#include #ifdef __GNUG__ #pragma implementation #endif #include "math_hullinset.h" #include "math_mathmlstream.h" #include "math_streamstr.h" #include "math_support.h" #include "debug.h" #include "frontends/Painter.h" #include "textpainter.h" #include "Lsstream.h" #include "LaTeXFeatures.h" #include "support/LAssert.h" #include using std::vector; using std::max; using std::endl; namespace { int getCols(string const & type) { if (type == "eqnarray") return 3; if (type == "align") return 2; if (type == "alignat") return 2; if (type == "xalignat") return 2; if (type == "xxalignat") return 2; return 1; } // returns position of first relation operator in the array // used for "intelligent splitting" MathArray::size_type firstRelOp(MathArray const & ar) { for (MathArray::const_iterator it = ar.begin(); it != ar.end(); ++it) if ((*it)->isRelOp()) return it - ar.begin(); return ar.size(); } char const * star(bool numbered) { return numbered ? "" : "*"; } int typecode(string const & s) { if (s == "none") return 0; if (s == "simple") return 1; if (s == "equation") return 2; if (s == "eqnarray") return 3; if (s == "align") return 4; if (s == "alignat") return 5; if (s == "xalignat") return 6; if (s == "xxalignat") return 7; if (s == "multline") return 8; if (s == "gather") return 9; lyxerr << "unknown hull type '" << s << "'\n"; return 0; } bool smaller(string const & s, string const & t) { return typecode(s) < typecode(t); } } // end anon namespace MathHullInset::MathHullInset() : MathGridInset(1, 1), type_("none"), nonum_(1), label_(1) { setDefaults(); } MathHullInset::MathHullInset(string const & type) : MathGridInset(getCols(type), 1), type_(type), nonum_(1), label_(1) { setDefaults(); } MathHullInset::MathHullInset(string const & type, MathGridInset const & grid) : MathGridInset(grid), type_(type), nonum_(1), label_(1) { setDefaults(); } MathHullInset::MathHullInset(string const & type, col_type cols) : MathGridInset(cols, 1), type_(type), nonum_(1), label_(1) { setDefaults(); } MathInset * MathHullInset::clone() const { return new MathHullInset(*this); } bool MathHullInset::idxFirst(idx_type & idx, pos_type & pos) const { idx = 0; pos = 0; return true; } bool MathHullInset::idxLast(idx_type & idx, pos_type & pos) const { idx = nargs() - 1; pos = cell(idx).size(); return true; } char MathHullInset::defaultColAlign(col_type col) { if (type_ == "eqnarray") return "rcl"[col]; if (typecode(type_) >= typecode("align")) return "rl"[col & 1]; return 'c'; } int MathHullInset::defaultColSpace(col_type col) { if (type_ == "align" || type_ == "alignat") return 0; if (type_ == "xalignat") return (col & 1) ? 20 : 0; if (type_ == "xxalignat") return (col & 1) ? 40 : 0; return 0; } char const * MathHullInset::standardFont() const { if (type_ == "none") return "lyxnochange"; return "mathnormal"; } void MathHullInset::metrics(MathMetricsInfo & mi) const { MathFontSetChanger dummy(mi.base, standardFont()); // let the cells adjust themselves MathGridInset::metrics(mi); if (display()) { ascent_ += 12; descent_ += 12; } if (numberedType()) { MathFontSetChanger dummy(mi.base, "mathbf"); int l = 0; for (row_type row = 0; row < nrows(); ++row) l = max(l, mathed_string_width(mi.base.font, nicelabel(row))); if (l) width_ += 30 + l; } // make it at least as high as the current font int asc = 0; int des = 0; math_font_max_dim(mi.base.font, asc, des); ascent_ = max(ascent_, asc); descent_ = max(descent_, des); // for markers width_ += 2; descent_ += 1; ascent_ += 1; } void MathHullInset::draw(MathPainterInfo & pi, int x, int y) const { MathFontSetChanger dummy(pi.base, standardFont()); MathGridInset::draw(pi, x + 1, y); if (numberedType()) { int const xx = x + colinfo_.back().offset_ + colinfo_.back().width_ + 20; for (row_type row = 0; row < nrows(); ++row) { int const yy = y + rowinfo_[row].offset_; MathFontSetChanger dummy(pi.base, "mathrm"); drawStr(pi, pi.base.font, xx, yy, nicelabel(row)); } } drawMarkers2(pi, x, y); } void MathHullInset::metricsT(TextMetricsInfo const &) const { #if 0 if (display()) { MathGridInset::metricsT(mi); } else #endif { ostringstream os; WriteStream wi(os, false, true); write(wi); width_ = os.str().size(); ascent_ = 1; descent_ = 0; } } void MathHullInset::drawT(TextPainter & pain, int x, int y) const { #if 0 if (display()) { MathGridInset::drawT(pain, x, y); } else #endif { ostringstream os; WriteStream wi(os, false, true); write(wi); pain.draw(x, y, os.str().c_str()); } } string MathHullInset::label(row_type row) const { row_type n = nrows(); lyx::Assert(row < n); return label_[row]; } void MathHullInset::label(row_type row, string const & label) { lyxerr << "setting label '" << label << "' for row " << row << endl; label_[row] = label; } void MathHullInset::numbered(row_type row, bool num) { nonum_[row] = !num; } bool MathHullInset::numbered(row_type row) const { return !nonum_[row]; } bool MathHullInset::ams() const { return type_ == "align" || type_ == "multline" || type_ == "gather" || type_ == "alignat" || type_ == "xalignat" || type_ == "xxalignat"; } bool MathHullInset::display() const { return type_ != "simple" && type_ != "none"; } vector MathHullInset::getLabelList() const { vector res; for (row_type row = 0; row < nrows(); ++row) if (!label_[row].empty() && nonum_[row] != 1) res.push_back(label_[row]); return res; } bool MathHullInset::numberedType() const { if (type_ == "none") return false; if (type_ == "simple") return false; if (type_ == "xxalignat") return false; for (row_type row = 0; row < nrows(); ++row) if (!nonum_[row]) return true; return false; } void MathHullInset::validate(LaTeXFeatures & features) const { if (ams()) features.require("amsmath"); // Validation is necessary only if not using AMS math. // To be safe, we will always run mathedvalidate. //if (features.amsstyle) // return; features.require("boldsymbol"); //features.binom = true; MathNestInset::validate(features); } void MathHullInset::header_write(WriteStream & os) const { bool n = numberedType(); if (type_ == "none") ; else if (type_ == "simple") { os << '$'; if (cell(0).empty()) os << ' '; } else if (type_ == "equation") { if (n) os << "\\begin{equation" << star(n) << "}\n"; else os << "\\[\n"; } else if (type_ == "eqnarray" || type_ == "align") os << "\\begin{" << type_ << star(n) << "}\n"; else if (type_ == "alignat" || type_ == "xalignat" || type_ == "xxalignat") os << "\\begin{" << type_ << star(n) << "}" << "{" << static_cast(ncols()/2) << "}\n"; else if (type_ == "multline" || type_ == "gather") os << "\\begin{" << type_ << "}\n"; else os << "\\begin{unknown" << star(n) << "}"; } void MathHullInset::footer_write(WriteStream & os) const { bool n = numberedType(); if (type_ == "none") os << "\n"; else if (type_ == "simple") os << '$'; else if (type_ == "equation") if (n) os << "\\end{equation" << star(n) << "}\n"; else os << "\\]\n"; else if (type_ == "eqnarray" || type_ == "align" || type_ == "alignat" || type_ == "xalignat") os << "\n\\end{" << type_ << star(n) << "}\n"; else if (type_ == "xxalignat" || type_ == "multline" || type_ == "gather") os << "\n\\end{" << type_ << "}\n"; else os << "\\end{unknown" << star(n) << "}"; } void MathHullInset::addRow(row_type row) { nonum_.insert(nonum_.begin() + row + 1, !numberedType()); label_.insert(label_.begin() + row + 1, string()); MathGridInset::addRow(row); } void MathHullInset::delRow(row_type row) { MathGridInset::delRow(row); nonum_.erase(nonum_.begin() + row); label_.erase(label_.begin() + row); } void MathHullInset::addFancyCol(col_type col) { if (type_ == "equation") mutate("eqnarray"); else if (type_ == "eqnarray") { mutate("align"); addFancyCol(col); } else if (type_ == "align") { mutate("alignat"); addFancyCol(col); } else if (type_ == "alignat" || type_ == "xalignat" || type_ == "xxalignat") { MathGridInset::addCol(col); MathGridInset::addCol(col + 1); } } void MathHullInset::delFancyCol(col_type col) { if (type_ == "alignat" || type_ == "xalignat" || type_ == "xxalignat") { MathGridInset::delCol(col + 1); MathGridInset::delCol(col); } } string MathHullInset::nicelabel(row_type row) const { if (nonum_[row]) return string(); if (label_[row].empty()) return string("(#)"); return "(" + label_[row] + ")"; } void MathHullInset::glueall() { MathArray ar; for (idx_type i = 0; i < nargs(); ++i) ar.push_back(cell(i)); *this = MathHullInset("simple"); cell(0) = ar; setDefaults(); } string const & MathHullInset::getType() const { return type_; } void MathHullInset::setType(string const & type) { type_ = type; setDefaults(); } void MathHullInset::mutate(string const & newtype) { //lyxerr << "mutating from '" << type_ << "' to '" << newtype << "'\n"; // we try to move along the chain // none <-> simple <-> equation <-> eqnarray if (newtype == "dump") { dump(); } else if (newtype == type_) { // done } else if (type_ == "none") { setType("simple"); numbered(0, false); mutate(newtype); } else if (type_ == "simple") { if (newtype == "none") { setType("none"); } else { setType("equation"); numbered(0, false); mutate(newtype); } } else if (type_ == "equation") { if (smaller(newtype, type_)) { setType("simple"); mutate(newtype); } else if (newtype == "eqnarray") { MathGridInset::addCol(1); MathGridInset::addCol(1); // split it "nicely" on the firest relop pos_type pos = firstRelOp(cell(0)); cell(1) = MathArray(cell(0), pos, cell(0).size()); cell(0).erase(pos, cell(0).size()); if (cell(1).size()) { cell(2) = MathArray(cell(1), 1, cell(1).size()); cell(1).erase(1, cell(1).size()); } setType("eqnarray"); mutate(newtype); } else { MathGridInset::addCol(1); // split it "nicely" pos_type pos = firstRelOp(cell(0)); cell(1) = cell(0); cell(0).erase(pos, cell(0).size()); cell(1).erase(0, pos); setType("align"); mutate(newtype); } } else if (type_ == "eqnarray") { if (smaller(newtype, type_)) { // set correct (no)numbering bool allnonum = true; for (row_type row = 0; row < nrows(); ++row) if (!nonum_[row]) allnonum = false; // set first non-empty label string label; for (row_type row = 0; row < nrows(); ++row) { if (!label_[row].empty()) { label = label_[row]; break; } } glueall(); nonum_[0] = allnonum; label_[0] = label; mutate(newtype); } else { // align & Co. for (row_type row = 0; row < nrows(); ++row) { idx_type c = 3 * row + 1; cell(c).push_back(cell(c + 1)); } MathGridInset::delCol(2); setType("align"); mutate(newtype); } } else if (type_ == "align") { if (smaller(newtype, type_)) { MathGridInset::addCol(1); setType("eqnarray"); mutate(newtype); } else { setType(newtype); } } else if (type_ == "multline") { if (newtype == "gather") { setType("gather"); } else { lyxerr << "mutation from '" << type_ << "' to '" << newtype << "' not implemented" << endl; } } else if (type_ == "gather") { if (newtype == "multline") { setType("multline"); } else { lyxerr << "mutation from '" << type_ << "' to '" << newtype << "' not implemented" << endl; } } else { lyxerr << "mutation from '" << type_ << "' to '" << newtype << "' not implemented" << endl; } } void MathHullInset::write(WriteStream & os) const { header_write(os); bool n = numberedType(); for (row_type row = 0; row < nrows(); ++row) { for (col_type col = 0; col < ncols(); ++col) os << cell(index(row, col)) << eocString(col); if (n) { if (!label_[row].empty()) os << "\\label{" << label_[row] << "}"; if (nonum_[row]) os << "\\nonumber "; } os << eolString(row); } footer_write(os); } void MathHullInset::normalize(NormalStream & os) const { os << "[formula " << type_ << " "; MathGridInset::normalize(os); os << "] "; } void MathHullInset::mathmlize(MathMLStream & os) const { MathGridInset::mathmlize(os); } void MathHullInset::infoize(std::ostream & os) const { os << "Type: " << type_; } void MathHullInset::check() const { lyx::Assert(nonum_.size() == nrows()); lyx::Assert(label_.size() == nrows()); }