/* * File: math_cursor.C * Purpose: Interaction for mathed * Author: Alejandro Aguilar Sierra * Created: January 1996 * Description: Math interaction for a WYSIWYG math editor. * * Dependencies: Xlib, XForms * * Copyright: 1996, Alejandro Aguilar Sierra * * Version: 0.8beta, Math & Lyx project. * * You are free to use and modify this code under the terms of * the GNU General Public Licence version 2 or later. */ #include #ifdef __GNUG__ #pragma implementation #endif #include "support/lstrings.h" #include "support/LAssert.h" #include "debug.h" #include "LColor.h" #include "Painter.h" #include "math_cursor.h" #include "formulabase.h" #include "math_arrayinset.h" #include "math_braceinset.h" #include "math_boxinset.h" #include "math_casesinset.h" #include "math_charinset.h" #include "math_deliminset.h" #include "math_factory.h" #include "math_hullinset.h" #include "math_iterator.h" #include "math_mathmlstream.h" #include "math_parser.h" #include "math_replace.h" #include "math_scriptinset.h" #include "math_spaceinset.h" #include "math_specialcharinset.h" #include "math_support.h" #include #include #define FILEDEBUG 0 using std::endl; using std::min; using std::max; using std::swap; using std::isalnum; namespace { struct Selection { typedef MathInset::col_type col_type; typedef MathInset::row_type row_type; typedef MathInset::idx_type idx_type; Selection() : data_(1, 1) {} void region(MathCursorPos const & i1, MathCursorPos const & i2, row_type & r1, row_type & r2, col_type & c1, col_type & c2) { MathInset * p = i1.par_; c1 = p->col(i1.idx_); c2 = p->col(i2.idx_); if (c1 > c2) std::swap(c1, c2); r1 = p->row(i1.idx_); r2 = p->row(i2.idx_); if (r1 > r2) std::swap(r1, r2); } void grab(MathCursor const & cursor) { MathCursorPos i1; MathCursorPos i2; cursor.getSelection(i1, i2); // shouldn'tt we assert on i1.par_ == i2.par_? if (i1.idx_ == i2.idx_) { data_ = MathGridInset(1, 1); data_.cell(0) = MathArray(i1.cell(), i1.pos_, i2.pos_); } else { row_type r1, r2; col_type c1, c2; region(i1, i2, r1, r2, c1, c2); data_ = MathGridInset(c2 - c1 + 1, r2 - r1 + 1); for (row_type row = 0; row < data_.nrows(); ++row) for (col_type col = 0; col < data_.ncols(); ++col) { idx_type i = i1.par_->index(row + r1, col + c1); data_.cell(data_.index(row, col)) = i1.par_->cell(i); } } } void erase(MathCursor & cursor) { MathCursorPos i1; MathCursorPos i2; cursor.getSelection(i1, i2); if (i1.idx_ == i2.idx_) i1.cell().erase(i1.pos_, i2.pos_); else { MathInset * p = i1.par_; row_type r1, r2; col_type c1, c2; region(i1, i2, r1, r2, c1, c2); for (row_type row = r1; row <= r2; ++row) for (col_type col = c1; col <= c2; ++col) p->cell(p->index(row, col)).erase(); } cursor.cursor() = i1; } void paste(MathCursor & cursor) const { if (data_.nargs() == 1) { // single cell/part of cell cursor.insert(data_.cell(0)); } else { // mulitple cells idx_type idx; MathGridInset * p = cursor.enclosingGrid(idx); col_type const numcols = min(data_.ncols(), p->ncols() - p->col(idx)); row_type const numrows = min(data_.nrows(), p->nrows() - p->row(idx)); for (row_type row = 0; row < numrows; ++row) for (col_type col = 0; col < numcols; ++col) { idx_type i = p->index(row + p->row(idx), col + p->col(idx)); p->cell(i).push_back(data_.cell(data_.index(row, col))); } } } // glues selection to one cell MathArray glue() const { MathArray ar; for (unsigned i = 0; i < data_.nargs(); ++i) ar.push_back(data_.cell(i)); return ar; } void clear() { data_ = MathGridInset(1, 1); } MathGridInset data_; }; Selection theSelection; } MathCursor::MathCursor(InsetFormulaBase * formula, bool left) : formula_(formula), lastcode_(LM_TC_VAR), selection_(false) { left ? first() : last(); } void MathCursor::push(MathAtom & t) { Cursor_.push_back(MathCursorPos(t.nucleus())); } void MathCursor::pushLeft(MathAtom & t) { //cerr << "Entering atom "; t->write(cerr, false); cerr << " left\n"; push(t); t->idxFirst(idx(), pos()); } void MathCursor::pushRight(MathAtom & t) { //cerr << "Entering atom "; t->write(cerr, false); cerr << " right\n"; posLeft(); push(t); t->idxLast(idx(), pos()); } bool MathCursor::popLeft() { //cerr << "Leaving atom "; par()->write(cerr, false); cerr << " left\n"; if (Cursor_.size() <= 1) return false; if (par()->asScriptInset()) par()->asScriptInset()->removeEmptyScripts(); Cursor_.pop_back(); return true; } bool MathCursor::popRight() { //cerr << "Leaving atom "; par()->write(cerr, false); cerr << " right\n"; if (Cursor_.size() <= 1) return false; if (par()->asScriptInset()) par()->asScriptInset()->removeEmptyScripts(); Cursor_.pop_back(); posRight(); return true; } #if FILEDEBUG void MathCursor::dump(char const * what) const { lyxerr << "MC: " << what << "\n"; lyxerr << " Cursor: " << Cursor_.size() << "\n"; for (unsigned i = 0; i < Cursor_.size(); ++i) lyxerr << " i: " << i << " " << Cursor_[i] << "\n"; lyxerr << " Anchor: " << Anchor_.size() << "\n"; for (unsigned i = 0; i < Anchor_.size(); ++i) lyxerr << " i: " << i << " " << Anchor_[i] << "\n"; lyxerr << " sel: " << selection_ << "\n"; } #else void MathCursor::dump(char const *) const {} #endif UpdatableInset * MathCursor::asHyperActiveInset() const { return par()->asHyperActiveInset(); } bool MathCursor::isInside(MathInset const * p) const { for (unsigned i = 0; i < Cursor_.size(); ++i) if (Cursor_[i].par_ == p) return true; return false; } bool MathCursor::openable(MathAtom const & t, bool sel) const { if (t->isHyperActive()) return true; if (!t->isActive()) return false; if (t->asScriptInset()) return false; if (sel) { // we can't move into anything new during selection if (Cursor_.size() == Anchor_.size()) return false; if (t.nucleus() != Anchor_[Cursor_.size()].par_) return false; } return true; } bool MathCursor::posLeft() { if (pos() == 0) return false; --pos(); return true; } bool MathCursor::posRight() { if (pos() == size()) return false; ++pos(); return true; } bool MathCursor::left(bool sel) { dump("Left 1"); if (inMacroMode()) { macroModeClose(); lastcode_ = LM_TC_VAR; return true; } selHandle(sel); lastcode_ = LM_TC_VAR; if (hasPrevAtom() && openable(prevAtom(), sel)) { if (prevAtom()->isHyperActive()) { lyxerr << "entering hyperactive inset\n"; } pushRight(prevAtom()); return true; } return posLeft() || idxLeft() || popLeft() || selection_; } bool MathCursor::right(bool sel) { dump("Right 1"); if (inMacroMode()) { macroModeClose(); lastcode_ = LM_TC_VAR; return true; } selHandle(sel); lastcode_ = LM_TC_VAR; if (hasNextAtom() && openable(nextAtom(), sel)) { if (nextAtom()->isHyperActive()) { lyxerr << "entering hyperactive inset\n"; int x, y; getPos(x, y); nextAtom()->edit(formula()->view(), x, y, 0); } pushLeft(nextAtom()); return true; } return posRight() || idxRight() || popRight() || selection_; } void MathCursor::first() { Cursor_.clear(); pushLeft(formula_->par()); } void MathCursor::last() { first(); end(); } bool positionable(MathCursor::cursor_type const & cursor, MathCursor::cursor_type const & anchor) { // avoid deeper nested insets when selecting if (cursor.size() > anchor.size()) return false; // anchor might be deeper, should have same path then for (MathCursor::cursor_type::size_type i = 0; i < cursor.size(); ++i) if (cursor[i].par_ != anchor[i].par_) return false; // position should be ok. return true; } void MathCursor::setPos(int x, int y) { dump("setPos 1"); bool res = bruteFind(x, y, formula()->xlow(), formula()->xhigh(), formula()->ylow(), formula()->yhigh()); if (!res) { // this ccan happen on creation of "math-display" dump("setPos 1.5"); first(); } dump("setPos 2"); } void MathCursor::home(bool sel) { dump("home 1"); selHandle(sel); macroModeClose(); lastcode_ = LM_TC_VAR; if (!par()->idxHome(idx(), pos())) popLeft(); dump("home 2"); } void MathCursor::end(bool sel) { dump("end 1"); selHandle(sel); macroModeClose(); lastcode_ = LM_TC_VAR; if (!par()->idxEnd(idx(), pos())) popRight(); dump("end 2"); } void MathCursor::plainErase() { array().erase(pos()); } void MathCursor::plainInsert(MathAtom const & t) { array().insert(pos(), t); ++pos(); } void MathCursor::insert(char c, MathTextCodes t) { //lyxerr << "inserting '" << c << "'\n"; plainInsert(MathAtom(new MathCharInset(c, t))); } void MathCursor::insert(MathAtom const & t) { macroModeClose(); if (selection_) { if (t->nargs()) selCut(); else selDel(); } plainInsert(t); } void MathCursor::niceInsert(MathAtom const & t) { selCut(); insert(t); // inserting invalidates the pointer! MathAtom const & p = prevAtom(); if (p->nargs()) { posLeft(); right(); // do not push for e.g. MathSymbolInset selPaste(); } } void MathCursor::insert(MathArray const & ar) { macroModeClose(); if (selection_) selCut(); array().insert(pos(), ar); pos() += ar.size(); } void MathCursor::paste(MathArray const & ar) { Anchor_ = Cursor_; selection_ = true; array().insert(pos(), ar); pos() += ar.size(); } void MathCursor::backspace() { if (pos() == 0) { pullArg(false); return; } if (selection_) { selDel(); return; } MathScriptInset * p = prevAtom()->asScriptInset(); if (p) { p->removeScript(p->hasUp()); // Don't delete if there is anything left if (p->hasUp() || p->hasDown()) return; } --pos(); plainErase(); } void MathCursor::erase() { if (inMacroMode()) return; if (selection_) { selDel(); return; } // delete empty cells if necessary if (array().empty()) { bool popit; bool removeit; par()->idxDelete(idx(), popit, removeit); if (popit && popLeft() && removeit) plainErase(); return; } if (pos() == size()) return; MathScriptInset * p = nextAtom()->asScriptInset(); if (p) { p->removeScript(p->hasUp()); // Don't delete if there is anything left if (p->hasUp() || p->hasDown()) return; } plainErase(); } void MathCursor::delLine() { macroModeClose(); if (selection_) { selDel(); return; } if (par()->nrows() > 1) { // grid are the only things with more than one row... lyx::Assert(par()->asGridInset()); par()->asGridInset()->delRow(hullRow()); } if (idx() > par()->nargs()) idx() = par()->nargs(); if (pos() > size()) pos() = size(); } bool MathCursor::up(bool sel) { dump("up 1"); macroModeClose(); selHandle(sel); cursor_type save = Cursor_; if (goUpDown(true)) return true; Cursor_ = save; return selection_; } bool MathCursor::down(bool sel) { dump("down 1"); macroModeClose(); selHandle(sel); cursor_type save = Cursor_; if (goUpDown(false)) return true; Cursor_ = save; return selection_; } bool MathCursor::toggleLimits() { if (!hasNextAtom()) return false; MathScriptInset * t = nextAtom()->asScriptInset(); if (!t) return false; int old = t->limits(); t->limits(old < 0 ? 1 : -1); return old != t->limits(); } void MathCursor::macroModeClose() { string s = macroName(); if (s.size()) { size_type old = pos(); pos() -= s.size(); array().erase(pos(), old); interpret(s); } } int MathCursor::macroNamePos() const { for (int i = pos() - 1; i >= 0; --i) { MathAtom & p = array().at(i); if (p->code() == LM_TC_TEX && p->getChar() == '\\') return i; } return -1; } string MathCursor::macroName() const { string s; for (int i = macroNamePos(); i >= 0 && i < int(pos()); ++i) s += array().at(i)->getChar(); return s; } void MathCursor::selCopy() { dump("selCopy"); if (selection_) { theSelection.grab(*this); selClear(); } } void MathCursor::selCut() { dump("selCut"); if (selection_) { theSelection.grab(*this); theSelection.erase(*this); selClear(); } else { theSelection.clear(); } } void MathCursor::selDel() { dump("selDel"); if (selection_) { theSelection.erase(*this); if (pos() > size()) pos() = size(); selClear(); } } void MathCursor::selPaste() { dump("selPaste"); theSelection.paste(*this); //theSelection.grab(*this); //selClear(); } void MathCursor::selHandle(bool sel) { if (sel == selection_) return; //theSelection.clear(); Anchor_ = Cursor_; selection_ = sel; } void MathCursor::selStart() { dump("selStart 1"); //theSelection.clear(); Anchor_ = Cursor_; selection_ = true; dump("selStart 2"); } void MathCursor::selClear() { dump("selClear 1"); selection_ = false; dump("selClear 2"); } void MathCursor::selGet(MathArray & ar) { dump("selGet"); if (!selection_) return; theSelection.grab(*this); ar = theSelection.glue(); } void MathCursor::drawSelection(Painter & pain) const { if (!selection_) return; MathCursorPos i1; MathCursorPos i2; getSelection(i1, i2); if (i1.idx_ == i2.idx_) { MathXArray & c = i1.xcell(); int x1 = c.xo() + c.pos2x(i1.pos_); int y1 = c.yo() - c.ascent(); int x2 = c.xo() + c.pos2x(i2.pos_); int y2 = c.yo() + c.descent(); pain.fillRectangle(x1, y1, x2 - x1, y2 - y1, LColor::selection); } else { std::vector indices = i1.par_->idxBetween(i1.idx_, i2.idx_); for (unsigned i = 0; i < indices.size(); ++i) { MathXArray & c = i1.xcell(indices[i]); int x1 = c.xo(); int y1 = c.yo() - c.ascent(); int x2 = c.xo() + c.width(); int y2 = c.yo() + c.descent(); pain.fillRectangle(x1, y1, x2 - x1, y2 - y1, LColor::selection); } } #if 0 // draw anchor if different from selection boundary MathCursorPos anc = Anchor_.back(); if (anc != i1 && anc != i2) { MathXArray & c = anc.xcell(); int x = c.xo() + c.pos2x(anc.pos_); int y1 = c.yo() - c.ascent(); int y2 = c.yo() + c.descent(); pain.line(x, y1, x, y2, LColor::math); } #endif } void MathCursor::handleFont(MathTextCodes t) { macroModeClose(); if (selection_) { MathCursorPos i1; MathCursorPos i2; getSelection(i1, i2); if (i1.idx_ == i2.idx_) { MathArray & ar = i1.cell(); for (MathInset::pos_type pos = i1.pos_; pos != i2.pos_; ++pos) ar.at(pos)->handleFont(t); } } else lastcode_ = (lastcode_ == t) ? LM_TC_VAR : t; } void MathCursor::handleDelim(string const & l, string const & r) { handleNest(new MathDelimInset(l, r)); } void MathCursor::handleNest(MathInset * p) { if (selection_) { selCut(); p->cell(0) = theSelection.glue(); } insert(MathAtom(p)); // this invalidates p! pushRight(prevAtom()); } void MathCursor::getPos(int & x, int & y) { #ifdef WITH_WARNINGS #warning This should probably take cellXOffset and cellYOffset into account #endif x = xarray().xo() + xarray().pos2x(pos()); y = xarray().yo(); } MathInset * MathCursor::par() const { return cursor().par_; } InsetFormulaBase * MathCursor::formula() { return formula_; } MathCursor::idx_type MathCursor::idx() const { return cursor().idx_; } MathCursor::idx_type & MathCursor::idx() { return cursor().idx_; } MathCursor::pos_type MathCursor::pos() const { return cursor().pos_; } MathCursor::pos_type & MathCursor::pos() { return cursor().pos_; } bool MathCursor::inMacroMode() const { return macroNamePos() != -1; } bool MathCursor::selection() const { return selection_; } MathGridInset * MathCursor::enclosingGrid(MathCursor::idx_type & idx) const { for (int i = Cursor_.size() - 1; i >= 0; --i) { MathGridInset * p = Cursor_[i].par_->asGridInset(); if (p) { idx = Cursor_[i].idx_; return p; } } return 0; } void MathCursor::pullArg(bool goright) { dump("pullarg"); MathArray a = array(); MathScriptInset const * p = par()->asScriptInset(); if (p) { // special handling for scripts const bool up = p->hasUp(); popLeft(); MathScriptInset * q = nextAtom()->asScriptInset(); if (q) q->removeScript(up); ++pos(); array().insert(pos(), a); return; } if (popLeft()) { plainErase(); array().insert(pos(), a); if (goright) pos() += a.size(); } } void MathCursor::normalize() { // rebreak { MathIterator it = ibegin(formula()->par().nucleus()); MathIterator et = iend(formula()->par().nucleus()); for ( ; it != et; ++it) if (it.par()->asBoxInset()) it.par()->asBoxInset()->rebreak(); } if (idx() >= par()->nargs()) { lyxerr << "this should not really happen - 1: " << idx() << " " << par()->nargs() << "\n"; dump("error 2"); } idx() = min(idx(), par()->nargs() - 1); if (pos() > size()) { lyxerr << "this should not really happen - 2: " << pos() << " " << size() << " in idx: " << idx() << " in atom: '"; WriteStream wi(lyxerr, false); par()->write(wi); lyxerr << "\n"; dump("error 4"); } pos() = min(pos(), size()); } MathCursor::size_type MathCursor::size() const { return array().size(); } MathCursor::col_type MathCursor::hullCol() const { return Cursor_[0].par_->asGridInset()->col(Cursor_[0].idx_); } MathCursor::row_type MathCursor::hullRow() const { return Cursor_[0].par_->asGridInset()->row(Cursor_[0].idx_); } bool MathCursor::hasPrevAtom() const { return pos() > 0; } bool MathCursor::hasNextAtom() const { return pos() < size(); } MathAtom const & MathCursor::prevAtom() const { lyx::Assert(pos() > 0); return array().at(pos() - 1); } MathAtom & MathCursor::prevAtom() { lyx::Assert(pos() > 0); return array().at(pos() - 1); } MathAtom const & MathCursor::nextAtom() const { lyx::Assert(pos() < size()); return array().at(pos()); } MathAtom & MathCursor::nextAtom() { lyx::Assert(pos() < size()); return array().at(pos()); } MathArray & MathCursor::array() const { static MathArray dummy; if (idx() >= par()->nargs()) { lyxerr << "############ idx_ " << idx() << " not valid\n"; return dummy; } if (Cursor_.size() == 0) { lyxerr << "############ Cursor_.size() == 0 not valid\n"; return dummy; } return cursor().cell(); } MathXArray & MathCursor::xarray() const { static MathXArray dummy; if (Cursor_.size() == 0) { lyxerr << "############ Cursor_.size() == 0 not valid\n"; return dummy; } return cursor().xcell(); } void MathCursor::idxNext() { par()->idxNext(idx(), pos()); } void MathCursor::idxPrev() { par()->idxPrev(idx(), pos()); } void MathCursor::splitCell() { if (idx() + 1 == par()->nargs()) return; MathArray ar = array(); ar.erase(0, pos()); array().erase(pos(), size()); ++idx(); pos() = 0; array().insert(0, ar); } void MathCursor::breakLine() { // leave inner cells while (popRight()) ; MathHullInset * p = formula()->par()->asHullInset(); if (!p) return; if (p->getType() == LM_OT_SIMPLE || p->getType() == LM_OT_EQUATION) { p->mutate(LM_OT_EQNARRAY); idx() = 0; pos() = size(); } else { p->addRow(hullRow()); // split line const row_type r = hullRow(); for (col_type c = hullCol() + 1; c < p->ncols(); ++c) p->cell(p->index(r, c)).swap(p->cell(p->index(r + 1, c))); // split cell splitCell(); p->cell(idx()).swap(p->cell(idx() + p->ncols() - 1)); } } //void MathCursor::readLine(MathArray & ar) const //{ // idx_type base = row() * par()->ncols(); // for (idx_type off = 0; off < par()->ncols(); ++off) // ar.push_back(par()->cell(base + off)); //} char MathCursor::valign() const { idx_type idx; MathGridInset * p = enclosingGrid(idx); return p ? p->valign() : '\0'; } char MathCursor::halign() const { idx_type idx; MathGridInset * p = enclosingGrid(idx); return p ? p->halign(idx % p->ncols()) : '\0'; } void MathCursor::getSelection(MathCursorPos & i1, MathCursorPos & i2) const { MathCursorPos anc = normalAnchor(); if (anc < cursor()) { i1 = anc; i2 = cursor(); } else { i1 = cursor(); i2 = anc; } } MathCursorPos & MathCursor::cursor() { lyx::Assert(Cursor_.size()); return Cursor_.back(); } MathCursorPos const & MathCursor::cursor() const { lyx::Assert(Cursor_.size()); return Cursor_.back(); } bool MathCursor::goUpDown(bool up) { int xlow, xhigh, ylow, yhigh; int xo, yo; getPos(xo, yo); // try current cell first xarray().boundingBox(xlow, xhigh, ylow, yhigh); if (up) yhigh = yo - 4; else ylow = yo + 4; if (bruteFind(xo, yo, xlow, xhigh, ylow, yhigh)) return true; // try to find an inset that knows better then we while (1) { // we found a cell that think something "below" us. if (up) { if (par()->idxUp(idx())) break; } else { if (par()->idxDown(idx())) break; } if (!popLeft()) { // no such inset found, just take something "above" return bruteFind(xo, yo, formula()->xlow(), formula()->xhigh(), up ? formula()->ylow() : yo + 4, up ? yo - 4 : formula()->yhigh() ); } } xarray().boundingBox(xlow, xhigh, ylow, yhigh); bruteFind(xo, yo, xlow, xhigh, ylow, yhigh); return true; } bool MathCursor::bruteFind(int x, int y, int xlow, int xhigh, int ylow, int yhigh) { cursor_type best_cursor; double best_dist = 1e10; MathIterator it = ibegin(formula()->par().nucleus()); MathIterator et = iend(formula()->par().nucleus()); for ( ; it != et; ++it) { // avoid invalid nesting hen selecting if (selection_ && !positionable(it.cursor(), Anchor_)) continue; int xo = it.position().xpos(); int yo = it.position().ypos(); if (xlow - 2 <= xo && xo <= xhigh + 2 && ylow - 2 <= yo && yo <= yhigh + 2) { double d = (x - xo) * (x - xo) + (y - yo) * (y - yo); if (d < best_dist) { best_dist = d; best_cursor = it.cursor(); } } } if (best_dist < 1e10) Cursor_ = best_cursor; return best_dist < 1e10; } bool MathCursor::idxLeft() { return par()->idxLeft(idx(), pos()); } bool MathCursor::idxRight() { return par()->idxRight(idx(), pos()); } bool MathCursor::interpret(string const & s) { //lyxerr << "interpret 1: '" << s << "'\n"; if (s.empty()) return true; if (s.size() == 1) return interpret(s[0]); //lyxerr << "char: '" << s[0] << "' int: " << int(s[0]) << endl; //owner_->getIntl()->getTrans().TranslateAndInsert(s[0], lt); //lyxerr << "trans: '" << s[0] << "' int: " << int(s[0]) << endl; if (s.size() >= 5 && s.substr(0, 5) == "cases") { unsigned int n = 1; istringstream is(s.substr(5).c_str()); is >> n; n = std::max(1u, n); niceInsert(MathAtom(new MathCasesInset(n))); return true; } if (s.size() >= 6 && s.substr(0, 6) == "matrix") { unsigned int m = 1; unsigned int n = 1; string v_align; string h_align; istringstream is(s.substr(6).c_str()); is >> m >> n >> v_align >> h_align; m = std::max(1u, m); n = std::max(1u, n); v_align += 'c'; niceInsert(MathAtom(new MathArrayInset(m, n, v_align[0], h_align))); return true; } if (s.size() >= 7 && s.substr(0, 7) == "replace") { ReplaceData rep; istringstream is(s.substr(7).c_str()); string from, to; is >> from >> to; mathed_parse_cell(rep.from, from); mathed_parse_cell(rep.to, to); lyxerr << "replacing '" << from << "' with '" << to << "'\n"; par()->replace(rep); return true; } if (s == "\\over" || s == "\\choose" || s == "\\atop") { MathArray ar = array(); MathAtom t(createMathInset(s.substr(1))); t->asNestInset()->cell(0).swap(array()); pos() = 0; niceInsert(t); popRight(); left(); return true; } latexkeys const * l = in_word_set(s.substr(1)); if (l && (l->token == LM_TK_FONT || l->token == LM_TK_OLDFONT)) { lastcode_ = static_cast(l->id); return true; } niceInsert(createMathInset(s.substr(1))); return true; } bool MathCursor::script(bool up) { macroModeClose(); selCut(); if (hasPrevAtom() && prevAtom()->asScriptInset()) { prevAtom()->asScriptInset()->ensure(up); pushRight(prevAtom()); idx() = up; pos() = size(); } else if (hasNextAtom() && nextAtom()->asScriptInset()) { nextAtom()->asScriptInset()->ensure(up); pushLeft(nextAtom()); idx() = up; pos() = 0; } else { plainInsert(MathAtom(new MathScriptInset(up))); prevAtom()->asScriptInset()->ensure(up); pushRight(prevAtom()); idx() = up; pos() = 0; } selPaste(); dump("1"); return true; } bool MathCursor::interpret(char c) { //lyxerr << "interpret 2: '" << c << "'\n"; // handle macroMode if (inMacroMode()) { string name = macroName(); if (name == "\\" && c == '#') { insert(c, LM_TC_TEX); return true; } if (name == "\\" && c == '\\') { backspace(); interpret("\\backslash"); return true; } if (name == "\\#" && '1' <= c && c <= '9') { insert(c, LM_TC_TEX); macroModeClose(); return true; } if (isalpha(c)) { insert(c, LM_TC_TEX); return true; } if (name == "\\") { insert(c, LM_TC_TEX); macroModeClose(); return true; } macroModeClose(); return true; } if (selection_) { selClear(); if (c == ' ') return true; // fall through in the other cases } if (lastcode_ == LM_TC_TEXTRM || par()->asBoxInset()) { // suppress direct insertion of two spaces in a row // the still allows typing 'a' and deleting the 'a', but // it is better than nothing... if (c == ' ' && hasPrevAtom() && prevAtom()->getChar() == ' ') return true; insert(c, LM_TC_TEXTRM); return true; } if (c == ' ') { if (hasPrevAtom() && prevAtom()->asSpaceInset()) { prevAtom()->asSpaceInset()->incSpace(); return true; } if (popRight()) return true; // if are at the very end, leave the formula return pos() != size(); } /* if (strchr("{}", c)) { insert(c, LM_TC_TEX); return true; } */ if (c == '{') { niceInsert(MathAtom(new MathBraceInset)); return true; } if (c == '}') { return true; } if (strchr("#$%", c)) { insert(MathAtom(new MathSpecialCharInset(c))); lastcode_ = LM_TC_VAR; return true; } if (isalpha(c) && lastcode_ == LM_TC_GREEK) { insert(c, LM_TC_VAR); return true; } if (isalpha(c) && lastcode_ == LM_TC_GREEK1) { insert(c, LM_TC_VAR); lastcode_ = LM_TC_VAR; return true; } if (c == '\\') { insert(c, LM_TC_TEX); //bv->owner()->message(_("TeX mode")); return true; } // no special circumstances, so insert the character without any fuss insert(c, lastcode_); lastcode_ = LM_TC_MIN; return true; } MathCursorPos MathCursor::normalAnchor() const { if (Anchor_.size() < Cursor_.size()) { Anchor_ = Cursor_; lyxerr << "unusual Anchor size\n"; dump("1"); } //lyx::Assert(Anchor_.size() >= Cursor_.size()); // use Anchor on the same level as Cursor MathCursorPos normal = Anchor_[Cursor_.size() - 1]; if (Cursor_.size() < Anchor_.size() && !(normal < cursor())) { // anchor is behind cursor -> move anchor behind the inset ++normal.pos_; } return normal; } void MathCursor::stripFromLastEqualSign() { // find position of last '=' in the array MathArray & ar = cursor().cell(); MathArray::const_iterator et = ar.end(); for (MathArray::const_iterator it = ar.begin(); it != ar.end(); ++it) if ((*it)->getChar() == '=') et = it; // delete everything behind this position ar.erase(et - ar.begin(), ar.size()); pos() = ar.size(); } void MathCursor::setSelection(cursor_type const & where, size_type n) { selection_ = true; Anchor_ = where; Cursor_ = where; cursor().pos_ += n; }