/** * \file tex2lyx/text.C * 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 * * Full author contact details are available in file CREDITS. */ // {[( #include #include "tex2lyx.h" #include "context.h" #include "FloatList.h" #include "lengthcommon.h" #include "support/lstrings.h" #include "support/tostr.h" #include "support/filetools.h" #include #include #include #include using lyx::support::rtrim; using lyx::support::suffixIs; using lyx::support::contains; using lyx::support::subst; using std::cerr; using std::endl; using std::map; using std::ostream; using std::ostringstream; using std::istringstream; using std::string; using std::vector; /// thin wrapper around parse_text using a string string parse_text(Parser & p, unsigned flags, const bool outer, Context & context) { ostringstream os; parse_text(p, os, flags, outer, context); return os.str(); } void parse_text_in_inset(Parser & p, ostream & os, unsigned flags, bool outer, Context & context) { Context newcontext(true, context.textclass); newcontext.font = context.font; parse_text(p, os, flags, outer, newcontext); newcontext.check_end_layout(os); } /// 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(false, context.textclass); newcontext.font = context.font; parse_text(p, os, flags, outer, newcontext); // should not be needed newcontext.check_end_layout(os); } namespace { char const * const known_latex_commands[] = { "ref", "cite", "label", "index", "printindex", "pageref", "url", "vref", "vpageref", "prettyref", "eqref", 0 }; /// LaTeX names for quotes char const * const known_quotes[] = { "glqq", "grqq", "quotedblbase", "textquotedblleft", "quotesinglbase", "guilsinglleft", "guilsinglright", 0}; /// the same as known_quotes with .lyx names char const * const known_coded_quotes[] = { "gld", "grd", "gld", "grd", "gls", "fls", "frd", 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}; /// the same as known_old_font_families and known_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}; /// the same as known_old_font_series and known_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}; /// the same as known_old_font_shapes and known_font_shapes with .lyx names char const * const known_coded_font_shapes[] = { "italic", "slanted", "smallcaps", "up", 0}; /// splits "x=z, y=b" into a map map split_map(string const & s) { map res; vector v; split(s, v); for (size_t i = 0; i < v.size(); ++i) { size_t const pos = v[i].find('='); string const index = v[i].substr(0, pos); string const value = v[i].substr(pos + 1, string::npos); res[trim(index)] = trim(value); } return res; } /*! * 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. * \return true if \param value and \param 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 = trim(string(length, 0, i)); } if (value == "-") value = "-1.0"; // 'cM' is a valid LaTeX length unit. Change it to 'cm' if (contains(len, '\\')) unit = trim(string(len, i)); else unit = lyx::support::lowercase(trim(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; } /*! * Translates a LaTeX length into \param value, \param unit and * \param 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 \param 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"; } } void begin_inset(ostream & os, string const & name) { os << "\n\\begin_inset " << name; } void end_inset(ostream & os) { os << "\n\\end_inset \n\n"; } void skip_braces(Parser & p) { if (p.next_token().cat() != catBegin) return; p.get_token(); if (p.next_token().cat() == catEnd) { p.get_token(); return; } p.putback(); } void handle_ert(ostream & os, string const & s, Context & context, bool check_layout = true) { if (check_layout) { // We must have a valid layout before outputting the ERT inset. context.check_layout(os); } Context newcontext(true, context.textclass); begin_inset(os, "ERT"); os << "\nstatus collapsed\n"; newcontext.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') os << "\n\\newline \n"; else os << *it; } newcontext.check_end_layout(os); end_inset(os); } void handle_comment(ostream & os, string const & s, Context & context) { // TODO: Handle this better Context newcontext(true, context.textclass); begin_inset(os, "ERT"); os << "\nstatus collapsed\n"; newcontext.check_layout(os); for (string::const_iterator it = s.begin(), et = s.end(); it != et; ++it) { if (*it == '\\') os << "\n\\backslash \n"; else os << *it; } // make sure that our comment is the last thing on the line os << "\n\\newline"; newcontext.check_end_layout(os); end_inset(os); } class isLayout : public std::unary_function { public: isLayout(string const name) : name_(name) {} bool operator()(LyXLayout_ptr const & ptr) const { return ptr->latexname() == name_; } private: string const name_; }; LyXLayout_ptr findLayout(LyXTextClass const & textclass, string const & name) { LyXTextClass::const_iterator beg = textclass.begin(); LyXTextClass::const_iterator end = textclass.end(); LyXTextClass::const_iterator it = std::find_if(beg, end, isLayout(name)); return (it == end) ? LyXLayout_ptr() : *it; } void eat_whitespace(Parser &, ostream &, Context &, bool); void output_command_layout(ostream & os, Parser & p, bool outer, Context & parent_context, LyXLayout_ptr newlayout) { 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); context.check_layout(os); if (context.layout->optionalargs > 0) { eat_whitespace(p, os, context, false); if (p.next_token().character() == '[') { p.get_token(); // eat '[' begin_inset(os, "OptArg\n"); os << "status collapsed\n\n"; parse_text_in_inset(p, os, FLAG_BRACK_LAST, outer, context); end_inset(os); eat_whitespace(p, os, context, false); } } parse_text_snippet(p, os, FLAG_ITEM, outer, context); 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); } /*! * 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 const & 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 << ' '; } /*! * 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()) { vector const & template_arguments = known_commands[command]; 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: // This argument contains regular LaTeX handle_ert(os, ert + '{', context); parse_text(p, os, FLAG_ITEM, outer, context); ert = "}"; break; case verbatim: // This argument may contain special characters ert += '{' + p.verbatim_item() + '}'; break; case optional: ert += p.getOpt(); break; } } handle_ert(os, ert, context); return true; } return false; } /// Parses a minipage or parbox void parse_box(Parser & p, ostream & os, unsigned flags, bool outer, Context & parent_context, bool use_parbox) { string position; string inner_pos; string height_value = "0"; string height_unit = "pt"; string height_special = "none"; string latex_height; if (p.next_token().asInput() == "[") { position = p.getArg('[', ']'); if (position != "t" && position != "c" && position != "b") { position = "c"; cerr << "invalid position for minipage/parbox" << endl; } if (p.next_token().asInput() == "[") { latex_height = p.getArg('[', ']'); translate_box_len(latex_height, height_value, height_unit, height_special); if (p.next_token().asInput() == "[") { inner_pos = p.getArg('[', ']'); if (inner_pos != "c" && inner_pos != "t" && inner_pos != "b" && inner_pos != "s") { inner_pos = position; cerr << "invalid inner_pos for minipage/parbox" << endl; } } } } string width_value; string width_unit; string const latex_width = p.verbatim_item(); translate_len(latex_width, width_value, width_unit); if (contains(width_unit, '\\') || contains(height_unit, '\\')) { // LyX can't handle length variables ostringstream ss; if (use_parbox) ss << "\\parbox"; else ss << "\\begin{minipage}"; if (!position.empty()) ss << '[' << position << ']'; if (!latex_height.empty()) ss << '[' << latex_height << ']'; if (!inner_pos.empty()) ss << '[' << inner_pos << ']'; ss << "{" << latex_width << "}"; if (use_parbox) ss << '{'; handle_ert(os, ss.str(), parent_context); parent_context.new_paragraph(os); parse_text_in_inset(p, os, flags, outer, parent_context); if (use_parbox) handle_ert(os, "}", parent_context); else handle_ert(os, "\\end{minipage}", 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 Frameless\n"); os << "position \"" << position << "\"\n"; os << "hor_pos \"c\"\n"; os << "has_inner_box 1\n"; os << "inner_pos \"" << inner_pos << "\"\n"; os << "use_parbox " << use_parbox << "\n"; os << "width \"" << width_value << width_unit << "\"\n"; os << "special \"none\"\n"; os << "height \"" << height_value << height_unit << "\"\n"; os << "height_special \"" << height_special << "\"\n"; os << "status open\n\n"; parse_text_in_inset(p, os, flags, outer, parent_context); 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 //handle_comment(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) { //handle_comment(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) { os << "\\InsetSpace ~\n"; } } #endif } } void parse_environment(Parser & p, ostream & os, bool outer, Context & parent_context) { LyXLayout_ptr newlayout; string const name = p.getArg('{', '}'); const bool is_starred = suffixIs(name, '*'); string const unstarred_name = rtrim(name, "*"); eat_whitespace(p, os, parent_context, false); 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); } else if (name == "tabular") { parent_context.check_layout(os); begin_inset(os, "Tabular "); handle_tabular(p, os, parent_context); end_inset(os); } else if (parent_context.textclass.floats().typeExist(unstarred_name)) { parent_context.check_layout(os); begin_inset(os, "Float " + unstarred_name + "\n"); if (p.next_token().asInput() == "[") { os << "placement " << p.getArg('[', ']') << '\n'; } os << "wide " << tostr(is_starred) << "\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); } else if (name == "minipage") parse_box(p, os, FLAG_END, outer, parent_context, false); // Alignment settings else if (name == "center" || name == "flushleft" || name == "flushright" || name == "centering" || name == "raggedright" || name == "raggedleft") { // 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" || name == "raggedright") parent_context.add_extra_stuff("\\align left "); else if (name == "flushright" || name == "raggedleft") parent_context.add_extra_stuff("\\align right "); else parent_context.add_extra_stuff("\\align center "); 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); } // The single '=' is meant here. else if ((newlayout = findLayout(parent_context.textclass, name)).get() && newlayout->isEnvironment()) { 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); switch (context.layout->latextype) { case LATEX_LIST_ENVIRONMENT: context.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); parse_text(p, os, FLAG_END, outer, context); 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); } else if (name == "appendix") { // This is no good latex style, but it works and is used in some documents... 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); } else if (name == "comment") { 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); } else if (name == "lyxgreyedout") { 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); } else if (name == "tabbing") { // We need to remember that we have to handle '\=' specially handle_ert(os, "\\begin{" + name + "}", parent_context); parse_text_snippet(p, os, FLAG_END | FLAG_TABBING, outer, parent_context); handle_ert(os, "\\end{" + name + "}", parent_context); } else { handle_ert(os, "\\begin{" + name + "}", parent_context); parse_text_snippet(p, os, FLAG_END, outer, parent_context); handle_ert(os, "\\end{" + name + "}", parent_context); } active_environments.pop_back(); if (name != "math") p.skip_spaces(); } /// parses a comment and outputs it to \p os. void parse_comment(Parser & p, ostream & os, Token const & t, Context & context) { BOOST_ASSERT(t.cat() == catComment); context.check_layout(os); if (!t.cs().empty()) { handle_comment(os, '%' + t.cs(), context); if (p.next_token().cat() == catNewline) { // A newline after a comment line starts a new // paragraph if(!context.atParagraphStart()) { // Only start a new paragraph if not already // done (we might get called recursively) context.new_paragraph(os); } 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 oldvalue = currentvalue; currentvalue = newvalue; os << '\n' << attribute << ' ' << newvalue << " \n"; parse_text_snippet(p, os, flags, outer, context); currentvalue = oldvalue; os << '\n' << attribute << ' ' << oldvalue << " \n"; } } // anonymous namespace void parse_text(Parser & p, ostream & os, unsigned flags, bool outer, Context & context) { LyXLayout_ptr newlayout; // Store the latest bibliographystyle (needed for bibtex inset) string bibliographystyle; while (p.good()) { Token const & t = p.get_token(); #ifdef FILEDEBUG cerr << "t: " << t << " flags: " << flags << "\n"; #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.character() == ']' && (flags & FLAG_BRACK_LAST)) return; // // cat codes // 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(); if (n.cat() == catMath && outer) { // 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); } 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.cat() == catSpace || (t.cat() == catNewline && ! p.isParagraph())) check_space(p, os, context); else if (t.cat() == catLetter || t.cat() == catOther || t.cat() == catAlign || t.cat() == catParameter) { context.check_layout(os); os << t.character(); } else if (p.isParagraph()) { context.new_paragraph(os); 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 os << "\\InsetSpace ~\n"; } else os << t.character(); } else if (t.cat() == catBegin) { context.check_layout(os); // special handling of font attribute changes Token const prev = p.prev_token(); Token const next = p.next_token(); Font const oldFont = context.font; string const s = parse_text(p, FLAG_BRACE_LAST, outer, context); context.font = oldFont; if (s.empty() && (p.next_token().character() == '`' || (prev.character() == '-' && p.next_token().character() == '-'))) ; // ignore it in {}`` or -{}- else if (s == "[" || s == "]" || s == "*") os << s; else if (is_known(next.cs(), known_sizes)) // s will change the size, so we must reset // it here os << s << "\n\\size " << context.font.size << " \n"; else if (is_known(next.cs(), known_font_families)) // s will change the font family, so we must // reset it here os << s << "\n\\family " << context.font.family << " \n"; else if (is_known(next.cs(), known_font_series)) // s will change the font series, so we must // reset it here os << s << "\n\\series " << context.font.series << " \n"; else if (is_known(next.cs(), known_font_shapes)) // s will change the font shape, so we must // reset it here os << s << "\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)) // s will change the font family, series // and shape, so we must reset it here os << s << "\n\\family " << context.font.family << " \n\\series " << context.font.series << " \n\\shape " << context.font.shape << " \n"; else { handle_ert(os, "{", context, false); // s will end the current layout and begin a // new one if necessary os << s; handle_ert(os, "}", context); } } else if (t.cat() == catEnd) { if (flags & FLAG_BRACE_LAST) { return; } cerr << "stray '}' in text\n"; handle_ert(os, "}", context); } else if (t.cat() == catComment) parse_comment(p, os, t, context); // // control sequences // else if (t.cs() == "(") { context.check_layout(os); begin_inset(os, "Formula"); os << " \$"; parse_math(p, os, FLAG_SIMPLE2, MATH_MODE); os << "\$"; end_inset(os); } else if (t.cs() == "[") { context.check_layout(os); begin_inset(os, "Formula"); os << " \\["; parse_math(p, os, FLAG_EQUATION, MATH_MODE); os << "\\]"; end_inset(os); } else if (t.cs() == "begin") parse_environment(p, os, outer, 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") { p.skip_spaces(); string s; bool optarg = false; if (p.next_token().character() == '[') { p.get_token(); // eat '[' Context newcontext(false, context.textclass); newcontext.font = context.font; s = parse_text(p, FLAG_BRACK_LAST, outer, newcontext); optarg = true; } context.set_item(); context.check_layout(os); if (optarg) { if (context.layout->labeltype != LABEL_MANUAL) { // lyx does not support \item[\mybullet] // in itemize environments handle_ert(os, "[", context); os << s; handle_ert(os, "]", context); } else if (!s.empty()) { // The space is needed to separate the // item from the rest of the sentence. os << s << ' '; eat_whitespace(p, os, context, false); } } } else if (t.cs() == "bibitem") { context.set_item(); context.check_layout(os); os << "\\bibitem "; os << p.getOpt(); os << '{' << p.verbatim_item() << '}' << "\n"; } else if (t.cs() == "def") { context.check_layout(os); eat_whitespace(p, os, context, false); string name = p.get_token().cs(); while (p.next_token().cat() != catBegin) name += p.get_token().asString(); handle_ert(os, "\\def\\" + name + '{' + p.verbatim_item() + '}', context); } else if (t.cs() == "noindent") { p.skip_spaces(); context.add_extra_stuff("\\noindent "); } else if (t.cs() == "appendix") { p.skip_spaces(); context.add_extra_stuff("\\start_of_appendix "); } // Must attempt to parse "Section*" before "Section". else if ((p.next_token().asInput() == "*") && // The single '=' is meant here. (newlayout = findLayout(context.textclass, t.cs() + '*')).get() && newlayout->isCommand()) { p.get_token(); output_command_layout(os, p, outer, context, newlayout); p.skip_spaces(); } // The single '=' is meant here. else if ((newlayout = findLayout(context.textclass, t.cs())).get() && newlayout->isCommand()) { output_command_layout(os, p, outer, context, newlayout); p.skip_spaces(); } else if (t.cs() == "includegraphics") { map opts = split_map(p.getArg('[', ']')); string name = subst(p.verbatim_item(), "\\lyxdot ", "."); 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'; 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); } else if (t.cs() == "footnote") { 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() == "ensuremath") { p.skip_spaces(); context.check_layout(os); Context newcontext(false, context.textclass); newcontext.font = context.font; string s = parse_text(p, FLAG_ITEM, false, newcontext); if (s == "±" || s == "³" || s == "²" || s == "µ") os << s; else handle_ert(os, "\\ensuremath{" + s + "}", context); } else if (t.cs() == "hfill") { context.check_layout(os); os << "\n\\hfill \n"; skip_braces(p); p.skip_spaces(); } else if (t.cs() == "makeindex" || t.cs() == "maketitle") { p.skip_spaces(); skip_braces(p); // swallow this } else if (t.cs() == "tableofcontents") { p.skip_spaces(); context.check_layout(os); begin_inset(os, "LatexCommand \\tableofcontents\n"); end_inset(os); skip_braces(p); // swallow this } else if (t.cs() == "listoffigures") { p.skip_spaces(); context.check_layout(os); begin_inset(os, "FloatList figure\n"); end_inset(os); skip_braces(p); // swallow this } else if (t.cs() == "listoftables") { p.skip_spaces(); context.check_layout(os); begin_inset(os, "FloatList table\n"); end_inset(os); skip_braces(p); // swallow this } else if (t.cs() == "listof") { p.skip_spaces(true); string const name = p.get_token().asString(); 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 handle_ert(os, "\\listof{" + name + "}", context); } else if (t.cs() == "textrm") parse_text_attributes(p, os, FLAG_ITEM, outer, context, "\\family", context.font.family, "roman"); else if (t.cs() == "textsf") parse_text_attributes(p, os, FLAG_ITEM, outer, context, "\\family", context.font.family, "sans"); else if (t.cs() == "texttt") parse_text_attributes(p, os, FLAG_ITEM, outer, context, "\\family", context.font.family, "typewriter"); else if (t.cs() == "textmd") parse_text_attributes(p, os, FLAG_ITEM, outer, context, "\\series", context.font.series, "medium"); else if (t.cs() == "textbf") parse_text_attributes(p, os, FLAG_ITEM, outer, context, "\\series", context.font.series, "bold"); else if (t.cs() == "textup") parse_text_attributes(p, os, FLAG_ITEM, outer, context, "\\shape", context.font.shape, "up"); else if (t.cs() == "textit") parse_text_attributes(p, os, FLAG_ITEM, outer, context, "\\shape", context.font.shape, "italic"); else if (t.cs() == "textsl") parse_text_attributes(p, os, FLAG_ITEM, outer, context, "\\shape", context.font.shape, "slanted"); else if (t.cs() == "textsc") parse_text_attributes(p, os, FLAG_ITEM, outer, context, "\\shape", context.font.shape, "smallcaps"); else if (t.cs() == "textnormal" || t.cs() == "normalfont") { context.check_layout(os); Font 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); context.font = oldFont; os << "\n\\shape " << oldFont.shape << " \n"; os << "\n\\series " << oldFont.series << " \n"; os << "\n\\family " << oldFont.family << " \n"; } else eat_whitespace(p, os, context, false); } else if (t.cs() == "underbar") { context.check_layout(os); os << "\n\\bar under \n"; parse_text_snippet(p, os, FLAG_ITEM, outer, context); os << "\n\\bar default \n"; } else if (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); os << "\n\\" << t.cs() << " default \n"; } else if (is_known(t.cs(), known_latex_commands)) { context.check_layout(os); begin_inset(os, "LatexCommand "); os << '\\' << t.cs(); os << p.getOpt(); os << p.getOpt(); os << '{' << p.verbatim_item() << "}\n"; end_inset(os); } else if (is_known(t.cs(), known_quotes)) { char const * const * 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 (is_known(t.cs(), known_sizes)) { char const * const * where = is_known(t.cs(), known_sizes); context.check_layout(os); context.font.size = known_coded_sizes[where - known_sizes]; os << "\n\\size " << context.font.size << '\n'; eat_whitespace(p, os, context, false); } else if (is_known(t.cs(), known_font_families)) { char const * const * where = is_known(t.cs(), known_font_families); context.check_layout(os); context.font.family = known_coded_font_families[where - known_font_families]; os << "\n\\family " << context.font.family << '\n'; eat_whitespace(p, os, context, false); } else if (is_known(t.cs(), known_font_series)) { char const * const * where = is_known(t.cs(), known_font_series); context.check_layout(os); context.font.series = known_coded_font_series[where - known_font_series]; os << "\n\\series " << context.font.series << '\n'; eat_whitespace(p, os, context, false); } else if (is_known(t.cs(), known_font_shapes)) { char const * const * where = is_known(t.cs(), known_font_shapes); context.check_layout(os); context.font.shape = known_coded_font_shapes[where - known_font_shapes]; os << "\n\\shape " << context.font.shape << '\n'; eat_whitespace(p, os, context, false); } else if (is_known(t.cs(), known_old_font_families)) { char const * const * where = is_known(t.cs(), known_old_font_families); context.check_layout(os); string oldsize = context.font.size; context.font.init(); context.font.size = oldsize; context.font.family = known_coded_font_families[where - known_old_font_families]; os << "\n\\family " << context.font.family << " \n" << "\\series " << context.font.series << " \n" << "\\shape " << context.font.shape << " \n"; eat_whitespace(p, os, context, false); } else if (is_known(t.cs(), known_old_font_series)) { char const * const * where = is_known(t.cs(), known_old_font_series); context.check_layout(os); string oldsize = context.font.size; context.font.init(); context.font.size = oldsize; context.font.series = known_coded_font_series[where - known_old_font_series]; os << "\n\\family " << context.font.family << " \n" << "\\series " << context.font.series << " \n" << "\\shape " << context.font.shape << " \n"; eat_whitespace(p, os, context, false); } else if (is_known(t.cs(), known_old_font_shapes)) { char const * const * where = is_known(t.cs(), known_old_font_shapes); context.check_layout(os); string oldsize = context.font.size; context.font.init(); context.font.size = oldsize; context.font.shape = known_coded_font_shapes[where - known_old_font_shapes]; os << "\n\\family " << context.font.family << " \n" << "\\series " << context.font.series << " \n" << "\\shape " << context.font.shape << " \n"; eat_whitespace(p, os, context, false); } else if (t.cs() == "LyX" || t.cs() == "TeX" || t.cs() == "LaTeX") { context.check_layout(os); os << t.cs(); skip_braces(p); // eat {} } else if (t.cs() == "LaTeXe") { context.check_layout(os); os << "LaTeX2e"; skip_braces(p); // eat {} } else if (t.cs() == "ldots") { context.check_layout(os); skip_braces(p); os << "\\SpecialChar \\ldots{}\n"; } else if (t.cs() == "lyxarrow") { context.check_layout(os); os << "\\SpecialChar \\menuseparator\n"; skip_braces(p); } else if (t.cs() == "textcompwordmark") { context.check_layout(os); os << "\\SpecialChar \\textcompwordmark{}\n"; skip_braces(p); } else if (t.cs() == "@" && p.next_token().asInput() == ".") { context.check_layout(os); os << "\\SpecialChar \\@.\n"; p.get_token(); } else if (t.cs() == "-") { context.check_layout(os); os << "\\SpecialChar \\-\n"; } else if (t.cs() == "textasciitilde") { context.check_layout(os); os << '~'; skip_braces(p); } else if (t.cs() == "textasciicircum") { context.check_layout(os); os << '^'; skip_braces(p); } else if (t.cs() == "textbackslash") { context.check_layout(os); os << "\n\\backslash \n"; skip_braces(p); } else if (t.cs() == "_" || t.cs() == "&" || t.cs() == "#" || t.cs() == "$" || t.cs() == "{" || t.cs() == "}" || t.cs() == "%") { context.check_layout(os); 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 { handle_ert(os, "\\char`", context); } } else { handle_ert(os, "\\char", context); } } else if (t.cs() == "\"") { context.check_layout(os); string const name = p.verbatim_item(); if (name == "a") os << 'ä'; else if (name == "o") os << 'ö'; else if (name == "u") os << 'ü'; else if (name == "A") os << 'Ä'; else if (name == "O") os << 'Ö'; else if (name == "U") os << 'Ü'; else handle_ert(os, "\"{" + name + "}", context); } // 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)) handle_ert(os, t.asInput(), context); else if (t.cs() == "H" || t.cs() == "c" || t.cs() == "^" || t.cs() == "'" || t.cs() == "~" || t.cs() == "." || t.cs() == "=") { // we need the trim as the LyX parser chokes on such spaces context.check_layout(os); os << "\n\\i \\" << t.cs() << "{" << trim(parse_text(p, FLAG_ITEM, outer, context), " ") << "}\n"; } else if (t.cs() == "ss") { context.check_layout(os); os << "ß"; } else if (t.cs() == "i" || t.cs() == "j") { context.check_layout(os); os << "\\" << t.cs() << ' '; } else if (t.cs() == "\\") { context.check_layout(os); string const next = p.next_token().asInput(); if (next == "[") handle_ert(os, "\\\\" + p.getOpt(), context); else if (next == "*") { p.get_token(); handle_ert(os, "\\\\*" + p.getOpt(), context); } else { os << "\n\\newline \n"; } } 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); begin_inset(os, "Include "); string filename(p.getArg('{', '}')); string lyxname(lyx::support::ChangeExtension(filename, ".lyx")); if (tex2lyx(filename, lyxname)) { os << name << '{' << lyxname << "}\n"; } else { os << name << '{' << filename << "}\n"; } os << "preview false\n"; end_inset(os); } else if (t.cs() == "fancyhead") { context.check_layout(os); ostringstream ss; ss << "\\fancyhead"; ss << p.getOpt(); ss << '{' << p.verbatim_item() << "}\n"; handle_ert(os, ss.str(), context); } else if (t.cs() == "bibliographystyle") { // store new bibliographystyle bibliographystyle = p.verbatim_item(); // output new bibliographystyle. // This is only necessary if used in some other macro than \bibliography. handle_ert(os, "\\bibliographystyle{" + bibliographystyle + "}", context); } else if (t.cs() == "bibliography") { context.check_layout(os); begin_inset(os, "LatexCommand "); os << "\\bibtex"; // Do we have a bibliographystyle set? if (!bibliographystyle.empty()) { os << '[' << bibliographystyle << ']'; } os << '{' << p.verbatim_item() << "}\n"; end_inset(os); } else if (t.cs() == "parbox") parse_box(p, os, FLAG_ITEM, outer, context, true); 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_braces(p); } else if (t.cs() == "vspace") { bool starred = false; if (p.next_token().asInput() == "*") { p.get_token(); starred = true; } string const length = p.verbatim_item(); string unit; string valstring; bool valid = splitLatexLength(length, valstring, unit); bool known_vspace = false; bool known_unit = false; double value; if (valid) { istringstream iss(valstring); iss >> value; if (value == 1.0) { 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_vspace) { switch (unitFromString(unit)) { case LyXLength::SP: case LyXLength::PT: case LyXLength::BP: case LyXLength::DD: case LyXLength::MM: case LyXLength::PC: case LyXLength::CC: case LyXLength::CM: case LyXLength::IN: case LyXLength::EX: case LyXLength::EM: case LyXLength::MU: known_unit = true; break; default: break; } } } if (known_unit || known_vspace) { // Literal length or known variable context.check_layout(os); begin_inset(os, "VSpace "); if (known_unit) os << value; os << unit; if (starred) os << '*'; end_inset(os); } else { // LyX can't handle other length variables in Inset VSpace string name = t.asInput(); if (starred) name += '*'; if (valid) { if (value == 1.0) handle_ert(os, name + '{' + unit + '}', context); else if (value == -1.0) handle_ert(os, name + "{-" + unit + '}', context); else handle_ert(os, name + '{' + valstring + unit + '}', context); } else handle_ert(os, name + '{' + length + '}', context); } } else { //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.size()) { //cerr << "read: " << z << endl; s += z; z = p.verbatim_item(); } cerr << "found ERT: " << s << endl; handle_ert(os, s + ' ', context); */ string name = t.asInput(); if (p.next_token().asInput() == "*") { // Starred commands like \vspace*{} p.get_token(); // Eat '*' name += '*'; } if (! parse_command(name, p, os, outer, context)) handle_ert(os, name, context); } if (flags & FLAG_LEAVE) { flags &= ~FLAG_LEAVE; break; } } } // }])