMD | Encodings::MATH_CMD,
termination, rem, &req);
if (!s.empty()) {
os << to_utf8(s);
if (!rem.empty())
output_ert_inset(os, to_utf8(rem), context);
for (set<string>::const_iterator it = req.begin();
it != req.end(); ++it)
preamble.registerAutomaticallyLoadedPackage(*it);
} else
// we did not find a non-ert version
output_ert_inset(os, command, context);
}
else if (t.cs() == "phantom" || t.cs() == "hphantom" ||
t.cs() == "vphantom") {
context.check_layout(os);
if (t.cs() == "phantom")
begin_inset(os, "Phantom Phantom\n");
if (t.cs() == "hphantom")
begin_inset(os, "Phantom HPhantom\n");
if (t.cs() == "vphantom")
begin_inset(os, "Phantom VPhantom\n");
os << "status open\n";
parse_text_in_inset(p, os, FLAG_ITEM, outer, context,
"Phantom");
end_inset(os);
}
else if (t.cs() == "href") {
context.check_layout(os);
string target = convert_command_inset_arg(p.verbatim_item());
string name = convert_command_inset_arg(p.verbatim_item());
string type;
size_t i = target.find(':');
if (i != string::npos) {
type = target.substr(0, i + 1);
if (type == "mailto:" || type == "file:")
target = target.substr(i + 1);
// handle the case that name is equal to target, except of "http://"
else if (target.substr(i + 3) == name && type == "http:")
target = name;
}
begin_command_inset(os, "href", "href");
if (name != target)
os << "name \"" << name << "\"\n";
os << "target \"" << target << "\"\n";
if (type == "mailto:" || type == "file:")
os << "type \"" << type << "\"\n";
end_inset(os);
skip_spaces_braces(p);
}
else if (t.cs() == "lyxline") {
// swallow size argument (it is not used anyway)
p.getArg('{', '}');
if (!context.atParagraphStart()) {
// so our line is in the middle of a paragraph
// we need to add a new line, lest this line
// follow the other content on that line and
// run off the side of the page
// FIXME: This may create an empty paragraph,
// but without that it would not be
// possible to set noindent below.
// Fortunately LaTeX does not care
// about the empty paragraph.
context.new_paragraph(os);
}
if (preamble.indentParagraphs()) {
// we need to unindent, lest the line be too long
context.add_par_extra_stuff("\\noindent\n");
}
context.check_layout(os);
begin_command_inset(os, "line", "rule");
os << "offset \"0.5ex\"\n"
"width \"100line%\"\n"
"height \"1pt\"\n";
end_inset(os);
}
else if (t.cs() == "rule") {
string const offset = (p.hasOpt() ? p.getArg('[', ']') : string());
string const width = p.getArg('{', '}');
string const thickness = p.getArg('{', '}');
context.check_layout(os);
begin_command_inset(os, "line", "rule");
if (!offset.empty())
os << "offset \"" << translate_len(offset) << "\"\n";
os << "width \"" << translate_len(width) << "\"\n"
"height \"" << translate_len(thickness) << "\"\n";
end_inset(os);
}
// handle refstyle first to catch \eqref which can also occur
// without refstyle. Only recognize these commands if
// refstyle.sty was found in the preamble (otherwise \eqref
// and user defined ref commands could be misdetected).
else if ((where = is_known(t.cs(), known_refstyle_commands)) &&
preamble.refstyle()) {
context.check_layout(os);
begin_command_inset(os, "ref", "formatted");
os << "reference \"";
os << known_refstyle_prefixes[where - known_refstyle_commands]
<< ":";
os << convert_command_inset_arg(p.verbatim_item())
<< "\"\n";
end_inset(os);
preamble.registerAutomaticallyLoadedPackage("refstyle");
}
// if refstyle is used, we must not convert \prettyref to a
// formatted reference, since that would result in a refstyle command.
else if ((where = is_known(t.cs(), known_ref_commands)) &&
(t.cs() != "prettyref" || !preamble.refstyle())) {
string const opt = p.getOpt();
if (opt.empty()) {
context.check_layout(os);
begin_command_inset(os, "ref",
known_coded_ref_commands[where - known_ref_commands]);
os << "reference \""
<< convert_command_inset_arg(p.verbatim_item())
<< "\"\n";
end_inset(os);
if (t.cs() == "vref" || t.cs() == "vpageref")
preamble.registerAutomaticallyLoadedPackage("varioref");
else if (t.cs() == "prettyref")
preamble.registerAutomaticallyLoadedPackage("prettyref");
} else {
// LyX does not yet support optional arguments of ref commands
output_ert_inset(os, t.asInput() + '[' + opt + "]{" +
p.verbatim_item() + '}', context);
}
}
else if (use_natbib &&
is_known(t.cs(), known_natbib_commands) &&
((t.cs() != "citefullauthor" &&
t.cs() != "citeyear" &&
t.cs() != "citeyearpar") ||
p.next_token().asInput() != "*")) {
context.check_layout(os);
string command = t.cs();
if (p.next_token().asInput() == "*") {
command += '*';
p.get_token();
}
if (command == "citefullauthor")
// alternative name for "\\citeauthor*"
command = "citeauthor*";
// text before the citation
string before;
// text after the citation
string after;
get_cite_arguments(p, true, before, after);
if (command == "cite") {
// \cite without optional argument means
// \citet, \cite with at least one optional
// argument means \citep.
if (before.empty() && after.empty())
command = "citet";
else
command = "citep";
}
if (before.empty() && after == "[]")
// avoid \citet[]{a}
after.erase();
else if (before == "[]" && after == "[]") {
// avoid \citet[][]{a}
before.erase();
after.erase();
}
// remove the brackets around after and before
if (!after.empty()) {
after.erase(0, 1);
after.erase(after.length() - 1, 1);
after = convert_command_inset_arg(after);
}
if (!before.empty()) {
before.erase(0, 1);
before.erase(before.length() - 1, 1);
before = convert_command_inset_arg(before);
}
begin_command_inset(os, "citation", command);
os << "after " << '"' << after << '"' << "\n";
os << "before " << '"' << before << '"' << "\n";
os << "key \""
<< convert_command_inset_arg(p.verbatim_item())
<< "\"\n";
end_inset(os);
// Need to set the cite engine if natbib is loaded by
// the document class directly
if (preamble.citeEngine() == "basic")
preamble.citeEngine("natbib");
}
else if (use_jurabib &&
is_known(t.cs(), known_jurabib_commands) &&
(t.cs() == "cite" || p.next_token().asInput() != "*")) {
context.check_layout(os);
string command = t.cs();
if (p.next_token().asInput() == "*") {
command += '*';
p.get_token();
}
char argumentOrder = '\0';
vector<string> const options =
preamble.getPackageOptions("jurabib");
if (find(options.begin(), options.end(),
"natbiborder") != options.end())
argumentOrder = 'n';
else if (find(options.begin(), options.end(),
"jurabiborder") != options.end())
argumentOrder = 'j';
// text before the citation
string before;
// text after the citation
string after;
get_cite_arguments(p, argumentOrder != 'j', before, after);
string const citation = p.verbatim_item();
if (!before.empty() && argumentOrder == '\0') {
cerr << "Warning: Assuming argument order "
"of jurabib version 0.6 for\n'"
<< command << before << after << '{'
<< citation << "}'.\n"
"Add 'jurabiborder' to the jurabib "
"package options if you used an\n"
"earlier jurabib version." << endl;
}
if (!after.empty()) {
after.erase(0, 1);
after.erase(after.length() - 1, 1);
}
if (!before.empty()) {
before.erase(0, 1);
before.erase(before.length() - 1, 1);
}
begin_command_inset(os, "citation", command);
os << "after " << '"' << after << '"' << "\n";
os << "before " << '"' << before << '"' << "\n";
os << "key " << '"' << citation << '"' << "\n";
end_inset(os);
// Need to set the cite engine if jurabib is loaded by
// the document class directly
if (preamble.citeEngine() == "basic")
preamble.citeEngine("jurabib");
}
else if (t.cs() == "cite"
|| t.cs() == "nocite") {
context.check_layout(os);
string after = convert_command_inset_arg(p.getArg('[', ']'));
string key = convert_command_inset_arg(p.verbatim_item());
// store the case that it is "\nocite{*}" to use it later for
// the BibTeX inset
if (key != "*") {
begin_command_inset(os, "citation", t.cs());
os << "after " << '"' << after << '"' << "\n";
os << "key " << '"' << key << '"' << "\n";
end_inset(os);
} else if (t.cs() == "nocite")
btprint = key;
}
else if (t.cs() == "index" ||
(t.cs() == "sindex" && preamble.use_indices() == "true")) {
context.check_layout(os);
string const arg = (t.cs() == "sindex" && p.hasOpt()) ?
p.getArg('[', ']') : "";
string const kind = arg.empty() ? "idx" : arg;
begin_inset(os, "Index ");
os << kind << "\nstatus collapsed\n";
parse_text_in_inset(p, os, FLAG_ITEM, false, context, "Index");
end_inset(os);
if (kind != "idx")
preamble.registerAutomaticallyLoadedPackage("splitidx");
}
else if (t.cs() == "nomenclature") {
context.check_layout(os);
begin_command_inset(os, "nomenclature", "nomenclature");
string prefix = convert_command_inset_arg(p.getArg('[', ']'));
if (!prefix.empty())
os << "prefix " << '"' << prefix << '"' << "\n";
os << "symbol " << '"'
<< convert_command_inset_arg(p.verbatim_item());
os << "\"\ndescription \""
<< convert_command_inset_arg(p.verbatim_item())
<< "\"\n";
end_inset(os);
preamble.registerAutomaticallyLoadedPackage("nomencl");
}
else if (t.cs() == "label") {
context.check_layout(os);
begin_command_inset(os, "label", "label");
os << "name \""
<< convert_command_inset_arg(p.verbatim_item())
<< "\"\n";
end_inset(os);
}
else if (t.cs() == "printindex" || t.cs() == "printsubindex") {
context.check_layout(os);
string commandname = t.cs();
bool star = false;
if (p.next_token().asInput() == "*") {
commandname += "*";
star = true;
p.get_token();
}
begin_command_inset(os, "index_print", commandname);
string const indexname = p.getArg('[', ']');
if (!star) {
if (indexname.empty())
os << "type \"idx\"\n";
else
os << "type \"" << indexname << "\"\n";
}
end_inset(os);
skip_spaces_braces(p);
preamble.registerAutomaticallyLoadedPackage("makeidx");
if (preamble.use_indices() == "true")
preamble.registerAutomaticallyLoadedPackage("splitidx");
}
else if (t.cs() == "printnomenclature") {
string width = "";
string width_type = "";
context.check_layout(os);
begin_command_inset(os, "nomencl_print", "printnomenclature");
// case of a custom width
if (p.hasOpt()) {
width = p.getArg('[', ']');
width = translate_len(width);
width_type = "custom";
}
// case of no custom width
// the case of no custom width but the width set
// via \settowidth{\nomlabelwidth}{***} cannot be supported
// because the user could have set anything, not only the width
// of the longest label (which would be width_type = "auto")
string label = convert_command_inset_arg(p.getArg('{', '}'));
if (label.empty() && width_type.empty())
width_type = "none";
os << "set_width \"" << width_type << "\"\n";
if (width_type == "custom")
os << "width \"" << width << '\"';
end_inset(os);
skip_spaces_braces(p);
preamble.registerAutomaticallyLoadedPackage("nomencl");
}
else if ((t.cs() == "textsuperscript" || t.cs() == "textsubscript")) {
context.check_layout(os);
begin_inset(os, "script ");
os << t.cs().substr(4) << '\n';
newinsetlayout = findInsetLayout(context.textclass, t.cs(), true);
parse_text_in_inset(p, os, FLAG_ITEM, false, context, newinsetlayout);
end_inset(os);
if (t.cs() == "textsubscript")
preamble.registerAutomaticallyLoadedPackage("subscript");
}
else if ((where = is_known(t.cs(), known_quotes))) {
context.check_layout(os);
begin_inset(os, "Quotes ");
os << known_coded_quotes[where - known_quotes];
end_inset(os);
// LyX adds {} after the quote, so we have to eat
// spaces here if there are any before a possible
// {} pair.
eat_whitespace(p, os, context, false);
skip_braces(p);
}
else if ((where = is_known(t.cs(), known_sizes)) &&
context.new_layout_allowed) {
context.check_layout(os);
TeXFont const oldFont = context.font;
context.font.size = known_coded_sizes[where - known_sizes];
output_font_change(os, oldFont, context.font);
eat_whitespace(p, os, context, false);
}
else if ((where = is_known(t.cs(), known_font_families)) &&
context.new_layout_allowed) {
context.check_layout(os);
TeXFont const oldFont = context.font;
context.font.family =
known_coded_font_families[where - known_font_families];
output_font_change(os, oldFont, context.font);
eat_whitespace(p, os, context, false);
}
else if ((where = is_known(t.cs(), known_font_series)) &&
context.new_layout_allowed) {
context.check_layout(os);
TeXFont const oldFont = context.font;
context.font.series =
known_coded_font_series[where - known_font_series];
output_font_change(os, oldFont, context.font);
eat_whitespace(p, os, context, false);
}
else if ((where = is_known(t.cs(), known_font_shapes)) &&
context.new_layout_allowed) {
context.check_layout(os);
TeXFont const oldFont = context.font;
context.font.shape =
known_coded_font_shapes[where - known_font_shapes];
output_font_change(os, oldFont, context.font);
eat_whitespace(p, os, context, false);
}
else if ((where = is_known(t.cs(), known_old_font_families)) &&
context.new_layout_allowed) {
context.check_layout(os);
TeXFont const oldFont = context.font;
context.font.init();
context.font.size = oldFont.size;
context.font.family =
known_coded_font_families[where - known_old_font_families];
output_font_change(os, oldFont, context.font);
eat_whitespace(p, os, context, false);
}
else if ((where = is_known(t.cs(), known_old_font_series)) &&
context.new_layout_allowed) {
context.check_layout(os);
TeXFont const oldFont = context.font;
context.font.init();
context.font.size = oldFont.size;
context.font.series =
known_coded_font_series[where - known_old_font_series];
output_font_change(os, oldFont, context.font);
eat_whitespace(p, os, context, false);
}
else if ((where = is_known(t.cs(), known_old_font_shapes)) &&
context.new_layout_allowed) {
context.check_layout(os);
TeXFont const oldFont = context.font;
context.font.init();
context.font.size = oldFont.size;
context.font.shape =
known_coded_font_shapes[where - known_old_font_shapes];
output_font_change(os, oldFont, context.font);
eat_whitespace(p, os, context, false);
}
else if (t.cs() == "selectlanguage") {
context.check_layout(os);
// save the language for the case that a
// \foreignlanguage is used
context.font.language = babel2lyx(p.verbatim_item());
os << "\n\\lang " << context.font.language << "\n";
}
else if (t.cs() == "foreignlanguage") {
string const lang = babel2lyx(p.verbatim_item());
parse_text_attributes(p, os, FLAG_ITEM, outer,
context, "\\lang",
context.font.language, lang);
}
else if (prefixIs(t.cs(), "text") && preamble.usePolyglossia()
&& is_known(t.cs().substr(4), preamble.polyglossia_languages)) {
// scheme is \textLANGUAGE{text} where LANGUAGE is in polyglossia_languages[]
string lang;
// We have to output the whole command if it has an option
// because LyX doesn't support this yet, see bug #8214,
// only if there is a single option specifying a variant, we can handle it.
if (p.hasOpt()) {
string langopts = p.getOpt();
// check if the option contains a variant, if yes, extract it
string::size_type pos_var = langopts.find("variant");
string::size_type i = langopts.find(',');
string::size_type k = langopts.find('=', pos_var);
if (pos_var != string::npos && i == string::npos) {
string variant;
variant = langopts.substr(k + 1, langopts.length() - k - 2);
lang = preamble.polyglossia2lyx(variant);
parse_text_attributes(p, os, FLAG_ITEM, outer,
context, "\\lang",
context.font.language, lang);
} else
output_ert_inset(os, t.asInput() + langopts, context);
} else {
lang = preamble.polyglossia2lyx(t.cs().substr(4, string::npos));
parse_text_attributes(p, os, FLAG_ITEM, outer,
context, "\\lang",
context.font.language, lang);
}
}
else if (t.cs() == "inputencoding") {
// nothing to write here
string const enc = subst(p.verbatim_item(), "\n", " ");
p.setEncoding(enc, Encoding::inputenc);
}
else if (is_known(t.cs(), known_special_chars) ||
(t.cs() == "protect" &&
p.next_token().cat() == catEscape &&
is_known(p.next_token().cs(), known_special_protect_chars))) {
// LyX sometimes puts a \protect in front, so we have to ignore it
where = is_known(
t.cs() == "protect" ? p.get_token().cs() : t.cs(),
known_special_chars);
context.check_layout(os);
os << known_coded_special_chars[where - known_special_chars];
skip_spaces_braces(p);
}
else if ((t.cs() == "nobreakdash" && p.next_token().asInput() == "-") ||
(t.cs() == "protect" && p.next_token().asInput() == "\\nobreakdash" &&
p.next_next_token().asInput() == "-") ||
(t.cs() == "@" && p.next_token().asInput() == ".")) {
// LyX sometimes puts a \protect in front, so we have to ignore it
if (t.cs() == "protect")
p.get_token();
context.check_layout(os);
if (t.cs() == "nobreakdash")
os << "\\SpecialChar nobreakdash\n";
else
os << "\\SpecialChar endofsentence\n";
p.get_token();
}
else if (t.cs() == "textquotedbl") {
context.check_layout(os);
os << "\"";
skip_braces(p);
}
else if (t.cs() == "_" || t.cs() == "&" || t.cs() == "#"
|| t.cs() == "$" || t.cs() == "{" || t.cs() == "}"
|| t.cs() == "%" || t.cs() == "-") {
context.check_layout(os);
if (t.cs() == "-")
os << "\\SpecialChar softhyphen\n";
else
os << t.cs();
}
else if (t.cs() == "char") {
context.check_layout(os);
if (p.next_token().character() == '`') {
p.get_token();
if (p.next_token().cs() == "\"") {
p.get_token();
os << '"';
skip_braces(p);
} else {
output_ert_inset(os, "\\char`", context);
}
} else {
output_ert_inset(os, "\\char", context);
}
}
else if (t.cs() == "verb") {
context.check_layout(os);
// set catcodes to verbatim early, just in case.
p.setCatcodes(VERBATIM_CATCODES);
string delim = p.get_token().asInput();
Parser::Arg arg = p.verbatimStuff(delim);
if (arg.first)
output_ert_inset(os, "\\verb" + delim
+ arg.second + delim, context);
else
cerr << "invalid \\verb command. Skipping" << endl;
}
// Problem: \= creates a tabstop inside the tabbing environment
// and else an accent. In the latter case we really would want
// \={o} instead of \= o.
else if (t.cs() == "=" && (flags & FLAG_TABBING))
output_ert_inset(os, t.asInput(), context);
else if (t.cs() == "\\") {
context.check_layout(os);
if (p.hasOpt())
output_ert_inset(os, "\\\\" + p.getOpt(), context);
else if (p.next_token().asInput() == "*") {
p.get_token();
// getOpt() eats the following space if there
// is no optional argument, but that is OK
// here since it has no effect in the output.
output_ert_inset(os, "\\\\*" + p.getOpt(), context);
}
else {
begin_inset(os, "Newline newline");
end_inset(os);
}
}
else if (t.cs() == "newline" ||
(t.cs() == "linebreak" && !p.hasOpt())) {
context.check_layout(os);
begin_inset(os, "Newline ");
os << t.cs();
end_inset(os);
skip_spaces_braces(p);
}
else if (t.cs() == "input" || t.cs() == "include"
|| t.cs() == "verbatiminput") {
string name = t.cs();
if (t.cs() == "verbatiminput"
&& p.next_token().asInput() == "*")
name += p.get_token().asInput();
context.check_layout(os);
string filename(normalize_filename(p.getArg('{', '}')));
string const path = getMasterFilePath(true);
// We want to preserve relative / absolute filenames,
// therefore path is only used for testing
if ((t.cs() == "include" || t.cs() == "input") &&
!makeAbsPath(filename, path).exists()) {
// The file extension is probably missing.
// Now try to find it out.
string const tex_name =
find_file(filename, path,
known_tex_extensions);
if (!tex_name.empty())
filename = tex_name;
}
bool external = false;
string outname;
if (makeAbsPath(filename, path).exists()) {
string const abstexname =
makeAbsPath(filename, path).absFileName();
string const absfigname =
changeExtension(abstexname, ".fig");
fix_child_filename(filename);
string const lyxname = changeExtension(filename,
roundtripMode() ? ".lyx.lyx" : ".lyx");
string const abslyxname = makeAbsPath(
lyxname, getParentFilePath(false)).absFileName();
bool xfig = false;
if (!skipChildren())
external = FileName(absfigname).exists();
if (t.cs() == "input" && !skipChildren()) {
string const ext = getExtension(abstexname);
// Combined PS/LaTeX:
// x.eps, x.pstex_t (old xfig)
// x.pstex, x.pstex_t (new xfig, e.g. 3.2.5)
FileName const absepsname(
changeExtension(abstexname, ".eps"));
FileName const abspstexname(
changeExtension(abstexname, ".pstex"));
bool const xfigeps =
(absepsname.exists() ||
abspstexname.exists()) &&
ext == "pstex_t";
// Combined PDF/LaTeX:
// x.pdf, x.pdftex_t (old xfig)
// x.pdf, x.pdf_t (new xfig, e.g. 3.2.5)
FileName const abspdfname(
changeExtension(abstexname, ".pdf"));
bool const xfigpdf =
abspdfname.exists() &&
(ext == "pdftex_t" || ext == "pdf_t");
if (xfigpdf)
pdflatex = true;
// Combined PS/PDF/LaTeX:
// x_pspdftex.eps, x_pspdftex.pdf, x.pspdftex
string const absbase2(
removeExtension(abstexname) + "_pspdftex");
FileName const abseps2name(
addExtension(absbase2, ".eps"));
FileName const abspdf2name(
addExtension(absbase2, ".pdf"));
bool const xfigboth =
abspdf2name.exists() &&
abseps2name.exists() && ext == "pspdftex";
xfig = xfigpdf || xfigeps || xfigboth;
external = external && xfig;
}
if (external) {
outname = changeExtension(filename, ".fig");
FileName abssrc(changeExtension(abstexname, ".fig"));
copy_file(abssrc, outname);
} else if (xfig) {
// Don't try to convert, the result
// would be full of ERT.
outname = filename;
FileName abssrc(abstexname);
copy_file(abssrc, outname);
} else if (t.cs() != "verbatiminput" &&
!skipChildren() &&
tex2lyx(abstexname, FileName(abslyxname),
p.getEncoding())) {
outname = lyxname;
// no need to call copy_file
// tex2lyx creates the file
} else {
outname = filename;
FileName abssrc(abstexname);
copy_file(abssrc, outname);
}
} else {
cerr << "Warning: Could not find included file '"
<< filename << "'." << endl;
outname = filename;
}
if (external) {
begin_inset(os, "External\n");
os << "\ttemplate XFig\n"
<< "\tfilename " << outname << '\n';
registerExternalTemplatePackages("XFig");
} else {
begin_command_inset(os, "include", name);
outname = subst(outname, "\"", "\\\"");
os << "preview false\n"
"filename \"" << outname << "\"\n";
if (t.cs() == "verbatiminput")
preamble.registerAutomaticallyLoadedPackage("verbatim");
}
end_inset(os);
}
else if (t.cs() == "bibliographystyle") {
// store new bibliographystyle
bibliographystyle = p.verbatim_item();
// If any other command than \bibliography, \addcontentsline
// and \nocite{*} follows, we need to output the style
// (because it might be used by that command).
// Otherwise, it will automatically be output by LyX.
p.pushPosition();
bool output = true;
for (Token t2 = p.get_token(); p.good(); t2 = p.get_token()) {
if (t2.cat() == catBegin)
break;
if (t2.cat() != catEscape)
continue;
if (t2.cs() == "nocite") {
if (p.getArg('{', '}') == "*")
continue;
} else if (t2.cs() == "bibliography")
output = false;
else if (t2.cs() == "phantomsection") {
output = false;
continue;
}
else if (t2.cs() == "addcontentsline") {
// get the 3 arguments of \addcontentsline
p.getArg('{', '}');
p.getArg('{', '}');
contentslineContent = p.getArg('{', '}');
// if the last argument is not \refname we must output
if (contentslineContent == "\\refname")
output = false;
}
break;
}
p.popPosition();
if (output) {
output_ert_inset(os,
"\\bibliographystyle{" + bibliographystyle + '}',
context);
}
}
else if (t.cs() == "phantomsection") {
// we only support this if it occurs between
// \bibliographystyle and \bibliography
if (bibliographystyle.empty())
output_ert_inset(os, "\\phantomsection", context);
}
else if (t.cs() == "addcontentsline") {
context.check_layout(os);
// get the 3 arguments of \addcontentsline
string const one = p.getArg('{', '}');
string const two = p.getArg('{', '}');
string const three = p.getArg('{', '}');
// only if it is a \refname, we support if for the bibtex inset
if (contentslineContent != "\\refname") {
output_ert_inset(os,
"\\addcontentsline{" + one + "}{" + two + "}{"+ three + '}',
context);
}
}
else if (t.cs() == "bibliography") {
context.check_layout(os);
string BibOpts;
begin_command_inset(os, "bibtex", "bibtex");
if (!btprint.empty()) {
os << "btprint " << '"' << "btPrintAll" << '"' << "\n";
// clear the string because the next BibTeX inset can be without the
// \nocite{*} option
btprint.clear();
}
os << "bibfiles " << '"' << p.verbatim_item() << '"' << "\n";
// Do we have addcontentsline?
if (contentslineContent == "\\refname") {
BibOpts = "bibtotoc";
// clear string because next BibTeX inset can be without addcontentsline
contentslineContent.clear();
}
// Do we have a bibliographystyle set?
if (!bibliographystyle.empty()) {
if (BibOpts.empty())
BibOpts = bibliographystyle;
else
BibOpts = BibOpts + ',' + bibliographystyle;
// clear it because each bibtex entry has its style
// and we need an empty string to handle \phantomsection
bibliographystyle.clear();
}
os << "options " << '"' << BibOpts << '"' << "\n";
end_inset(os);
}
else if (t.cs() == "parbox") {
// Test whether this is an outer box of a shaded box
p.pushPosition();
// swallow arguments
while (p.hasOpt()) {
p.getArg('[', ']');
p.skip_spaces(true);
}
p.getArg('{', '}');
p.skip_spaces(true);
// eat the '{'
if (p.next_token().cat() == catBegin)
p.get_token();
p.skip_spaces(true);
Token to = p.get_token();
bool shaded = false;
if (to.asInput() == "\\begin") {
p.skip_spaces(true);
if (p.getArg('{', '}') == "shaded")
shaded = true;
}
p.popPosition();
if (shaded) {
parse_outer_box(p, os, FLAG_ITEM, outer,
context, "parbox", "shaded");
} else
parse_box(p, os, 0, FLAG_ITEM, outer, context,
"", "", t.cs(), "", "");
}
else if (t.cs() == "fbox" || t.cs() == "mbox" ||
t.cs() == "ovalbox" || t.cs() == "Ovalbox" ||
t.cs() == "shadowbox" || t.cs() == "doublebox")
parse_outer_box(p, os, FLAG_ITEM, outer, context, t.cs(), "");
else if (t.cs() == "fcolorbox" || t.cs() == "colorbox") {
string backgroundcolor;
preamble.registerAutomaticallyLoadedPackage("xcolor");
if (t.cs() == "fcolorbox") {
string const framecolor = p.getArg('{', '}');
backgroundcolor = p.getArg('{', '}');
parse_box(p, os, 0, 0, outer, context, "", "", "", framecolor, backgroundcolor);
} else {
backgroundcolor = p.getArg('{', '}');
parse_box(p, os, 0, 0, outer, context, "", "", "", "", backgroundcolor);
}
}
// FIXME: due to the compiler limit of "if" nestings
// the code for the alignment was put here
// put them in their own if if this is fixed
else if (t.cs() == "fboxrule" || t.cs() == "fboxsep"
|| t.cs() == "shadowsize"
|| t.cs() == "raggedleft" || t.cs() == "centering"
|| t.cs() == "raggedright") {
p.skip_spaces(true);
if (t.cs() == "fboxrule")
fboxrule = "";
if (t.cs() == "fboxsep")
fboxsep = "";
if (t.cs() == "shadowsize")
shadow_size = "";
if (t.cs() != "raggedleft" && t.cs() != "centering"
&& t.cs() != "raggedright") {
while (p.good() && p.next_token().cat() != catSpace
&& p.next_token().cat() != catNewline
&& p.next_token().cat() != catEscape) {
if (t.cs() == "fboxrule")
fboxrule = fboxrule + p.get_token().asInput();
if (t.cs() == "fboxsep")
fboxsep = fboxsep + p.get_token().asInput();
if (t.cs() == "shadowsize")
shadow_size = shadow_size + p.get_token().asInput();
}
} else {
// we only handle them if they are in a box
if (!wasBoxAlign)
output_ert_inset(os, '\\' + t.cs() + ' ', context);
}
wasBoxAlign = false;
}
//\framebox() is part of the picture environment and different from \framebox{}
//\framebox{} will be parsed by parse_outer_box
else if (t.cs() == "framebox") {
if (p.next_token().character() == '(') {
//the syntax is: \framebox(x,y)[position]{content}
string arg = t.asInput();
arg += p.getFullParentheseArg();
arg += p.getFullOpt();
eat_whitespace(p, os, context, false);
output_ert_inset(os, arg + '{', context);
parse_text(p, os, FLAG_ITEM, outer, context);
output_ert_inset(os, "}", context);
} else {
//the syntax is: \framebox[width][position]{content}
string special = p.getFullOpt();
special += p.getOpt();
parse_outer_box(p, os, FLAG_ITEM, outer,
context, t.cs(), special);
}
}
//\makebox() is part of the picture environment and different from \makebox{}
//\makebox{} will be parsed by parse_box
else if (t.cs() == "makebox") {
if (p.next_token().character() == '(') {
//the syntax is: \makebox(x,y)[position]{content}
string arg = t.asInput();
arg += p.getFullParentheseArg();
arg += p.getFullOpt();
eat_whitespace(p, os, context, false);
output_ert_inset(os, arg + '{', context);
parse_text(p, os, FLAG_ITEM, outer, context);
output_ert_inset(os, "}", context);
} else
//the syntax is: \makebox[width][position]{content}
parse_box(p, os, 0, FLAG_ITEM, outer, context,
"", "", t.cs(), "", "");
}
else if (t.cs() == "smallskip" ||
t.cs() == "medskip" ||
t.cs() == "bigskip" ||
t.cs() == "vfill") {
context.check_layout(os);
begin_inset(os, "VSpace ");
os << t.cs();
end_inset(os);
skip_spaces_braces(p);
}
else if ((where = is_known(t.cs(), known_spaces))) {
context.check_layout(os);
begin_inset(os, "space ");
os << '\\' << known_coded_spaces[where - known_spaces]
<< '\n';
end_inset(os);
// LaTeX swallows whitespace after all spaces except
// "\\,". We have to do that here, too, because LyX
// adds "{}" which would make the spaces significant.
if (t.cs() != ",")
eat_whitespace(p, os, context, false);
// LyX adds "{}" after all spaces except "\\ " and
// "\\,", so we have to remove "{}".
// "\\,{}" is equivalent to "\\," in LaTeX, so we
// remove the braces after "\\,", too.
if (t.cs() != " ")
skip_braces(p);
}
else if (t.cs() == "newpage" ||
(t.cs() == "pagebreak" && !p.hasOpt()) ||
t.cs() == "clearpage" ||
t.cs() == "cleardoublepage") {
context.check_layout(os);
begin_inset(os, "Newpage ");
os << t.cs();
end_inset(os);
skip_spaces_braces(p);
}
else if (t.cs() == "DeclareRobustCommand" ||
t.cs() == "DeclareRobustCommandx" ||
t.cs() == "newcommand" ||
t.cs() == "newcommandx" ||
t.cs() == "providecommand" ||
t.cs() == "providecommandx" ||
t.cs() == "renewcommand" ||
t.cs() == "renewcommandx") {
// DeclareRobustCommand, DeclareRobustCommandx,
// providecommand and providecommandx could be handled
// by parse_command(), but we need to call
// add_known_command() here.
string name = t.asInput();
if (p.next_token().asInput() == "*") {
// Starred form. Eat '*'
p.get_token();
name += '*';
}
string const command = p.verbatim_item();
string const opt1 = p.getFullOpt();
string const opt2 = p.getFullOpt();
add_known_command(command, opt1, !opt2.empty());
string const ert = name + '{' + command + '}' +
opt1 + opt2 +
'{' + p.verbatim_item() + '}';
if (t.cs() == "DeclareRobustCommand" ||
t.cs() == "DeclareRobustCommandx" ||
t.cs() == "providecommand" ||
t.cs() == "providecommandx" ||
name[name.length()-1] == '*')
output_ert_inset(os, ert, context);
else {
context.check_layout(os);
begin_inset(os, "FormulaMacro");
os << "\n" << ert;
end_inset(os);
}
}
else if (t.cs() == "let" && p.next_token().asInput() != "*") {
// let could be handled by parse_command(),
// but we need to call add_known_command() here.
string ert = t.asInput();
string name;
p.skip_spaces();
if (p.next_token().cat() == catBegin) {
name = p.verbatim_item();
ert += '{' + name + '}';
} else {
name = p.verbatim_item();
ert += name;
}
string command;
p.skip_spaces();
if (p.next_token().cat() == catBegin) {
command = p.verbatim_item();
ert += '{' + command + '}';
} else {
command = p.verbatim_item();
ert += command;
}
// If command is known, make name known too, to parse
// its arguments correctly. For this reason we also
// have commands in syntax.default that are hardcoded.
CommandMap::iterator it = known_commands.find(command);
if (it != known_commands.end())
known_commands[t.asInput()] = it->second;
output_ert_inset(os, ert, context);
}
else if (t.cs() == "hspace" || t.cs() == "vspace") {
if (starred)
p.get_token();
string name = t.asInput();
string const length = p.verbatim_item();
string unit;
string valstring;
bool valid = splitLatexLength(length, valstring, unit);
bool known_hspace = false;
bool known_vspace = false;
bool known_unit = false;
double value;
if (valid) {
istringstream iss(valstring);
iss >> value;
if (value == 1.0) {
if (t.cs()[0] == 'h') {
if (unit == "\\fill") {
if (!starred) {
unit = "";
name = "\\hfill";
}
known_hspace = true;
}
} else {
if (unit == "\\smallskipamount") {
unit = "smallskip";
known_vspace = true;
} else if (unit == "\\medskipamount") {
unit = "medskip";
known_vspace = true;
} else if (unit == "\\bigskipamount") {
unit = "bigskip";
known_vspace = true;
} else if (unit == "\\fill") {
unit = "vfill";
known_vspace = true;
}
}
}
if (!known_hspace && !known_vspace) {
switch (unitFromString(unit)) {
case Length::SP:
case Length::PT:
case Length::BP:
case Length::DD:
case Length::MM:
case Length::PC:
case Length::CC:
case Length::CM:
case Length::IN:
case Length::EX:
case Length::EM:
case Length::MU:
known_unit = true;
break;
default: {
//unitFromString(unit) fails for relative units like Length::PCW
// therefore handle them separately
if (unit == "\\paperwidth" || unit == "\\columnwidth"
|| unit == "\\textwidth" || unit == "\\linewidth"
|| unit == "\\textheight" || unit == "\\paperheight")
known_unit = true;
break;
}
}
}
}
// check for glue lengths
bool is_gluelength = false;
string gluelength = length;
string::size_type i = length.find(" minus");
if (i == string::npos) {
i = length.find(" plus");
if (i != string::npos)
is_gluelength = true;
} else
is_gluelength = true;
// if yes transform "9xx minus 8yy plus 7zz"
// to "9xx-8yy+7zz"
if (is_gluelength) {
i = gluelength.find(" minus");
if (i != string::npos)
gluelength.replace(i, 7, "-");
i = gluelength.find(" plus");
if (i != string::npos)
gluelength.replace(i, 6, "+");
}
if (t.cs()[0] == 'h' && (known_unit || known_hspace || is_gluelength)) {
// Literal horizontal length or known variable
context.check_layout(os);
begin_inset(os, "space ");
os << name;
if (starred)
os << '*';
os << '{';
if (known_hspace)
os << unit;
os << "}";
if (known_unit && !known_hspace)
os << "\n\\length " << translate_len(length);
if (is_gluelength)
os << "\n\\length " << gluelength;
end_inset(os);
} else if (known_unit || known_vspace || is_gluelength) {
// Literal vertical length or known variable
context.check_layout(os);
begin_inset(os, "VSpace ");
if (known_vspace)
os << unit;
if (known_unit && !known_vspace)
os << translate_len(length);
if (is_gluelength)
os << gluelength;
if (starred)
os << '*';
end_inset(os);
} else {
// LyX can't handle other length variables in Inset VSpace/space
if (starred)
name += '*';
if (valid) {
if (value == 1.0)
output_ert_inset(os, name + '{' + unit + '}', context);
else if (value == -1.0)
output_ert_inset(os, name + "{-" + unit + '}', context);
else
output_ert_inset(os, name + '{' + valstring + unit + '}', context);
} else
output_ert_inset(os, name + '{' + length + '}', context);
}
}
// The single '=' is meant here.
else if ((newinsetlayout = findInsetLayout(context.textclass, starredname, true))) {
if (starred)
p.get_token();
p.skip_spaces();
context.check_layout(os);
docstring const name = newinsetlayout->name();
bool const caption = name.find(from_ascii("Caption:")) == 0;
if (caption) {
begin_inset(os, "Caption ");
os << to_utf8(name.substr(8)) << '\n';
} else {
begin_inset(os, "Flex ");
os << to_utf8(name) << '\n'
<< "status collapsed\n";
}
if (newinsetlayout->isPassThru()) {
// set catcodes to verbatim early, just in case.
p.setCatcodes(VERBATIM_CATCODES);
string delim = p.get_token().asInput();
if (delim != "{")
cerr << "Warning: bad delimiter for command " << t.asInput() << endl;
//FIXME: handle error condition
string const arg = p.verbatimStuff("}").second;
Context newcontext(true, context.textclass);
if (newinsetlayout->forcePlainLayout())
newcontext.layout = &context.textclass.plainLayout();
output_ert(os, arg, newcontext);
} else
parse_text_in_inset(p, os, FLAG_ITEM, false, context, newinsetlayout);
if (caption)
p.skip_spaces();
end_inset(os);
}
else if (t.cs() == "includepdf") {
p.skip_spaces();
string const arg = p.getArg('[', ']');
map<string, string> opts;
vector<string> keys;
split_map(arg, opts, keys);
string name = normalize_filename(p.verbatim_item());
string const path = getMasterFilePath(true);
// We want to preserve relative / absolute filenames,
// therefore path is only used for testing
if (!makeAbsPath(name, path).exists()) {
// The file extension is probably missing.
// Now try to find it out.
char const * const pdfpages_format[] = {"pdf", 0};
string const pdftex_name =
find_file(name, path, pdfpages_format);
if (!pdftex_name.empty()) {
name = pdftex_name;
pdflatex = true;
}
}
FileName const absname = makeAbsPath(name, path);
if (absname.exists())
{
fix_child_filename(name);
copy_file(absname, name);
} else
cerr << "Warning: Could not find file '"
<< name << "'." << endl;
// write output
context.check_layout(os);
begin_inset(os, "External\n\ttemplate ");
os << "PDFPages\n\tfilename "
<< name << "\n";
// parse the options
if (opts.find("pages") != opts.end())
os << "\textra LaTeX \"pages="
<< opts["pages"] << "\"\n";
if (opts.find("angle") != opts.end())
os << "\trotateAngle "
<< opts["angle"] << '\n';
if (opts.find("origin") != opts.end()) {
ostringstream ss;
string const opt = opts["origin"];
if (opt == "tl") ss << "topleft";
if (opt == "bl") ss << "bottomleft";
if (opt == "Bl") ss << "baselineleft";
if (opt == "c") ss << "center";
if (opt == "tc") ss << "topcenter";
if (opt == "bc") ss << "bottomcenter";
if (opt == "Bc") ss << "baselinecenter";
if (opt == "tr") ss << "topright";
if (opt == "br") ss << "bottomright";
if (opt == "Br") ss << "baselineright";
if (!ss.str().empty())
os << "\trotateOrigin " << ss.str() << '\n';
else
cerr << "Warning: Ignoring unknown includegraphics origin argument '" << opt << "'\n";
}
if (opts.find("width") != opts.end())
os << "\twidth "
<< translate_len(opts["width"]) << '\n';
if (opts.find("height") != opts.end())
os << "\theight "
<< translate_len(opts["height"]) << '\n';
if (opts.find("keepaspectratio") != opts.end())
os << "\tkeepAspectRatio\n";
end_inset(os);
context.check_layout(os);
registerExternalTemplatePackages("PDFPages");
}
else if (t.cs() == "loadgame") {
p.skip_spaces();
string name = normalize_filename(p.verbatim_item());
string const path = getMasterFilePath(true);
// We want to preserve relative / absolute filenames,
// therefore path is only used for testing
if (!makeAbsPath(name, path).exists()) {
// The file extension is probably missing.
// Now try to find it out.
char const * const lyxskak_format[] = {"fen", 0};
string const lyxskak_name =
find_file(name, path, lyxskak_format);
if (!lyxskak_name.empty())
name = lyxskak_name;
}
FileName const absname = makeAbsPath(name, path);
if (absname.exists())
{
fix_child_filename(name);
copy_file(absname, name);
} else
cerr << "Warning: Could not find file '"
<< name << "'." << endl;
context.check_layout(os);
begin_inset(os, "External\n\ttemplate ");
os << "ChessDiagram\n\tfilename "
<< name << "\n";
end_inset(os);
context.check_layout(os);
// after a \loadgame follows a \showboard
if (p.get_token().asInput() == "showboard")
p.get_token();
registerExternalTemplatePackages("ChessDiagram");
}
else {
// try to see whether the string is in unicodesymbols
// Only use text mode commands, since we are in text mode here,
// and math commands may be invalid (bug 6797)
string name = t.asInput();
// handle the dingbats, cyrillic and greek
if (name == "\\ding" || name == "\\textcyr" ||
(name == "\\textgreek" && !preamble.usePolyglossia()))
name = name + '{' + p.getArg('{', '}') + '}';
// handle the ifsym characters
else if (name == "\\textifsymbol") {
string const optif = p.getFullOpt();
string const argif = p.getArg('{', '}');
name = name + optif + '{' + argif + '}';
}
// handle the \ascii characters
// the case of \ascii within braces, as LyX outputs it, is already
// handled for t.cat() == catBegin
else if (name == "\\ascii") {
// the code is "\asci\xxx"
name = "{" + name + p.get_token().asInput() + "}";
skip_braces(p);
}
// handle some TIPA special characters
else if (preamble.isPackageUsed("tipa")) {
if (name == "\\textglobfall") {
name = "End";
skip_braces(p);
} else if (name == "\\s") {
// fromLaTeXCommand() does not yet
// recognize tipa short cuts
name = "\\textsyllabic";
} else if (name == "\\=" &&
p.next_token().asInput() == "*") {
// fromLaTeXCommand() does not yet
// recognize tipa short cuts
p.get_token();
name = "\\b";
} else if (name == "\\textdoublevertline") {
// FIXME: This is not correct,
// \textvertline is higher than \textbardbl
name = "\\textbardbl";
skip_braces(p);
} else if (name == "\\!" ) {
if (p.next_token().asInput() == "b") {
p.get_token(); // eat 'b'
name = "\\texthtb";
skip_braces(p);
} else if (p.next_token().asInput() == "d") {
p.get_token();
name = "\\texthtd";
skip_braces(p);
} else if (p.next_token().asInput() == "g") {
p.get_token();
name = "\\texthtg";
skip_braces(p);
} else if (p.next_token().asInput() == "G") {
p.get_token();
name = "\\texthtscg";
skip_braces(p);
} else if (p.next_token().asInput() == "j") {
p.get_token();
name = "\\texthtbardotlessj";
skip_braces(p);
} else if (p.next_token().asInput() == "o") {
p.get_token();
name = "\\textbullseye";
skip_braces(p);
}
} else if (name == "\\*" ) {
if (p.next_token().asInput() == "k") {
p.get_token();
name = "\\textturnk";
skip_braces(p);
} else if (p.next_token().asInput() == "r") {
p.get_token(); // eat 'b'
name = "\\textturnr";
skip_braces(p);
} else if (p.next_token().asInput() == "t") {
p.get_token();
name = "\\textturnt";
skip_braces(p);
} else if (p.next_token().asInput() == "w") {
p.get_token();
name = "\\textturnw";
skip_braces(p);
}
}
}
if ((name.size() == 2 &&
contains("\"'.=^`bcdHkrtuv~", name[1]) &&
p.next_token().asInput() != "*") ||
is_known(name.substr(1), known_tipa_marks)) {
// name is a command that corresponds to a
// combining character in unicodesymbols.
// Append the argument, fromLaTeXCommand()
// will either convert it to a single
// character or a combining sequence.
name += '{' + p.verbatim_item() + '}';
}
// now get the character from unicodesymbols
bool termination;
docstring rem;
set<string> req;
docstring s = encodings.fromLaTeXCommand(from_utf8(name),
Encodings::TEXT_CMD, termination, rem, &req);
if (!s.empty()) {
context.check_layout(os);
os << to_utf8(s);
if (!rem.empty())
output_ert_inset(os, to_utf8(rem), context);
if (termination)
skip_spaces_braces(p);
for (set<string>::const_iterator it = req.begin(); it != req.end(); ++it)
preamble.registerAutomaticallyLoadedPackage(*it);
}
//cerr << "#: " << t << " mode: " << mode << endl;
// heuristic: read up to next non-nested space
/*
string s = t.asInput();
string z = p.verbatim_item();
while (p.good() && z != " " && !z.empty()) {
//cerr << "read: " << z << endl;
s += z;
z = p.verbatim_item();
}
cerr << "found ERT: " << s << endl;
output_ert_inset(os, s + ' ', context);
*/
else {
if (t.asInput() == name &&
p.next_token().asInput() == "*") {
// Starred commands like \vspace*{}
p.get_token(); // Eat '*'
name += '*';
}
if (!parse_command(name, p, os, outer, context))
output_ert_inset(os, name, context);
}
}
if (flags & FLAG_LEAVE) {
flags &= ~FLAG_LEAVE;
break;
}
}
}
string guessLanguage(Parser & p, string const & lang)
{
typedef std::map<std::string, size_t> LangMap;
// map from language names to number of characters
LangMap used;
used[lang] = 0;
for (char const * const * i = supported_CJK_languages; *i; i++)
used[string(*i)] = 0;
while (p.good()) {
Token const t = p.get_token();
// comments are not counted for any language
if (t.cat() == catComment)
continue;
// commands are not counted as well, but we need to detect
// \begin{CJK} and switch encoding if needed
if (t.cat() == catEscape) {
if (t.cs() == "inputencoding") {
string const enc = subst(p.verbatim_item(), "\n", " ");
p.setEncoding(enc, Encoding::inputenc);
continue;
}
if (t.cs() != "begin")
continue;
} else {
// Non-CJK content is counted for lang.
// We do not care about the real language here:
// If we have more non-CJK contents than CJK contents,
// we simply use the language that was specified as
// babel main language.
used[lang] += t.asInput().length();
continue;
}
// Now we are starting an environment
p.pushPosition();
string const name = p.getArg('{', '}');
if (name != "CJK") {
p.popPosition();
continue;
}
// It is a CJK environment
p.popPosition();
/* name = */ p.getArg('{', '}');
string const encoding = p.getArg('{', '}');
/* mapping = */ p.getArg('{', '}');
string const encoding_old = p.getEncoding();
char const * const * const where =
is_known(encoding, supported_CJK_encodings);
if (where)
p.setEncoding(encoding, Encoding::CJK);
else
p.setEncoding("UTF-8");
string const text = p.ertEnvironment("CJK");
p.setEncoding(encoding_old);
p.skip_spaces();
if (!where) {
// ignore contents in unknown CJK encoding
continue;
}
// the language of the text
string const cjk =
supported_CJK_languages[where - supported_CJK_encodings];
used[cjk] += text.length();
}
LangMap::const_iterator use = used.begin();
for (LangMap::const_iterator it = used.begin(); it != used.end(); ++it) {
if (it->second > use->second)
use = it;
}
return use->first;
}
// }])
} // namespace lyx
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