/** * \file MathParser.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author André Pönitz * * Full author contact details are available in file CREDITS. */ /* If someone desperately needs partial "structures" (such as a few cells of an array inset or similar) (s)he could uses the following hack as starting point to write some macros: \newif\ifcomment \commentfalse \ifcomment \def\makeamptab{\catcode`\&=4\relax} \def\makeampletter{\catcode`\&=11\relax} \def\b{\makeampletter\expandafter\makeamptab\bi} \long\def\bi#1\e{} \else \def\b{}\def\e{} \fi ... \[\begin{array}{ccc} 1 & \end{array}\] */ #include #include "MathParser.h" #include "InsetMathArray.h" #include "InsetMathBig.h" #include "InsetMathBrace.h" #include "InsetMathCancelto.h" #include "InsetMathChar.h" #include "InsetMathColor.h" #include "InsetMathComment.h" #include "InsetMathDelim.h" #include "InsetMathEnsureMath.h" #include "InsetMathEnv.h" #include "InsetMathFrac.h" #include "InsetMathKern.h" #include "InsetMathMacro.h" #include "InsetMathPar.h" #include "InsetMathRef.h" #include "InsetMathRoot.h" #include "InsetMathScript.h" #include "InsetMathSideset.h" #include "InsetMathSpace.h" #include "InsetMathSplit.h" #include "InsetMathSqrt.h" #include "InsetMathStackrel.h" #include "InsetMathString.h" #include "InsetMathTabular.h" #include "InsetMathMacroTemplate.h" #include "MathExtern.h" #include "MathFactory.h" #include "InsetMathMacroArgument.h" #include "MathSupport.h" #include "Buffer.h" #include "BufferParams.h" #include "Encoding.h" #include "Lexer.h" #include "support/convert.h" #include "support/debug.h" #include "support/docstream.h" #include "support/unique_ptr.h" #include //#define FILEDEBUG using namespace std; namespace lyx { namespace { InsetMath::mode_type asMode(InsetMath::mode_type oldmode, docstring const & str) { //lyxerr << "handling mode: '" << str << "'" << endl; if (str == "mathmode") return InsetMath::MATH_MODE; if (str == "textmode" || str == "forcetext") return InsetMath::TEXT_MODE; return oldmode; } bool stared(docstring const & s) { size_t const n = s.size(); return n && s[n - 1] == '*'; } docstring const repl(docstring const & oldstr, char_type const c, docstring const & macro, bool textmode = false) { docstring newstr; size_t i; size_t j; for (i = 0, j = 0; i < oldstr.size(); ++i) { if (c == oldstr[i]) { newstr.append(oldstr, j, i - j); newstr.append(macro); j = i + 1; if (macro.size() > 2 && j < oldstr.size()) newstr += (textmode && oldstr[j] == ' ' ? '\\' : ' '); } } // Any substitution? if (j == 0) return oldstr; newstr.append(oldstr, j, i - j); return newstr; } docstring escapeSpecialChars(docstring const & str, bool textmode) { docstring const backslash = textmode ? from_ascii("\\textbackslash") : from_ascii("\\backslash"); docstring const caret = textmode ? from_ascii("\\textasciicircum") : from_ascii("\\mathcircumflex"); docstring const tilde = textmode ? from_ascii("\\textasciitilde") : from_ascii("\\sim"); return repl(repl(repl(repl(repl(repl(repl(repl(repl(repl(str, '\\', backslash, textmode), '^', caret, textmode), '~', tilde, textmode), '_', from_ascii("\\_")), '$', from_ascii("\\$")), '#', from_ascii("\\#")), '&', from_ascii("\\&")), '%', from_ascii("\\%")), '{', from_ascii("\\{")), '}', from_ascii("\\}")); } /*! * Add the row \p cellrow to \p grid. * \returns wether the row could be added. Adding a row can fail for * environments like "equation" that have a fixed number of rows. */ bool addRow(InsetMathGrid & grid, InsetMathGrid::row_type & cellrow, docstring const & vskip, bool allow_newpage_ = true) { ++cellrow; if (cellrow == grid.nrows()) { //lyxerr << "adding row " << cellrow << endl; grid.addRow(cellrow - 1); if (cellrow == grid.nrows()) { // We can't add a row to this grid, so let's // append the content of this cell to the previous // one. // This does not happen in well formed .lyx files, // but LyX versions 1.3.x and older could create // such files and tex2lyx can still do that. --cellrow; lyxerr << "ignoring extra row"; if (!vskip.empty()) lyxerr << " with extra space " << to_utf8(vskip); if (!allow_newpage_) lyxerr << " with no page break allowed"; lyxerr << '.' << endl; return false; } } grid.vcrskip(Length(to_utf8(vskip)), cellrow - 1); grid.rowinfo(cellrow - 1).allow_newpage_ = allow_newpage_; return true; } /*! * Add the column \p cellcol to \p grid. * \returns wether the column could be added. Adding a column can fail for * environments like "eqnarray" that have a fixed number of columns. */ bool addCol(InsetMathGrid & grid, InsetMathGrid::col_type & cellcol) { ++cellcol; if (cellcol == grid.ncols()) { //lyxerr << "adding column " << cellcol << endl; grid.addCol(cellcol); if (cellcol == grid.ncols()) { // We can't add a column to this grid, so let's // append the content of this cell to the previous // one. // This does not happen in well formed .lyx files, // but LyX versions 1.3.x and older could create // such files and tex2lyx can still do that. --cellcol; lyxerr << "ignoring extra column." << endl; return false; } } return true; } /*! * Check whether the last row is empty and remove it if yes. * Otherwise the following code * \verbatim \begin{array}{|c|c|} \hline 1 & 2 \\ \hline 3 & 4 \\ \hline \end{array} * \endverbatim * will result in a grid with 3 rows (+ the dummy row that is always present), * because the last '\\' opens a new row. * Do never delete a row that contains a multicolumn, even if all cells empty, * since the multicolumn information would get lost otherwise. * Note that this is only needed for inner-hull grid types, such as array * or aligned, but not for outer-hull grid types, such as eqnarray or align. */ void delEmptyLastRow(InsetMathGrid & grid) { InsetMathGrid::row_type const row = grid.nrows() - 1; for (InsetMathGrid::col_type col = 0; col < grid.ncols(); ++col) { InsetMathGrid::idx_type const idx = grid.index(row, col); if (!grid.cell(idx).empty() || grid.cellinfo(idx).multi_ != InsetMathGrid::CELL_NORMAL) return; } // Copy the row information of the empty row (which would contain the // last hline in the example above) to the dummy row and delete the // empty row. grid.rowinfo(row + 1) = grid.rowinfo(row); grid.delRow(row); } /*! * Tell whether the environment name corresponds to an inner-hull grid type. */ bool innerHull(docstring const & name) { // For [bB]matrix, [vV]matrix, and pmatrix we can check the suffix only return name == "array" || name == "cases" || name == "aligned" || name == "alignedat" || name == "gathered" || name == "split" || name == "subarray" || name == "tabular" || name == "matrix" || name == "smallmatrix" || name.substr(1) == "matrix"; } // These are TeX's catcodes enum CatCode { catEscape, // 0 backslash catBegin, // 1 { catEnd, // 2 } catMath, // 3 $ catAlign, // 4 & catNewline, // 5 ^^M catParameter, // 6 # catSuper, // 7 ^ catSub, // 8 _ catIgnore, // 9 catSpace, // 10 space catLetter, // 11 a-zA-Z catOther, // 12 none of the above catActive, // 13 ~ catComment, // 14 % catInvalid // 15 }; CatCode theCatcode[128]; inline CatCode catcode(char_type c) { /* The only characters that are not catOther lie in the pure ASCII * range. Therefore theCatcode has only 128 entries. * TeX itself deals with 8bit characters, so if needed this table * could be enlarged to 256 entries. * Any larger value does not make sense, since the fact that we use * unicode internally does not change Knuth's TeX engine. * Apart from that a table for the full 21bit UCS4 range would waste * too much memory. */ if (c >= 128) return catOther; return theCatcode[c]; } enum { FLAG_ALIGN = 1 << 0, // next & or \\ ends the parsing process FLAG_BRACE_LAST = 1 << 1, // next closing brace ends the parsing FLAG_RIGHT = 1 << 2, // next \\right ends the parsing process FLAG_END = 1 << 3, // next \\end ends the parsing process FLAG_BRACK_LAST = 1 << 4, // next closing bracket ends the parsing FLAG_TEXTMODE = 1 << 5, // we are in a box FLAG_ITEM = 1 << 6, // read a (possibly braced) token FLAG_LEAVE = 1 << 7, // leave the loop at the end FLAG_SIMPLE = 1 << 8, // next $ leaves the loop FLAG_EQUATION = 1 << 9, // next \] leaves the loop FLAG_SIMPLE2 = 1 << 10, // next \) leaves the loop FLAG_OPTION = 1 << 11, // read [...] style option FLAG_BRACED = 1 << 12 // read {...} style argument }; // // Helper class for parsing // class Token { public: /// Token() : cs_(), char_(0), cat_(catIgnore) {} /// Token(char_type c, CatCode cat) : cs_(), char_(c), cat_(cat) {} /// explicit Token(docstring const & cs) : cs_(cs), char_(0), cat_(catIgnore) {} /// docstring const & cs() const { return cs_; } /// CatCode cat() const { return cat_; } /// char_type character() const { return char_; } /// docstring asString() const { return !cs_.empty() ? cs_ : docstring(1, char_); } /// docstring asInput() const { return !cs_.empty() ? '\\' + cs_ : docstring(1, char_); } private: /// docstring cs_; /// char_type char_; /// CatCode cat_; }; ostream & operator<<(ostream & os, Token const & t) { if (!t.cs().empty()) { docstring const & cs = t.cs(); // FIXME: For some strange reason, the stream operator instanciate // a new Token before outputting the contents of t.cs(). // Because of this the line // os << '\\' << cs; // below becomes recursive. // In order to avoid that we return early: if (cs == "\\") return os; os << '\\' << to_utf8(cs); } else if (t.cat() == catLetter) os << t.character(); else os << '[' << t.character() << ',' << t.cat() << ']'; return os; } class Parser { public: /// typedef InsetMath::mode_type mode_type; /// typedef Parse::flags parse_mode; /// Parser(Lexer & lex, parse_mode mode, Buffer * buf); /// Only use this for reading from .lyx file format, for the reason /// see Parser::tokenize(istream &). Parser(istream & is, parse_mode mode, Buffer * buf); /// Parser(docstring const & str, parse_mode mode, Buffer * buf); /// bool parse(MathAtom & at); /// bool parse(MathData & array, unsigned flags, mode_type mode); /// bool parse1(InsetMathGrid & grid, unsigned flags, mode_type mode, bool numbered); /// int lineno() const { return lineno_; } /// void putback(); /// store current position void pushPosition(); /// restore previous position void popPosition(); /// forget last saved position void dropPosition(); private: /// void parse2(MathAtom & at, unsigned flags, mode_type mode, bool numbered); /// get arg delimited by 'left' and 'right' docstring getArg(char_type left, char_type right); /// char_type getChar(); /// void error(string const & msg); void error(docstring const & msg) { error(to_utf8(msg)); } /// dump contents to screen void dump() const; /// Only use this for reading from .lyx file format (see /// implementation for reason) void tokenize(istream & is); /// void tokenize(docstring const & s); /// void skipSpaceTokens(idocstream & is, char_type c); /// void push_back(Token const & t); /// Token const & prevToken() const; /// Token const & nextToken() const; /// Token const & getToken(); /// skips spaces if any void skipSpaces(); /// void lex(docstring const & s); /// bool good() const; /// docstring parse_verbatim_item(); /// docstring parse_verbatim_option(); /// int lineno_; /// vector tokens_; /// unsigned pos_; /// std::vector positions_; /// Stack of active environments vector environments_; /// parse_mode mode_; /// bool success_; /// Buffer * buffer_; }; Parser::Parser(Lexer & lexer, parse_mode mode, Buffer * buf) : lineno_(lexer.lineNumber()), pos_(0), mode_(mode), success_(true), buffer_(buf) { tokenize(lexer.getStream()); lexer.eatLine(); } Parser::Parser(istream & is, parse_mode mode, Buffer * buf) : lineno_(0), pos_(0), mode_(mode), success_(true), buffer_(buf) { tokenize(is); } Parser::Parser(docstring const & str, parse_mode mode, Buffer * buf) : lineno_(0), pos_(0), mode_(mode), success_(true), buffer_(buf) { tokenize(str); } void Parser::push_back(Token const & t) { tokens_.push_back(t); } Token const & Parser::prevToken() const { static const Token dummy; return pos_ > 0 ? tokens_[pos_ - 1] : dummy; } Token const & Parser::nextToken() const { static const Token dummy; return good() ? tokens_[pos_] : dummy; } Token const & Parser::getToken() { static const Token dummy; //lyxerr << "looking at token " << tokens_[pos_] << " pos: " << pos_ << endl; return good() ? tokens_[pos_++] : dummy; } void Parser::skipSpaces() { while (nextToken().cat() == catSpace || nextToken().cat() == catNewline) getToken(); } void Parser::putback() { --pos_; } void Parser::pushPosition() { positions_.push_back(pos_); } void Parser::popPosition() { pos_ = positions_.back(); positions_.pop_back(); } void Parser::dropPosition() { positions_.pop_back(); } bool Parser::good() const { return pos_ < tokens_.size(); } char_type Parser::getChar() { if (!good()) { error("The input stream is not well..."); return 0; } return tokens_[pos_++].character(); } docstring Parser::getArg(char_type left, char_type right) { docstring result; skipSpaces(); if (!good()) return result; char_type c = getChar(); if (c != left) putback(); else while ((c = getChar()) != right && good()) result += c; return result; } void Parser::skipSpaceTokens(idocstream & is, char_type c) { // skip trailing spaces while (catcode(c) == catSpace || catcode(c) == catNewline) if (!is.get(c)) break; //lyxerr << "putting back: " << c << endl; is.putback(c); } void Parser::tokenize(istream & is) { // eat everything up to the next \end_inset or end of stream // and store it in s for further tokenization string s; char c; while (is.get(c)) { s += c; if (s.size() >= 10 && s.substr(s.size() - 10) == "\\end_inset") { s = s.substr(0, s.size() - 10); break; } } // Remove the space after \end_inset if (is.get(c) && c != ' ') is.unget(); // tokenize buffer tokenize(from_utf8(s)); } void Parser::tokenize(docstring const & buffer) { idocstringstream is(mode_ & Parse::VERBATIM ? escapeSpecialChars(buffer, mode_ & Parse::TEXTMODE) : buffer, ios::in | ios::binary); char_type c; while (is.get(c)) { //lyxerr << "reading c: " << c << endl; switch (catcode(c)) { case catNewline: { ++lineno_; is.get(c); if (catcode(c) == catNewline) ; //push_back(Token("par")); else { push_back(Token('\n', catNewline)); is.putback(c); } break; } /* case catComment: { while (is.get(c) && catcode(c) != catNewline) ; ++lineno_; break; } */ case catEscape: { is.get(c); if (!is) { error("unexpected end of input"); } else { if (c == '\n') c = ' '; docstring s(1, c); if (catcode(c) == catLetter) { // collect letters while (is.get(c) && catcode(c) == catLetter) s += c; skipSpaceTokens(is, c); } push_back(Token(s)); } break; } case catSuper: case catSub: { push_back(Token(c, catcode(c))); is.get(c); skipSpaceTokens(is, c); break; } case catIgnore: { if (!(mode_ & Parse::QUIET)) lyxerr << "ignoring a char: " << int(c) << endl; break; } default: push_back(Token(c, catcode(c))); } } #ifdef FILEDEBUG dump(); #endif } void Parser::dump() const { lyxerr << "\nTokens: "; for (unsigned i = 0; i < tokens_.size(); ++i) { if (i == pos_) lyxerr << " <#> "; lyxerr << tokens_[i]; } lyxerr << " pos: " << pos_ << endl; } void Parser::error(string const & msg) { success_ = false; if (!(mode_ & Parse::QUIET)) { lyxerr << "Line ~" << lineno_ << ": Math parse error: " << msg << endl; dump(); } } bool Parser::parse(MathAtom & at) { skipSpaces(); MathData ar(buffer_); parse(ar, false, InsetMath::UNDECIDED_MODE); if (ar.size() != 1 || ar.front()->getType() == hullNone) { if (!(mode_ & Parse::QUIET)) lyxerr << "unusual contents found: " << ar << endl; at = MathAtom(new InsetMathPar(buffer_, ar)); //if (at->nargs() > 0) // at.nucleus()->cell(0) = ar; //else // lyxerr << "unusual contents found: " << ar << endl; success_ = false; } else at = ar[0]; return success_; } docstring Parser::parse_verbatim_option() { skipSpaces(); docstring res; if (nextToken().character() == '[') { Token t = getToken(); for (Token t = getToken(); t.character() != ']' && good(); t = getToken()) { if (t.cat() == catBegin) { putback(); res += '{' + parse_verbatim_item() + '}'; } else res += t.asInput(); } } return res; } docstring Parser::parse_verbatim_item() { skipSpaces(); docstring res; if (nextToken().cat() == catBegin) { Token t = getToken(); for (Token t = getToken(); t.cat() != catEnd && good(); t = getToken()) { if (t.cat() == catBegin) { putback(); res += '{' + parse_verbatim_item() + '}'; } else res += t.asInput(); } } return res; } bool Parser::parse(MathData & array, unsigned flags, mode_type mode) { InsetMathGrid grid(buffer_, 1, 1); parse1(grid, flags, mode, false); array = grid.cell(0); return success_; } void Parser::parse2(MathAtom & at, const unsigned flags, const mode_type mode, const bool numbered) { parse1(*(at.nucleus()->asGridInset()), flags, mode, numbered); } bool Parser::parse1(InsetMathGrid & grid, unsigned flags, const mode_type mode, const bool numbered) { int limits = 0; InsetMathGrid::row_type cellrow = 0; InsetMathGrid::col_type cellcol = 0; MathData * cell = &grid.cell(grid.index(cellrow, cellcol)); Buffer * buf = buffer_; if (grid.asHullInset()) grid.asHullInset()->numbered(cellrow, numbered); //dump(); //lyxerr << " flags: " << flags << endl; //lyxerr << " mode: " << mode << endl; //lyxerr << "grid: " << grid << endl; while (good()) { Token const & t = getToken(); #ifdef FILEDEBUG lyxerr << "t: " << t << " flags: " << flags << endl; lyxerr << "mode: " << mode << endl; cell->dump(); lyxerr << endl; #endif if (flags & FLAG_ITEM) { if (t.cat() == catBegin) { // skip the brace and collect everything to the next matching // closing brace parse1(grid, FLAG_BRACE_LAST, mode, numbered); return success_; } // handle only this single token, leave the loop if done flags = FLAG_LEAVE; } if (flags & FLAG_BRACED) { if (t.cat() == catSpace) continue; if (t.cat() != catBegin) { error("opening brace expected"); return success_; } // skip the brace and collect everything to the next matching // closing brace flags = FLAG_BRACE_LAST; } if (flags & FLAG_OPTION) { if (t.cat() == catOther && t.character() == '[') { MathData ar; parse(ar, FLAG_BRACK_LAST, mode); cell->append(ar); } else { // no option found, put back token and we are done putback(); } return success_; } // // cat codes // if (t.cat() == catMath) { if (mode != InsetMath::MATH_MODE) { // we are inside some text mode thingy, so opening new math is allowed Token const & n = getToken(); if (n.cat() == catMath) { // TeX's $$...$$ syntax for displayed math if (mode == InsetMath::UNDECIDED_MODE) { cell->push_back(MathAtom(new InsetMathHull(buf, hullEquation))); parse2(cell->back(), FLAG_SIMPLE, InsetMath::MATH_MODE, false); getToken(); // skip the second '$' token } else { // This is not an outer hull and display math is // not allowed inside text mode environments. error("bad math environment $$"); break; } } else { // simple $...$ stuff putback(); if (mode == InsetMath::UNDECIDED_MODE) { cell->push_back(MathAtom(new InsetMathHull(buf, hullSimple))); parse2(cell->back(), FLAG_SIMPLE, InsetMath::MATH_MODE, false); } else { // Don't create nested math hulls (bug #5392) cell->push_back(MathAtom(new InsetMathEnsureMath(buf))); parse(cell->back().nucleus()->cell(0), FLAG_SIMPLE, InsetMath::MATH_MODE); } } } else if (flags & FLAG_SIMPLE) { // this is the end of the formula return success_; } else { Token const & n = getToken(); if (n.cat() == catMath) { error("something strange in the parser"); break; } else { // This is inline math ($...$), but the parser thinks we are // already in math mode and latex would issue an error, unless we // are inside a text mode user macro. We have no way to tell, so // let's play safe by using \ensuremath, as it will work in any case. putback(); cell->push_back(MathAtom(new InsetMathEnsureMath(buf))); parse(cell->back().nucleus()->cell(0), FLAG_SIMPLE, InsetMath::MATH_MODE); } } } else if (t.cat() == catLetter) cell->push_back(MathAtom(new InsetMathChar(t.character()))); else if (t.cat() == catSpace && mode != InsetMath::MATH_MODE) { if (cell->empty() || cell->back()->getChar() != ' ') cell->push_back(MathAtom(new InsetMathChar(t.character()))); } else if (t.cat() == catNewline && mode != InsetMath::MATH_MODE) { if (cell->empty() || cell->back()->getChar() != ' ') cell->push_back(MathAtom(new InsetMathChar(' '))); } else if (t.cat() == catParameter) { Token const & n = nextToken(); char_type c = n.character(); if (c && '0' < c && c <= '9') { cell->push_back(MathAtom(new InsetMathMacroArgument(c - '0'))); getToken(); } else cell->push_back(MathAtom(new InsetMathHash())); } else if (t.cat() == catActive) cell->push_back(MathAtom(new InsetMathSpace(string(1, t.character()), ""))); else if (t.cat() == catBegin) { MathData ar; parse(ar, FLAG_BRACE_LAST, mode); // do not create a BraceInset if they were written by LyX // this helps to keep the annoyance of "a choose b" to a minimum if (ar.size() == 1 && ar[0]->extraBraces()) cell->append(ar); else cell->push_back(MathAtom(new InsetMathBrace(ar))); } else if (t.cat() == catEnd) { if (flags & FLAG_BRACE_LAST) return success_; error("found '}' unexpectedly"); //LASSERT(false, /**/); //add(cell, '}', LM_TC_TEX); } else if (t.cat() == catAlign) { //lyxerr << " column now " << (cellcol + 1) // << " max: " << grid.ncols() << endl; if (flags & FLAG_ALIGN) return success_; if (addCol(grid, cellcol)) cell = &grid.cell(grid.index(cellrow, cellcol)); } else if (t.cat() == catSuper || t.cat() == catSub) { bool up = (t.cat() == catSuper); // we need no new script inset if the last thing was a scriptinset, // which has that script already not the same script already if (cell->empty()) cell->push_back(MathAtom(new InsetMathScript(buf, up))); else if (cell->back()->asScriptInset() && !cell->back()->asScriptInset()->has(up)) cell->back().nucleus()->asScriptInset()->ensure(up); else if (cell->back()->asScriptInset()) cell->push_back(MathAtom(new InsetMathScript(buf, up))); else cell->back() = MathAtom(new InsetMathScript(buf, cell->back(), up)); InsetMathScript * p = cell->back().nucleus()->asScriptInset(); // special handling of {}-bases // Here we could remove the brace inset for things // like {a'}^2 and add the braces back in // InsetMathScript::write(). // We do not do it, since it is not possible to detect // reliably whether the braces are needed because the // nucleus contains more than one symbol, or whether // they are needed for unknown commands like \xx{a}_0 // or \yy{a}{b}_0. This was done in revision 14819 // in an unreliable way. See this thread // http://www.mail-archive.com/lyx-devel%40lists.lyx.org/msg104917.html // for more details. // However, we remove empty braces because they look // ugly on screen and we are sure that they were added // by the write() method (and will be re-added on save). if (p->nuc().size() == 1 && p->nuc().back()->asBraceInset() && p->nuc().back()->asBraceInset()->cell(0).empty()) p->nuc().erase(0); parse(p->cell(p->idxOfScript(up)), FLAG_ITEM, mode); if (limits) { p->limits(limits); limits = 0; } } else if (t.character() == ']' && (flags & FLAG_BRACK_LAST)) { //lyxerr << "finished reading option" << endl; return success_; } else if (t.cat() == catOther) { char_type c = t.character(); if (isAsciiOrMathAlpha(c) || mode_ & Parse::VERBATIM || !(mode_ & Parse::USETEXT) || mode == InsetMath::TEXT_MODE) { cell->push_back(MathAtom(new InsetMathChar(c))); } else { MathAtom at = createInsetMath("text", buf); at.nucleus()->cell(0).push_back(MathAtom(new InsetMathChar(c))); while (nextToken().cat() == catOther && !isAsciiOrMathAlpha(nextToken().character())) { c = getToken().character(); at.nucleus()->cell(0).push_back(MathAtom(new InsetMathChar(c))); } cell->push_back(at); } } else if (t.cat() == catComment) { docstring s; while (good()) { Token const & t = getToken(); if (t.cat() == catNewline) break; s += t.asInput(); } cell->push_back(MathAtom(new InsetMathComment(buf, s))); skipSpaces(); } // // control sequences // else if (t.cs() == "lyxlock") { if (!cell->empty()) cell->back().nucleus()->lock(true); } else if ((t.cs() == "global" && nextToken().cs() == "def") || t.cs() == "def") { if (t.cs() == "global") getToken(); // get name docstring name = getToken().cs(); // read parameters int nargs = 0; docstring pars; while (good() && nextToken().cat() != catBegin) { pars += getToken().cs(); ++nargs; } nargs /= 2; // read definition MathData def; parse(def, FLAG_ITEM, InsetMath::UNDECIDED_MODE); // is a version for display attached? skipSpaces(); MathData display; if (nextToken().cat() == catBegin) parse(display, FLAG_ITEM, InsetMath::MATH_MODE); cell->push_back(MathAtom(new InsetMathMacroTemplate(buf, name, nargs, 0, MacroTypeDef, vector(), def, display))); if (buf && (mode_ & Parse::TRACKMACRO)) buf->usermacros.insert(name); } else if (t.cs() == "newcommand" || t.cs() == "renewcommand" || t.cs() == "newlyxcommand") { // get name if (getToken().cat() != catBegin) { error("'{' in \\newcommand expected (1) "); return success_; } docstring name = getToken().cs(); if (getToken().cat() != catEnd) { error("'}' in \\newcommand expected"); return success_; } // get arity docstring const arg = getArg('[', ']'); int nargs = 0; if (!arg.empty()) nargs = convert(arg); // optional argument given? skipSpaces(); int optionals = 0; vector optionalValues; while (nextToken().character() == '[') { getToken(); optionalValues.push_back(MathData()); parse(optionalValues[optionals], FLAG_BRACK_LAST, mode); ++optionals; } MathData def; parse(def, FLAG_ITEM, InsetMath::UNDECIDED_MODE); // is a version for display attached? skipSpaces(); MathData display; if (nextToken().cat() == catBegin) parse(display, FLAG_ITEM, InsetMath::MATH_MODE); cell->push_back(MathAtom(new InsetMathMacroTemplate(buf, name, nargs, optionals, MacroTypeNewcommand, optionalValues, def, display))); if (buf && (mode_ & Parse::TRACKMACRO)) buf->usermacros.insert(name); } else if (t.cs() == "newcommandx" || t.cs() == "renewcommandx") { // \newcommandx{\foo}[2][usedefault, addprefix=\global,1=default]{#1,#2} // get name docstring name; if (nextToken().cat() == catBegin) { getToken(); name = getToken().cs(); if (getToken().cat() != catEnd) { error("'}' in \\newcommandx expected"); return success_; } } else name = getToken().cs(); // get arity docstring const arg = getArg('[', ']'); if (arg.empty()) { error("[num] in \\newcommandx expected"); return success_; } int nargs = convert(arg); // get options int optionals = 0; vector optionalValues; if (nextToken().character() == '[') { // skip '[' getToken(); // handle 'opt=value' options, separated by ','. skipSpaces(); while (nextToken().character() != ']' && good()) { if (nextToken().character() >= '1' && nextToken().character() <= '9') { // optional value -> get parameter number int n = getChar() - '0'; if (n > nargs) { error("Arity of \\newcommandx too low " "for given optional parameter."); return success_; } // skip '=' if (getToken().character() != '=') { error("'=' and optional parameter value " "expected for \\newcommandx"); return success_; } // get value int optNum = max(size_t(n), optionalValues.size()); optionalValues.resize(optNum); optionalValues[n - 1].clear(); while (nextToken().character() != ']' && nextToken().character() != ',') { MathData data; parse(data, FLAG_ITEM, InsetMath::UNDECIDED_MODE); optionalValues[n - 1].append(data); } optionals = max(n, optionals); } else if (nextToken().cat() == catLetter) { // we in fact ignore every non-optional // parameter // get option name docstring opt; while (nextToken().cat() == catLetter) opt += getChar(); // value? skipSpaces(); MathData value; if (nextToken().character() == '=') { getToken(); while (nextToken().character() != ']' && nextToken().character() != ',') parse(value, FLAG_ITEM, InsetMath::UNDECIDED_MODE); } } else { error("option for \\newcommandx expected"); return success_; } // skip komma skipSpaces(); if (nextToken().character() == ',') { getChar(); skipSpaces(); } else if (nextToken().character() != ']') { error("Expecting ',' or ']' in options " "of \\newcommandx"); return success_; } } // skip ']' if (!good()) return success_; getToken(); } // get definition MathData def; parse(def, FLAG_ITEM, InsetMath::UNDECIDED_MODE); // is a version for display attached? skipSpaces(); MathData display; if (nextToken().cat() == catBegin) parse(display, FLAG_ITEM, InsetMath::MATH_MODE); cell->push_back(MathAtom(new InsetMathMacroTemplate(buf, name, nargs, optionals, MacroTypeNewcommandx, optionalValues, def, display))); if (buf && (mode_ & Parse::TRACKMACRO)) buf->usermacros.insert(name); } else if (t.cs() == "(") { if (mode == InsetMath::UNDECIDED_MODE) { cell->push_back(MathAtom(new InsetMathHull(buf, hullSimple))); parse2(cell->back(), FLAG_SIMPLE2, InsetMath::MATH_MODE, false); } else { // Don't create nested math hulls (bug #5392) cell->push_back(MathAtom(new InsetMathEnsureMath(buf))); parse(cell->back().nucleus()->cell(0), FLAG_SIMPLE2, InsetMath::MATH_MODE); } } else if (t.cs() == "[") { if (mode != InsetMath::UNDECIDED_MODE) { error("bad math environment ["); break; } cell->push_back(MathAtom(new InsetMathHull(buf, hullEquation))); parse2(cell->back(), FLAG_EQUATION, InsetMath::MATH_MODE, false); } else if (t.cs() == "protect") // ignore \\protect, will hopefully be re-added during output ; else if (t.cs() == "end") { if (flags & FLAG_END) { // eat environment name docstring const name = getArg('{', '}'); if (environments_.empty()) error("'found \\end{" + name + "}' without matching '\\begin{" + name + "}'"); else if (name != environments_.back()) error("'\\end{" + name + "}' does not match '\\begin{" + environments_.back() + "}'"); else { environments_.pop_back(); // Delete empty last row in matrix // like insets. // If you abuse InsetMathGrid for // non-matrix like structures you // probably need to refine this test. // Right now we only have to test for // single line hull insets. if (grid.nrows() > 1 && innerHull(name)) delEmptyLastRow(grid); return success_; } } else error("found 'end' unexpectedly"); } else if (t.cs() == ")") { if (flags & FLAG_SIMPLE2) return success_; error("found '\\)' unexpectedly"); } else if (t.cs() == "]") { if (flags & FLAG_EQUATION) return success_; error("found '\\]' unexpectedly"); } else if (t.cs() == "\\") { if (flags & FLAG_ALIGN) return success_; bool starred = false; docstring arg; if (nextToken().asInput() == "*") { getToken(); starred = true; } else if (nextToken().asInput() == "[") arg = getArg('[', ']'); else if (!good()) error("missing token after \\\\"); // skip "{}" added in front of "[" (the // counterpart is in InsetMathGrid::eolString()) // skip spaces because formula could come from tex2lyx bool skipBraces = false; pushPosition(); if (nextToken().cat() == catBegin) { getToken(); if (nextToken().cat() == catEnd) { getToken(); pushPosition(); skipSpaces(); if (nextToken().asInput() == "[") skipBraces = true; popPosition(); } } if (skipBraces) dropPosition(); else popPosition(); bool const added = addRow(grid, cellrow, arg, !starred); if (added) { cellcol = 0; if (grid.asHullInset()) grid.asHullInset()->numbered( cellrow, numbered); cell = &grid.cell(grid.index(cellrow, cellcol)); } } else if (t.cs() == "multicolumn" && grid.handlesMulticolumn()) { // if the columns are specified numerically, // extract column count and insert dummy cells, // otherwise parse it as an user macro MathData count; parse(count, FLAG_ITEM, mode); int cols; // limit arbitrarily to 100 columns if (extractNumber(count, cols) && cols > 0 && cols < 100) { // resize the table if necessary size_t first = grid.index(cellrow, cellcol); for (int i = 1; i < cols; ++i) { if (addCol(grid, cellcol)) { size_t const idx = grid.index(cellrow, cellcol); grid.cellinfo(idx).multi_ = InsetMathGrid::CELL_PART_OF_MULTICOLUMN; } } // the first cell is the real thing, not a dummy cell = &grid.cell(first); grid.cellinfo(first).multi_ = InsetMathGrid::CELL_BEGIN_OF_MULTICOLUMN; // read special alignment MathData align; parse(align, FLAG_ITEM, mode); grid.cellinfo(first).align_ = asString(align); // parse the remaining contents into the "real" cell parse(*cell, FLAG_ITEM, mode); } else { MathAtom at = MathAtom(new InsetMathMacro(buf, t.cs())); cell->push_back(at); cell->push_back(MathAtom(new InsetMathBrace(count))); } } else if (t.cs() == "limits" || t.cs() == "nolimits") { CatCode const cat = nextToken().cat(); if (cat == catSuper || cat == catSub) limits = t.cs() == "limits" ? 1 : -1; else { MathAtom at = createInsetMath(t.cs(), buf); cell->push_back(at); } } // \notag is the same as \nonumber if amsmath is used else if ((t.cs() == "nonumber" || t.cs() == "notag") && grid.asHullInset()) grid.asHullInset()->numbered(cellrow, false); else if (t.cs() == "number" && grid.asHullInset()) grid.asHullInset()->numbered(cellrow, true); else if (t.cs() == "hline") { grid.rowinfo(cellrow).lines_ ++; } else if (t.cs() == "sqrt") { MathData ar; parse(ar, FLAG_OPTION, mode); if (!ar.empty()) { cell->push_back(MathAtom(new InsetMathRoot(buf))); cell->back().nucleus()->cell(0) = ar; parse(cell->back().nucleus()->cell(1), FLAG_ITEM, mode); } else { cell->push_back(MathAtom(new InsetMathSqrt(buf))); parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); } } else if (t.cs() == "cancelto") { MathData ar; parse(ar, FLAG_ITEM, mode); cell->push_back(MathAtom(new InsetMathCancelto(buf))); cell->back().nucleus()->cell(1) = ar; parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); } else if (t.cs() == "unit") { // Allowed formats \unit[val]{unit} MathData ar; parse(ar, FLAG_OPTION, mode); if (!ar.empty()) { cell->push_back(MathAtom(new InsetMathFrac(buf, InsetMathFrac::UNIT))); cell->back().nucleus()->cell(0) = ar; parse(cell->back().nucleus()->cell(1), FLAG_ITEM, mode); } else { cell->push_back(MathAtom(new InsetMathFrac(buf, InsetMathFrac::UNIT, 1))); parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); } } else if (t.cs() == "unitfrac") { // Here allowed formats are \unitfrac[val]{num}{denom} MathData ar; parse(ar, FLAG_OPTION, mode); if (!ar.empty()) { cell->push_back(MathAtom(new InsetMathFrac(buf, InsetMathFrac::UNITFRAC, 3))); cell->back().nucleus()->cell(2) = ar; } else { cell->push_back(MathAtom(new InsetMathFrac(buf, InsetMathFrac::UNITFRAC))); } parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); parse(cell->back().nucleus()->cell(1), FLAG_ITEM, mode); } else if (t.cs() == "cfrac") { // allowed formats are \cfrac[pos]{num}{denom} docstring const arg = getArg('[', ']'); //lyxerr << "got so far: '" << arg << "'" << endl; if (arg == "l") cell->push_back(MathAtom(new InsetMathFrac(buf, InsetMathFrac::CFRACLEFT))); else if (arg == "r") cell->push_back(MathAtom(new InsetMathFrac(buf, InsetMathFrac::CFRACRIGHT))); else if (arg.empty() || arg == "c") cell->push_back(MathAtom(new InsetMathFrac(buf, InsetMathFrac::CFRAC))); else { error("found invalid optional argument"); break; } parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); parse(cell->back().nucleus()->cell(1), FLAG_ITEM, mode); } else if (t.cs() == "sideset") { // Here allowed formats are \sideset{_{bl}^{tl}}{_{br}^{tr}}{operator} MathData ar[2]; InsetMathScript * script[2] = {0, 0}; for (int i = 0; i < 2; ++i) { parse(ar[i], FLAG_ITEM, mode); if (ar[i].size() == 1) script[i] = ar[i][0].nucleus()->asScriptInset(); } bool const hasscript[2] = {script[0] ? true : false, script[1] ? true : false}; cell->push_back(MathAtom(new InsetMathSideset(buf, hasscript[0], hasscript[1]))); if (hasscript[0]) { if (script[0]->hasDown()) cell->back().nucleus()->cell(1) = script[0]->down(); if (script[0]->hasUp()) cell->back().nucleus()->cell(2) = script[0]->up(); } else cell->back().nucleus()->cell(1) = ar[0]; if (hasscript[1]) { if (script[1]->hasDown()) cell->back().nucleus()->cell(2 + hasscript[0]) = script[1]->down(); if (script[1]->hasUp()) cell->back().nucleus()->cell(3 + hasscript[0]) = script[1]->up(); } else cell->back().nucleus()->cell(2 + hasscript[0]) = ar[1]; parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); } else if (t.cs() == "stackrel") { // Here allowed formats are \stackrel[subscript]{superscript}{operator} MathData ar; parse(ar, FLAG_OPTION, mode); cell->push_back(MathAtom(new InsetMathStackrel(buf, !ar.empty()))); if (!ar.empty()) cell->back().nucleus()->cell(2) = ar; parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); parse(cell->back().nucleus()->cell(1), FLAG_ITEM, mode); } else if (t.cs() == "xrightarrow" || t.cs() == "xleftarrow") { cell->push_back(createInsetMath(t.cs(), buf)); parse(cell->back().nucleus()->cell(1), FLAG_OPTION, mode); parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); } else if (t.cs() == "xhookrightarrow" || t.cs() == "xhookleftarrow" || t.cs() == "xRightarrow" || t.cs() == "xLeftarrow" || t.cs() == "xleftrightarrow" || t.cs() == "xLeftrightarrow" || t.cs() == "xrightharpoondown" || t.cs() == "xrightharpoonup" || t.cs() == "xleftharpoondown" || t.cs() == "xleftharpoonup" || t.cs() == "xleftrightharpoons" || t.cs() == "xrightleftharpoons" || t.cs() == "xmapsto") { cell->push_back(createInsetMath(t.cs(), buf)); parse(cell->back().nucleus()->cell(1), FLAG_OPTION, mode); parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); } else if (t.cs() == "ref" || t.cs() == "eqref" || t.cs() == "prettyref" || t.cs() == "pageref" || t.cs() == "vpageref" || t.cs() == "vref") { cell->push_back(MathAtom(new InsetMathRef(buf, t.cs()))); docstring const opt = parse_verbatim_option(); docstring const ref = parse_verbatim_item(); if (!opt.empty()) { cell->back().nucleus()->cell(1).push_back( MathAtom(new InsetMathString(opt))); } cell->back().nucleus()->cell(0).push_back( MathAtom(new InsetMathString(ref))); } else if (t.cs() == "left") { skipSpaces(); Token const & tl = getToken(); // \| and \Vert are equivalent, and InsetMathDelim // can't handle \| // FIXME: fix this in InsetMathDelim itself! docstring const l = tl.cs() == "|" ? from_ascii("Vert") : tl.asString(); MathData ar; parse(ar, FLAG_RIGHT, mode); if (!good()) break; skipSpaces(); Token const & tr = getToken(); docstring const r = tr.cs() == "|" ? from_ascii("Vert") : tr.asString(); cell->push_back(MathAtom(new InsetMathDelim(buf, l, r, ar))); } else if (t.cs() == "right") { if (flags & FLAG_RIGHT) return success_; //lyxerr << "got so far: '" << cell << "'" << endl; error("Unmatched right delimiter"); return success_; } else if (t.cs() == "begin") { docstring const name = getArg('{', '}'); if (name.empty()) { success_ = false; error("found invalid environment"); return success_; } environments_.push_back(name); if (name == "array" || name == "subarray") { docstring const valign = parse_verbatim_option() + 'c'; docstring const halign = parse_verbatim_item(); cell->push_back(MathAtom(new InsetMathArray(buf, name, InsetMathGrid::guessColumns(halign), 1, (char)valign[0], halign))); parse2(cell->back(), FLAG_END, mode, false); } else if (name == "tabular") { docstring const valign = parse_verbatim_option() + 'c'; docstring const halign = parse_verbatim_item(); cell->push_back(MathAtom(new InsetMathTabular(buf, name, InsetMathGrid::guessColumns(halign), 1, (char)valign[0], halign))); parse2(cell->back(), FLAG_END, InsetMath::TEXT_MODE, false); } else if (name == "split" || name == "cases") { cell->push_back(createInsetMath(name, buf)); parse2(cell->back(), FLAG_END, mode, false); } else if (name == "alignedat") { docstring const valign = parse_verbatim_option() + 'c'; // ignore this for a while getArg('{', '}'); cell->push_back(MathAtom(new InsetMathSplit(buf, name, (char)valign[0]))); parse2(cell->back(), FLAG_END, mode, false); } else if (name == "math") { if (mode == InsetMath::UNDECIDED_MODE) { cell->push_back(MathAtom(new InsetMathHull(buf, hullSimple))); parse2(cell->back(), FLAG_END, InsetMath::MATH_MODE, false); } else { // Don't create nested math hulls (bug #5392) cell->push_back(MathAtom(new InsetMathEnsureMath(buf))); parse(cell->back().nucleus()->cell(0), FLAG_END, InsetMath::MATH_MODE); } } else if (name == "equation" || name == "equation*" || name == "displaymath") { if (mode != InsetMath::UNDECIDED_MODE) { error("bad math environment " + name); break; } cell->push_back(MathAtom(new InsetMathHull(buf, hullEquation))); parse2(cell->back(), FLAG_END, InsetMath::MATH_MODE, (name == "equation")); } else if (name == "eqnarray" || name == "eqnarray*") { if (mode != InsetMath::UNDECIDED_MODE) { error("bad math environment " + name); break; } cell->push_back(MathAtom(new InsetMathHull(buf, hullEqnArray))); parse2(cell->back(), FLAG_END, InsetMath::MATH_MODE, !stared(name)); } else if (name == "align" || name == "align*") { if (mode == InsetMath::UNDECIDED_MODE) { cell->push_back(MathAtom(new InsetMathHull(buf, hullAlign))); parse2(cell->back(), FLAG_END, InsetMath::MATH_MODE, !stared(name)); } else { cell->push_back(MathAtom(new InsetMathSplit(buf, name, 'c', !stared(name)))); parse2(cell->back(), FLAG_END, mode, !stared(name)); } } else if (name == "flalign" || name == "flalign*") { if (mode != InsetMath::UNDECIDED_MODE) { error("bad math environment " + name); break; } cell->push_back(MathAtom(new InsetMathHull(buf, hullFlAlign))); parse2(cell->back(), FLAG_END, InsetMath::MATH_MODE, !stared(name)); } else if (name == "alignat" || name == "alignat*") { if (mode != InsetMath::UNDECIDED_MODE) { error("bad math environment " + name); break; } // ignore this for a while getArg('{', '}'); cell->push_back(MathAtom(new InsetMathHull(buf, hullAlignAt))); parse2(cell->back(), FLAG_END, InsetMath::MATH_MODE, !stared(name)); } else if (name == "xalignat" || name == "xalignat*") { if (mode != InsetMath::UNDECIDED_MODE) { error("bad math environment " + name); break; } // ignore this for a while getArg('{', '}'); cell->push_back(MathAtom(new InsetMathHull(buf, hullXAlignAt))); parse2(cell->back(), FLAG_END, InsetMath::MATH_MODE, !stared(name)); } else if (name == "xxalignat") { if (mode != InsetMath::UNDECIDED_MODE) { error("bad math environment " + name); break; } // ignore this for a while getArg('{', '}'); cell->push_back(MathAtom(new InsetMathHull(buf, hullXXAlignAt))); parse2(cell->back(), FLAG_END, InsetMath::MATH_MODE, !stared(name)); } else if (name == "multline" || name == "multline*") { if (mode != InsetMath::UNDECIDED_MODE) { error("bad math environment " + name); break; } cell->push_back(MathAtom(new InsetMathHull(buf, hullMultline))); parse2(cell->back(), FLAG_END, InsetMath::MATH_MODE, !stared(name)); } else if (name == "gather" || name == "gather*") { if (mode != InsetMath::UNDECIDED_MODE) { error("bad math environment " + name); break; } cell->push_back(MathAtom(new InsetMathHull(buf, hullGather))); parse2(cell->back(), FLAG_END, InsetMath::MATH_MODE, !stared(name)); } else if (latexkeys const * l = in_word_set(name)) { if (l->inset == "matrix") { cell->push_back(createInsetMath(name, buf)); parse2(cell->back(), FLAG_END, mode, false); } else if (l->inset == "split") { docstring const valign = parse_verbatim_option() + 'c'; cell->push_back(MathAtom( new InsetMathSplit(buf, name, (char)valign[0]))); parse2(cell->back(), FLAG_END, mode, false); } else { success_ = false; if (!(mode_ & Parse::QUIET)) { dump(); lyxerr << "found math environment `" << to_utf8(name) << "' in symbols file with unsupported inset `" << l->inset << "'." << endl; } // create generic environment inset cell->push_back(MathAtom(new InsetMathEnv(buf, name))); parse(cell->back().nucleus()->cell(0), FLAG_END, mode); } } else { success_ = false; if (!(mode_ & Parse::QUIET) && !(mode_ & Parse::TRACKMACRO)) { dump(); lyxerr << "found unknown math environment '" << to_utf8(name) << "'" << endl; } // create generic environment inset cell->push_back(MathAtom(new InsetMathEnv(buf, name))); parse(cell->back().nucleus()->cell(0), FLAG_END, mode); } } else if (t.cs() == "kern" || t.cs() == "mkern") { // FIXME: A hack... docstring s; int num_tokens = 0; while (true) { Token const & t = getToken(); ++num_tokens; if (!good()) { s.clear(); while (num_tokens--) putback(); break; } s += t.character(); if (isValidLength(to_utf8(s))) break; } if (s.empty()) cell->push_back(MathAtom(new InsetMathMacro(buf, t.cs()))); else cell->push_back(MathAtom(new InsetMathKern(s))); } else if (t.cs() == "label") { // FIXME: This is swallowed in inline formulas docstring label = parse_verbatim_item(); MathData ar; asArray(label, ar); if (grid.asHullInset()) { grid.asHullInset()->label(cellrow, label); grid.asHullInset()->numbered(cellrow, true); } else { cell->push_back(createInsetMath(t.cs(), buf)); cell->push_back(MathAtom(new InsetMathBrace(ar))); } } else if (t.cs() == "choose" || t.cs() == "over" || t.cs() == "atop" || t.cs() == "brace" || t.cs() == "brack") { MathAtom at = createInsetMath(t.cs(), buf); at.nucleus()->cell(0) = *cell; cell->clear(); parse(at.nucleus()->cell(1), flags, mode); cell->push_back(at); return success_; } else if (t.cs() == "color") { docstring const color = parse_verbatim_item(); cell->push_back(MathAtom(new InsetMathColor(buf, true, color))); parse(cell->back().nucleus()->cell(0), flags, mode); return success_; } else if (t.cs() == "textcolor") { docstring const color = parse_verbatim_item(); cell->push_back(MathAtom(new InsetMathColor(buf, false, color))); parse(cell->back().nucleus()->cell(0), FLAG_ITEM, InsetMath::TEXT_MODE); } else if (t.cs() == "normalcolor") { cell->push_back(createInsetMath(t.cs(), buf)); parse(cell->back().nucleus()->cell(0), flags, mode); return success_; } else if (t.cs() == "substack") { cell->push_back(createInsetMath(t.cs(), buf)); parse2(cell->back(), FLAG_ITEM, mode, false); // Delete empty last row if present InsetMathGrid & subgrid = *(cell->back().nucleus()->asGridInset()); if (subgrid.nrows() > 1) delEmptyLastRow(subgrid); } else if (t.cs() == "xymatrix") { odocstringstream os; while (good() && nextToken().cat() != catBegin) os << getToken().asInput(); cell->push_back(createInsetMath(t.cs() + os.str(), buf)); parse2(cell->back(), FLAG_ITEM, mode, false); // Delete empty last row if present InsetMathGrid & subgrid = *(cell->back().nucleus()->asGridInset()); if (subgrid.nrows() > 1) delEmptyLastRow(subgrid); } else if (t.cs() == "Diagram") { odocstringstream os; while (good() && nextToken().cat() != catBegin) os << getToken().asInput(); cell->push_back(createInsetMath(t.cs() + os.str(), buf)); parse2(cell->back(), FLAG_ITEM, mode, false); } else if (t.cs() == "framebox" || t.cs() == "makebox") { cell->push_back(createInsetMath(t.cs(), buf)); parse(cell->back().nucleus()->cell(0), FLAG_OPTION, InsetMath::TEXT_MODE); parse(cell->back().nucleus()->cell(1), FLAG_OPTION, InsetMath::TEXT_MODE); parse(cell->back().nucleus()->cell(2), FLAG_ITEM, InsetMath::TEXT_MODE); } else if (t.cs() == "tag") { if (nextToken().character() == '*') { getToken(); cell->push_back(createInsetMath(t.cs() + '*', buf)); } else cell->push_back(createInsetMath(t.cs(), buf)); parse(cell->back().nucleus()->cell(0), FLAG_ITEM, InsetMath::TEXT_MODE); } else if (t.cs() == "hspace") { bool const prot = nextToken().character() == '*'; if (prot) getToken(); docstring const name = t.cs(); docstring const arg = parse_verbatim_item(); Length length; if (prot && arg == "\\fill") cell->push_back(MathAtom(new InsetMathSpace("hspace*{\\fill}", ""))); else if (isValidLength(to_utf8(arg), &length)) cell->push_back(MathAtom(new InsetMathSpace(length, prot))); else { // Since the Length class cannot use length variables // we must not create an InsetMathSpace. cell->push_back(MathAtom(new InsetMathMacro(buf, name))); MathData ar; mathed_parse_cell(ar, '{' + arg + '}', mode_); cell->append(ar); } } else if (t.cs() == "smash") { skipSpaces(); if (nextToken().asInput() == "[") { // Since the phantom inset cannot handle optional arguments // other than b and t, we must not create an InsetMathPhantom // if opt is different from b and t (bug 8967). docstring const opt = parse_verbatim_option(); if (opt == "t" || opt == "b") { cell->push_back(createInsetMath(t.cs() + opt, buf)); parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); } else { docstring const arg = parse_verbatim_item(); cell->push_back(MathAtom(new InsetMathMacro(buf, t.cs()))); MathData ar; mathed_parse_cell(ar, '[' + opt + ']', mode_); cell->append(ar); ar = MathData(); mathed_parse_cell(ar, '{' + arg + '}', mode_); cell->append(ar); } } else { cell->push_back(createInsetMath(t.cs(), buf)); parse(cell->back().nucleus()->cell(0), FLAG_ITEM, mode); } } #if 0 else if (t.cs() == "infer") { MathData ar; parse(ar, FLAG_OPTION, mode); cell->push_back(createInsetMath(t.cs(), buf)); parse2(cell->back(), FLAG_ITEM, mode, false); } #endif else if (t.cs() == "lyxmathsym") { skipSpaces(); if (getToken().cat() != catBegin) { error("'{' expected in \\" + t.cs()); return success_; } int count = 0; docstring cmd; CatCode cat = nextToken().cat(); while (good() && (count || cat != catEnd)) { if (cat == catBegin) ++count; else if (cat == catEnd) --count; cmd += getToken().asInput(); cat = nextToken().cat(); } if (getToken().cat() != catEnd) { error("'}' expected in \\" + t.cs()); return success_; } bool termination; docstring rem; do { cmd = Encodings::fromLaTeXCommand(cmd, Encodings::MATH_CMD | Encodings::TEXT_CMD, termination, rem); for (size_t i = 0; i < cmd.size(); ++i) cell->push_back(MathAtom(new InsetMathChar(cmd[i]))); if (!rem.empty()) { char_type c = rem[0]; cell->push_back(MathAtom(new InsetMathChar(c))); cmd = rem.substr(1); rem.clear(); } else cmd.clear(); } while (!cmd.empty()); } else if (!t.cs().empty()) { bool const no_mhchem = (t.cs() == "ce" || t.cs() == "cf") && buf && buf->params().use_package("mhchem") == BufferParams::package_off; bool const is_user_macro = no_mhchem || (buf && (mode_ & Parse::TRACKMACRO ? buf->usermacros.count(t.cs()) != 0 : buf->getMacro(t.cs(), false) != 0)); latexkeys const * l = in_word_set(t.cs()); if (l && !is_user_macro) { if (l->inset == "big") { skipSpaces(); docstring const delim = getToken().asInput(); if (InsetMathBig::isBigInsetDelim(delim)) cell->push_back(MathAtom( new InsetMathBig(t.cs(), delim))); else { cell->push_back(createInsetMath(t.cs(), buf)); putback(); } } else if (l->inset == "font") { cell->push_back(createInsetMath(t.cs(), buf)); parse(cell->back().nucleus()->cell(0), FLAG_ITEM, asMode(mode, l->extra)); } else if (l->inset == "oldfont") { cell->push_back(createInsetMath(t.cs(), buf)); parse(cell->back().nucleus()->cell(0), flags | FLAG_ALIGN, asMode(mode, l->extra)); if (prevToken().cat() != catAlign && prevToken().cs() != "\\") return success_; putback(); } else if (l->inset == "style") { cell->push_back(createInsetMath(t.cs(), buf)); parse(cell->back().nucleus()->cell(0), flags | FLAG_ALIGN, mode); if (prevToken().cat() != catAlign && prevToken().cs() != "\\") return success_; putback(); } else { MathAtom at = createInsetMath(t.cs(), buf); for (InsetMath::idx_type i = 0; i < at->nargs(); ++i) parse(at.nucleus()->cell(i), FLAG_ITEM, asMode(mode, l->extra)); cell->push_back(at); } } else { bool is_unicode_symbol = false; if (mode == InsetMath::TEXT_MODE && !is_user_macro) { int num_tokens = 0; docstring cmd = prevToken().asInput(); CatCode cat = nextToken().cat(); if (cat == catBegin) { int count = 0; while (good() && (count || cat != catEnd)) { cat = nextToken().cat(); cmd += getToken().asInput(); ++num_tokens; if (cat == catBegin) ++count; else if (cat == catEnd) --count; } } bool is_combining; bool termination; char_type c = Encodings::fromLaTeXCommand(cmd, Encodings::MATH_CMD | Encodings::TEXT_CMD, is_combining, termination); if (is_combining) { if (cat == catLetter) cmd += '{'; cmd += getToken().asInput(); ++num_tokens; if (cat == catLetter) cmd += '}'; c = Encodings::fromLaTeXCommand(cmd, Encodings::MATH_CMD | Encodings::TEXT_CMD, is_combining, termination); } if (c) { if (termination) { if (nextToken().cat() == catBegin) { getToken(); if (nextToken().cat() == catEnd) { getToken(); num_tokens += 2; } else putback(); } else { while (nextToken().cat() == catSpace) { getToken(); ++num_tokens; } } } is_unicode_symbol = true; cell->push_back(MathAtom(new InsetMathChar(c))); } else { while (num_tokens--) putback(); } } if (!is_unicode_symbol) { MathAtom at = is_user_macro ? MathAtom(new InsetMathMacro(buf, t.cs())) : createInsetMath(t.cs(), buf); InsetMath::mode_type m = mode; //if (m == InsetMath::UNDECIDED_MODE) //lyxerr << "default creation: m1: " << m << endl; if (at->currentMode() != InsetMath::UNDECIDED_MODE) m = at->currentMode(); //lyxerr << "default creation: m2: " << m << endl; InsetMath::idx_type start = 0; // this fails on \bigg[...\bigg] //MathData opt; //parse(opt, FLAG_OPTION, InsetMath::VERBATIM_MODE); //if (!opt.empty()) { // start = 1; // at.nucleus()->cell(0) = opt; //} for (InsetMath::idx_type i = start; i < at->nargs(); ++i) { parse(at.nucleus()->cell(i), FLAG_ITEM, m); if (mode == InsetMath::MATH_MODE) skipSpaces(); } cell->push_back(at); } } } if (flags & FLAG_LEAVE) { flags &= ~FLAG_LEAVE; break; } } return success_; } } // anonymous namespace // FIXME This will likely need some work. char const * latexkeys::MathMLtype() const { if (extra == "mathord") return "mi"; return "mo"; } bool mathed_parse_cell(MathData & ar, docstring const & str, Parse::flags f) { return Parser(str, f, ar.buffer()).parse(ar, 0, f & Parse::TEXTMODE ? InsetMath::TEXT_MODE : InsetMath::MATH_MODE); } bool mathed_parse_cell(MathData & ar, istream & is, Parse::flags f) { return Parser(is, f, ar.buffer()).parse(ar, 0, f & Parse::TEXTMODE ? InsetMath::TEXT_MODE : InsetMath::MATH_MODE); } bool mathed_parse_normal(Buffer * buf, MathAtom & t, docstring const & str, Parse::flags f) { return Parser(str, f, buf).parse(t); } bool mathed_parse_normal(Buffer * buf, MathAtom & t, Lexer & lex, Parse::flags f) { return Parser(lex, f, buf).parse(t); } bool mathed_parse_normal(InsetMathGrid & grid, docstring const & str, Parse::flags f) { return Parser(str, f, &grid.buffer()).parse1(grid, 0, f & Parse::TEXTMODE ? InsetMath::TEXT_MODE : InsetMath::MATH_MODE, false); } void initParser() { fill(theCatcode, theCatcode + 128, catOther); fill(theCatcode + 'a', theCatcode + 'z' + 1, catLetter); fill(theCatcode + 'A', theCatcode + 'Z' + 1, catLetter); theCatcode[int('\\')] = catEscape; theCatcode[int('{')] = catBegin; theCatcode[int('}')] = catEnd; theCatcode[int('$')] = catMath; theCatcode[int('&')] = catAlign; theCatcode[int('\n')] = catNewline; theCatcode[int('#')] = catParameter; theCatcode[int('^')] = catSuper; theCatcode[int('_')] = catSub; theCatcode[int(0x7f)] = catIgnore; theCatcode[int(' ')] = catSpace; theCatcode[int('\t')] = catSpace; theCatcode[int('\r')] = catNewline; theCatcode[int('~')] = catActive; theCatcode[int('%')] = catComment; } } // namespace lyx