/** * \file Cursor.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Alejandro Aguilar Sierra * \author Alfredo Braunstein * \author Dov Feldstern * \author André Pönitz * \author Stefan Schimanski * * Full author contact details are available in file CREDITS. */ #include #include "Buffer.h" #include "BufferView.h" #include "CoordCache.h" #include "Cursor.h" #include "CutAndPaste.h" #include "DispatchResult.h" #include "FuncCode.h" #include "FuncRequest.h" #include "Layout.h" #include "LyXAction.h" #include "LyXRC.h" #include "Paragraph.h" #include "ParIterator.h" #include "Row.h" #include "texstream.h" #include "Text.h" #include "TextMetrics.h" #include "TocBackend.h" #include "support/debug.h" #include "support/docstream.h" #include "support/ExceptionMessage.h" #include "support/gettext.h" #include "support/lassert.h" #include "insets/InsetTabular.h" #include "insets/InsetText.h" #include "mathed/InsetMath.h" #include "mathed/InsetMathBrace.h" #include "mathed/InsetMathEnsureMath.h" #include "mathed/InsetMathScript.h" #include "mathed/MacroTable.h" #include "mathed/MathData.h" #include "mathed/MathFactory.h" #include "mathed/InsetMathMacro.h" #include #include #include #include using namespace std; namespace lyx { namespace { // Find position closest to (x, y) in cell given by iter. // Used only in mathed DocIterator bruteFind(Cursor const & c, int x, int y) { double best_dist = numeric_limits::max(); DocIterator result; DocIterator it = c; it.pos() = 0; DocIterator et = c; et.pos() = et.lastpos(); for (size_t i = 0;; ++i) { int xo; int yo; Inset const * inset = &it.inset(); CoordCache::Insets const & insetCache = c.bv().coordCache().getInsets(); // FIXME: in the case where the inset is not in the cache, this // means that no part of it is visible on screen. In this case // we don't do elaborate search and we just return the forwarded // DocIterator at its beginning. if (!insetCache.has(inset)) { it.top().pos() = 0; return it; } Point const o = insetCache.xy(inset); inset->cursorPos(c.bv(), it.top(), c.boundary(), xo, yo); // Convert to absolute xo += o.x_; yo += o.y_; double d = (x - xo) * (x - xo) + (y - yo) * (y - yo); // '<=' in order to take the last possible position // this is important for clicking behind \sum in e.g. '\sum_i a' LYXERR(Debug::DEBUG, "i: " << i << " d: " << d << " best: " << best_dist); if (d <= best_dist) { best_dist = d; result = it; } if (it == et) break; it.forwardPos(); } return result; } } // namespace // // CursorData // CursorData::CursorData() : DocIterator(), anchor_(), selection_(false), mark_(false), word_selection_(false), autocorrect_(false), current_font(inherit_font) {} CursorData::CursorData(Buffer * buffer) : DocIterator(buffer), anchor_(), selection_(false), mark_(false), word_selection_(false), autocorrect_(false), current_font(inherit_font) {} CursorData::CursorData(DocIterator const & dit) : DocIterator(dit), anchor_(), selection_(false), mark_(false), word_selection_(false), autocorrect_(false), current_font(inherit_font) {} ostream & operator<<(ostream & os, CursorData const & cur) { os << "\n cursor: | anchor:\n"; for (size_t i = 0, n = cur.depth(); i != n; ++i) { os << " " << cur[i] << " | "; if (i < cur.anchor_.depth()) os << cur.anchor_[i]; else os << "-------------------------------"; os << "\n"; } for (size_t i = cur.depth(), n = cur.anchor_.depth(); i < n; ++i) { os << "------------------------------- | " << cur.anchor_[i] << "\n"; } os << " selection: " << cur.selection_ // << " x_target: " << cur.x_target_ << " boundary: " << cur.boundary() << endl; return os; } LyXErr & operator<<(LyXErr & os, CursorData const & cur) { os.stream() << cur; return os; } void CursorData::reset() { clear(); push_back(CursorSlice(buffer()->inset())); anchor_ = doc_iterator_begin(buffer()); anchor_.clear(); new_word_ = doc_iterator_begin(buffer()); new_word_.clear(); selection_ = false; mark_ = false; } void CursorData::setCursor(DocIterator const & cur) { DocIterator::operator=(cur); } void CursorData::setCursorSelectionTo(DocIterator dit) { size_t i = 0; // normalise dit while (i < dit.depth() && i < anchor_.depth() && dit[i] == anchor_[i]) ++i; if (i != dit.depth()) { // otherwise the cursor is already normal if (i == anchor_.depth()) // dit is a proper extension of the anchor_ dit.cutOff(i - 1); else if (i + 1 < dit.depth()) { // one has dit[i] != anchor_[i] but either dit[i-1] == anchor_[i-1] // or i == 0. Remove excess. dit.cutOff(i); if (dit[i] > anchor_[i]) // place dit after the inset it was in ++dit.pos(); } } setCursor(dit); setSelection(); } void CursorData::setCursorToAnchor() { if (selection()) { DocIterator normal = anchor_; while (depth() < normal.depth()) normal.pop_back(); if (depth() < anchor_.depth() && top() <= anchor_[depth() - 1]) ++normal.pos(); setCursor(normal); } } CursorSlice CursorData::normalAnchor() const { if (!selection()) return top(); // LASSERT: There have been several bugs around this code, that seem // to involve failures to reset the anchor. We can at least not crash // in release mode by resetting it ourselves. if (anchor_.depth() < depth()) { LYXERR0("Cursor is deeper than anchor. PLEASE REPORT.\nCursor is" << *this); const_cast(anchor_) = *this; } CursorSlice normal = anchor_[depth() - 1]; if (depth() < anchor_.depth() && top() <= normal) { // anchor is behind cursor -> move anchor behind the inset ++normal.pos(); } return normal; } void CursorData::setSelection() { selection(true); if (idx() == normalAnchor().idx() && pit() == normalAnchor().pit() && pos() == normalAnchor().pos()) selection(false); } void CursorData::setSelection(DocIterator const & where, int n) { setCursor(where); selection(true); anchor_ = where; pos() += n; } void CursorData::resetAnchor() { anchor_ = *this; checkNewWordPosition(); } CursorSlice CursorData::selBegin() const { if (!selection()) return top(); return normalAnchor() < top() ? normalAnchor() : top(); } CursorSlice CursorData::selEnd() const { if (!selection()) return top(); return normalAnchor() > top() ? normalAnchor() : top(); } DocIterator CursorData::selectionBegin() const { if (!selection()) return *this; DocIterator di; // FIXME: This is a work-around for the problem that // CursorSlice doesn't keep track of the boundary. if (normalAnchor() == top()) di = anchor_.boundary() > boundary() ? anchor_ : *this; else di = normalAnchor() < top() ? anchor_ : *this; di.resize(depth()); return di; } DocIterator CursorData::selectionEnd() const { if (!selection()) return *this; DocIterator di; // FIXME: This is a work-around for the problem that // CursorSlice doesn't keep track of the boundary. if (normalAnchor() == top()) di = anchor_.boundary() < boundary() ? anchor_ : *this; else di = normalAnchor() > top() ? anchor_ : *this; if (di.depth() > depth()) { di.resize(depth()); ++di.pos(); } return di; } namespace { docstring parbreak(CursorData const * cur) { odocstringstream os; os << '\n'; // only add blank line if we're not in a ParbreakIsNewline situation if (!cur->inset().getLayout().parbreakIsNewline() && !cur->paragraph().layout().parbreak_is_newline) os << '\n'; return os.str(); } } docstring CursorData::selectionAsString(bool with_label) const { if (!selection()) return docstring(); if (inMathed()) return cap::grabSelection(*this); int const label = with_label ? AS_STR_LABEL | AS_STR_INSETS : AS_STR_INSETS; idx_type const startidx = selBegin().idx(); idx_type const endidx = selEnd().idx(); if (startidx != endidx) { // multicell selection InsetTabular * table = inset().asInsetTabular(); LASSERT(table, return docstring()); return table->asString(startidx, endidx); } ParagraphList const & pars = text()->paragraphs(); pit_type const startpit = selBegin().pit(); pit_type const endpit = selEnd().pit(); size_t const startpos = selBegin().pos(); size_t const endpos = selEnd().pos(); if (startpit == endpit) return pars[startpit].asString(startpos, endpos, label); // First paragraph in selection docstring result = pars[startpit]. asString(startpos, pars[startpit].size(), label) + parbreak(this); // The paragraphs in between (if any) for (pit_type pit = startpit + 1; pit != endpit; ++pit) { Paragraph const & par = pars[pit]; result += par.asString(0, par.size(), label) + parbreak(this); } // Last paragraph in selection result += pars[endpit].asString(0, endpos, label); return result; } void CursorData::info(odocstream & os, bool devel_mode) const { for (int i = 1, n = depth(); i < n; ++i) { operator[](i).inset().infoize(os); os << " "; } if (pos() != 0) { Inset const * inset = prevInset(); // prevInset() can return 0 in certain case. if (inset) prevInset()->infoize2(os); } if (devel_mode) { InsetMath * math = inset().asInsetMath(); if (math) os << _(", Inset: ") << math->id(); os << _(", Cell: ") << idx(); os << _(", Position: ") << pos(); } } docstring CursorData::currentState(bool devel_mode) const { if (inMathed()) { odocstringstream os; info(os, devel_mode); return os.str(); } if (inTexted()) return text()->currentState(*this, devel_mode); return docstring(); } void CursorData::markNewWordPosition() { if (lyxrc.spellcheck_continuously && inTexted() && new_word_.empty()) { FontSpan nw = locateWord(WHOLE_WORD); if (nw.size() == 1) { LYXERR(Debug::DEBUG, "start new word: " << " par: " << pit() << " pos: " << nw.first); new_word_ = *this; } } } void CursorData::clearNewWordPosition() { if (!new_word_.empty()) { LYXERR(Debug::DEBUG, "clear new word: " << " par: " << pit() << " pos: " << pos()); new_word_.resize(0); } } void CursorData::checkNewWordPosition() { if (!lyxrc.spellcheck_continuously || new_word_.empty()) return ; // forget the position of the current new word if // 1) or the remembered position was "broken" // 2) or the count of nested insets changed // 3) the top-level inset is not the same anymore // 4) the cell index changed // 5) or the paragraph changed // 6) or the cursor pos is out of paragraph bound if (new_word_.fixIfBroken() || depth() != new_word_.depth() || &inset() != &new_word_.inset() || pit() != new_word_.pit() || idx() != new_word_.idx() || new_word_.pos() > new_word_.lastpos()) clearNewWordPosition(); else { FontSpan nw = locateWord(WHOLE_WORD); if (!nw.empty()) { FontSpan ow = new_word_.locateWord(WHOLE_WORD); if (nw.intersect(ow).empty()) clearNewWordPosition(); else LYXERR(Debug::DEBUG, "new word: " << " par: " << pit() << " pos: " << nw.first << ".." << nw.last); } else clearNewWordPosition(); } } void CursorData::clearSelection() { selection(false); setWordSelection(false); setMark(false); resetAnchor(); } bool CursorData::fixIfBroken() { bool const broken_cursor = DocIterator::fixIfBroken(); bool const broken_anchor = anchor_.fixIfBroken(); if (broken_cursor || broken_anchor) { clearNewWordPosition(); clearSelection(); return true; } return false; } void CursorData::sanitize() { DocIterator::sanitize(); new_word_.sanitize(); if (selection()) anchor_.sanitize(); else resetAnchor(); } bool CursorData::isInside(Inset const * p) const { for (size_t i = 0; i != depth(); ++i) if (&operator[](i).inset() == p) return true; return false; } void CursorData::leaveInset(Inset const & inset) { for (size_t i = 0; i != depth(); ++i) { if (&operator[](i).inset() == &inset) { resize(i); return; } } } bool CursorData::textUndo() { if (!buffer()->undo().textUndo(*this)) return false; sanitize(); return true; } bool CursorData::textRedo() { if (!buffer()->undo().textRedo(*this)) return false; sanitize(); return true; } void CursorData::finishUndo() const { buffer()->undo().finishUndo(); } void CursorData::beginUndoGroup() const { buffer()->undo().beginUndoGroup(*this); } void CursorData::endUndoGroup() const { buffer()->undo().endUndoGroup(*this); } void CursorData::recordUndo(pit_type from, pit_type to) const { buffer()->undo().recordUndo(*this, from, to); } void CursorData::recordUndo(pit_type from) const { buffer()->undo().recordUndo(*this, from, pit()); } void CursorData::recordUndo(UndoKind kind) const { buffer()->undo().recordUndo(*this, kind); } void CursorData::recordUndoInset(Inset const * in) const { buffer()->undo().recordUndoInset(*this, in); } void CursorData::recordUndoFullBuffer() const { buffer()->undo().recordUndoFullBuffer(*this); } void CursorData::recordUndoBufferParams() const { buffer()->undo().recordUndoBufferParams(*this); } void CursorData::recordUndoSelection() const { if (inMathed()) { if (cap::multipleCellsSelected(*this)) recordUndoInset(); else recordUndo(); } else { buffer()->undo().recordUndo(*this, selBegin().pit(), selEnd().pit()); } } int CursorData::currentMode() { LASSERT(!empty(), return Inset::UNDECIDED_MODE); for (int i = depth() - 1; i >= 0; --i) { int res = operator[](i).inset().currentMode(); bool locked_mode = operator[](i).inset().lockedMode(); // Also return UNDECIDED_MODE when the mode is locked, // as in this case it is treated the same as TEXT_MODE if (res != Inset::UNDECIDED_MODE || locked_mode) return res; } return Inset::TEXT_MODE; } bool CursorData::confirmDeletion(bool const before) const { if (!selection()) { if (Inset const * inset = before ? prevInset() : nextInset()) return inset->confirmDeletion(); } else { DocIterator dit = selectionBegin(); CursorSlice const end = selectionEnd().top(); for (; dit.top() < end; dit.top().forwardPos()) if (Inset const * inset = dit.nextInset()) if (inset->confirmDeletion()) return true; } return false; } // // Cursor // // be careful: this is called from the bv's constructor, too, so // bv functions are not yet available! Cursor::Cursor(BufferView & bv) : CursorData(&bv.buffer()), bv_(&bv), x_target_(-1), textTargetOffset_(0), beforeDispatchPosX_(0), beforeDispatchPosY_(0) {} void Cursor::reset() { CursorData::reset(); clearTargetX(); } void Cursor::setCursorData(CursorData const & data) { CursorData::operator=(data); } bool Cursor::getStatus(FuncRequest const & cmd, FuncStatus & status) const { Cursor cur = *this; // Try to fix cursor in case it is broken. cur.fixIfBroken(); // Is this a function that acts on inset at point? Inset * inset = cur.nextInset(); if (lyxaction.funcHasFlag(cmd.action(), LyXAction::AtPoint) && inset && inset->getStatus(cur, cmd, status)) return true; // This is, of course, a mess. Better create a new doc iterator and use // this in Inset::getStatus. This might require an additional // BufferView * arg, though (which should be avoided) //Cursor safe = *this; bool res = false; for ( ; cur.depth(); cur.pop()) { //lyxerr << "\nCursor::getStatus: cmd: " << cmd << endl << *this << endl; // LASSERT: Is it safe to continue here, or should we return? LASSERT(cur.idx() <= cur.lastidx(), /**/); LASSERT(cur.pit() <= cur.lastpit(), /**/); LASSERT(cur.pos() <= cur.lastpos(), /**/); // The inset's getStatus() will return 'true' if it made // a definitive decision on whether it want to handle the // request or not. The result of this decision is put into // the 'status' parameter. if (cur.inset().getStatus(cur, cmd, status)) { res = true; break; } } return res; } void Cursor::saveBeforeDispatchPosXY() { getPos(beforeDispatchPosX_, beforeDispatchPosY_); } void Cursor::dispatch(FuncRequest const & cmd0) { LYXERR(Debug::ACTION, "Cursor::dispatch: cmd: " << cmd0 << '\n' << *this); if (empty()) return; fixIfBroken(); FuncRequest cmd = cmd0; Cursor safe = *this; Cursor old = *this; disp_ = DispatchResult(); beginUndoGroup(); // Is this a function that acts on inset at point? if (lyxaction.funcHasFlag(cmd.action(), LyXAction::AtPoint) && nextInset()) { disp_.dispatched(true); disp_.screenUpdate(Update::FitCursor | Update::Force); FuncRequest tmpcmd = cmd; LYXERR(Debug::DEBUG, "Cursor::dispatch: (AtPoint) cmd: " << cmd0 << endl << *this); nextInset()->dispatch(*this, tmpcmd); if (disp_.dispatched()) { endUndoGroup(); return; } } // store some values to be used inside of the handlers beforeDispatchCursor_ = *this; for (; depth(); pop(), boundary(false)) { LYXERR(Debug::DEBUG, "Cursor::dispatch: cmd: " << cmd0 << endl << *this); // In any of these cases, the cursor is invalid, and we should // try to save this document rather than crash. LBUFERR(pos() <= lastpos()); LBUFERR(idx() <= lastidx()); LBUFERR(pit() <= lastpit()); // The common case is 'LFUN handled, need update', so make the // LFUN handler's life easier by assuming this as default value. // The handler can reset the update and val flags if necessary. disp_.screenUpdate(Update::FitCursor | Update::Force); disp_.dispatched(true); inset().dispatch(*this, cmd); if (disp_.dispatched()) break; } // it completely to get a 'bomb early' behaviour in case this // object will be used again. if (!disp_.dispatched()) { LYXERR(Debug::DEBUG, "RESTORING OLD CURSOR!"); // We might have invalidated the cursor when removing an empty // paragraph while the cursor could not be moved out the inset // while we initially thought we could. This might happen when // a multiline inset becomes an inline inset when the second // paragraph is removed. if (safe.pit() > safe.lastpit()) { safe.pit() = safe.lastpit(); safe.pos() = safe.lastpos(); } operator=(safe); disp_.screenUpdate(Update::None); disp_.dispatched(false); } else { // restore the previous one because nested Cursor::dispatch calls // are possible which would change it beforeDispatchCursor_ = safe.beforeDispatchCursor_; } endUndoGroup(); // NOTE: The code below has been copied to BufferView::dispatch. // If you need to modify this, please update the other one too. // notify insets we just left if (*this != old) { old.beginUndoGroup(); old.fixIfBroken(); bool badcursor = notifyCursorLeavesOrEnters(old, *this); if (badcursor) { fixIfBroken(); bv().resetInlineCompletionPos(); } old.endUndoGroup(); } } DispatchResult const & Cursor::result() const { return disp_; } void Cursor::message(docstring const & msg) const { disp_.setMessage(msg); } void Cursor::errorMessage(docstring const & msg) const { disp_.setMessage(msg); disp_.setError(true); } BufferView & Cursor::bv() const { LBUFERR(bv_); return *bv_; } void Cursor::pop() { LBUFERR(depth() >= 1); pop_back(); } void Cursor::push(Inset & p) { push_back(CursorSlice(p)); p.setBuffer(*buffer()); } void Cursor::pushBackward(Inset & p) { LASSERT(!empty(), return); //lyxerr << "Entering inset " << t << " front" << endl; push(p); p.idxFirst(*this); } bool Cursor::popBackward() { LASSERT(!empty(), return false); if (depth() == 1) return false; pop(); return true; } bool Cursor::popForward() { LASSERT(!empty(), return false); //lyxerr << "Leaving inset from in back" << endl; const pos_type lp = (depth() > 1) ? (*this)[depth() - 2].lastpos() : 0; if (depth() == 1) return false; pop(); pos() += lastpos() - lp + 1; return true; } void Cursor::getPos(int & x, int & y) const { Point p = bv().getPos(*this); x = p.x_; y = p.y_; } Row const & Cursor::textRow() const { CursorSlice const & cs = innerTextSlice(); ParagraphMetrics const & pm = bv().parMetrics(cs.text(), cs.pit()); return pm.getRow(pos(), boundary()); } bool Cursor::posVisRight(bool skip_inset) { Cursor new_cur = *this; // where we will move to pos_type left_pos; // position visually left of current cursor pos_type right_pos; // position visually right of current cursor getSurroundingPos(left_pos, right_pos); LYXERR(Debug::RTL, left_pos <<"|"<< right_pos << " (pos: "<< pos() <<")"); // Are we at an inset? new_cur.pos() = right_pos; new_cur.boundary(false); if (!skip_inset && text()->checkAndActivateInsetVisual(new_cur, right_pos >= pos(), false)) { // we actually move the cursor at the end of this // function, for now we just keep track of the new // position in new_cur... LYXERR(Debug::RTL, "entering inset at: " << new_cur.pos()); } // Are we already at rightmost pos in row? else if (text()->empty() || right_pos == -1) { new_cur = *this; if (!new_cur.posVisToNewRow(false)) { LYXERR(Debug::RTL, "not moving!"); return false; } // we actually move the cursor at the end of this // function, for now just keep track of the new // position in new_cur... LYXERR(Debug::RTL, "right edge, moving: " << int(new_cur.pit()) << "," << int(new_cur.pos()) << "," << (new_cur.boundary() ? 1 : 0)); } // normal movement to the right else { new_cur = *this; // Recall, if the cursor is at position 'x', that // means *before* the character at position 'x'. In // RTL, "before" means "to the right of", in LTR, "to // the left of". So currently our situation is this: // the position to our right is 'right_pos' (i.e., // we're currently to the left of 'right_pos'). In // order to move to the right, it depends whether or // not the character at 'right_pos' is RTL. bool const new_pos_is_RTL = paragraph().getFontSettings( buffer()->params(), right_pos).isVisibleRightToLeft(); // If the character at 'right_pos' *is* LTR, then in // order to move to the right of it, we need to be // *after* 'right_pos', i.e., move to position // 'right_pos' + 1. if (!new_pos_is_RTL) { new_cur.pos() = right_pos + 1; // set the boundary to true in two situations: if ( // 1. if new_pos is now lastpos, and we're in // an RTL paragraph (this means that we're // moving right to the end of an LTR chunk // which is at the end of an RTL paragraph); (new_cur.pos() == lastpos() && paragraph().isRTL(buffer()->params())) // 2. if the position *after* right_pos is RTL // (we want to be *after* right_pos, not // before right_pos + 1!) || paragraph().getFontSettings(buffer()->params(), new_cur.pos()).isVisibleRightToLeft() ) new_cur.boundary(true); else // set the boundary to false new_cur.boundary(false); } // Otherwise (if the character at position 'right_pos' // is RTL), then moving to the right of it is as easy // as setting the new position to 'right_pos'. else { new_cur.pos() = right_pos; new_cur.boundary(false); } } bool const moved = new_cur != *this || new_cur.boundary() != boundary(); if (moved) { LYXERR(Debug::RTL, "moving to: " << new_cur.pos() << (new_cur.boundary() ? " (boundary)" : "")); *this = new_cur; } return moved; } bool Cursor::posVisLeft(bool skip_inset) { Cursor new_cur = *this; // where we will move to pos_type left_pos; // position visually left of current cursor pos_type right_pos; // position visually right of current cursor getSurroundingPos(left_pos, right_pos); LYXERR(Debug::RTL, left_pos <<"|"<< right_pos << " (pos: "<< pos() <<")"); // Are we at an inset? new_cur.pos() = left_pos; new_cur.boundary(false); if (!skip_inset && text()->checkAndActivateInsetVisual(new_cur, left_pos >= pos(), true)) { // we actually move the cursor at the end of this // function, for now we just keep track of the new // position in new_cur... LYXERR(Debug::RTL, "entering inset at: " << new_cur.pos()); } // Are we already at leftmost pos in row? else if (text()->empty() || left_pos == -1) { new_cur = *this; if (!new_cur.posVisToNewRow(true)) { LYXERR(Debug::RTL, "not moving!"); return false; } // we actually move the cursor at the end of this // function, for now just keep track of the new // position in new_cur... LYXERR(Debug::RTL, "left edge, moving: " << int(new_cur.pit()) << "," << int(new_cur.pos()) << "," << (new_cur.boundary() ? 1 : 0)); } // normal movement to the left else { new_cur = *this; // Recall, if the cursor is at position 'x', that // means *before* the character at position 'x'. In // RTL, "before" means "to the right of", in LTR, "to // the left of". So currently our situation is this: // the position to our left is 'left_pos' (i.e., we're // currently to the right of 'left_pos'). In order to // move to the left, it depends whether or not the // character at 'left_pos' is RTL. bool const new_pos_is_RTL = paragraph().getFontSettings( buffer()->params(), left_pos).isVisibleRightToLeft(); // If the character at 'left_pos' *is* RTL, then in // order to move to the left of it, we need to be // *after* 'left_pos', i.e., move to position // 'left_pos' + 1. if (new_pos_is_RTL) { new_cur.pos() = left_pos + 1; // set the boundary to true in two situations: if ( // 1. if new_pos is now lastpos and we're in // an LTR paragraph (this means that we're // moving left to the end of an RTL chunk // which is at the end of an LTR paragraph); (new_cur.pos() == lastpos() && !paragraph().isRTL(buffer()->params())) // 2. if the position *after* left_pos is not // RTL (we want to be *after* left_pos, not // before left_pos + 1!) || !paragraph().getFontSettings(buffer()->params(), new_cur.pos()).isVisibleRightToLeft() ) new_cur.boundary(true); else // set the boundary to false new_cur.boundary(false); } // Otherwise (if the character at position 'left_pos' // is LTR), then moving to the left of it is as easy // as setting the new position to 'left_pos'. else { new_cur.pos() = left_pos; new_cur.boundary(false); } } bool const moved = new_cur != *this || new_cur.boundary() != boundary(); if (moved) { LYXERR(Debug::RTL, "moving to: " << new_cur.pos() << (new_cur.boundary() ? " (boundary)" : "")); *this = new_cur; } return moved; } namespace { // Return true on success bool findNonVirtual(Row const & row, Row::const_iterator & cit, bool onleft) { if (onleft) { while (cit != row.begin() && cit->isVirtual()) --cit; } else { while (cit != row.end() && cit->isVirtual()) ++cit; } return cit != row.end() && !cit->isVirtual(); } } // namespace void Cursor::getSurroundingPos(pos_type & left_pos, pos_type & right_pos) const { // by default, we know nothing. left_pos = -1; right_pos = -1; Row const & row = textRow(); double dummy = 0; Row::const_iterator cit = row.findElement(pos(), boundary(), dummy); // Handle the case of empty row if (cit == row.end()) { if (row.isRTL()) right_pos = row.pos(); else left_pos = row.pos() - 1; return; } // skip virtual elements and exit if no non-virtual one exists if (!findNonVirtual(row, cit, !cit->isRTL())) return; // if the position is at the left side of the element, we have to // look at the previous element if (pos() == cit->left_pos()) { LYXERR(Debug::RTL, "getSurroundingPos(" << pos() << (boundary() ? "b" : "") << "), AT LEFT of *cit=" << *cit); // this one is easy (see common case below) right_pos = pos() - (cit->isRTL() ? 1 : 0); // at the left of the row if (cit == row.begin()) return; --cit; if (!findNonVirtual(row, cit, true)) return; // [...[ is the row element, | is cursor position (! with boundary) // [ 1 2 [ is a ltr row element with pos=1 and endpos=3 // ] 2 1] is an rtl row element with pos=1 and endpos=3 // [ 1 2 [ [|3 4 [ => (2, 3) // or [ 1 2 [ ]!4 3 ] => (2, 4) // or ] 2 1 ] [|3 4 [ => (1, 3) // or ] 4 3 ] ]!2 1 ] => (3, 2) left_pos = cit->right_pos() - (cit->isRTL() ? 0 : 1); // happens with consecutive row of same direction if (left_pos == right_pos) { left_pos += cit->isRTL() ? 1 : -1; } } // same code but with the element at the right else if (pos() == cit->right_pos()) { LYXERR(Debug::RTL, "getSurroundingPos(" << pos() << (boundary() ? "b" : "") << "), AT RIGHT of *cit=" << *cit); // this one is easy (see common case below) left_pos = pos() - (cit->isRTL() ? 0 : 1); // at the right of the row if (cit + 1 == row.end()) return; ++cit; if (!findNonVirtual(row, cit, false)) return; // [ 1 2![ [ 3 4 [ => (2, 3) // or [ 1 2![ ] 4 3 ] => (2, 4) // or ] 2 1|] [ 3 4 [ => (1, 3) // or ] 4 3|] ] 2 1 ] => (3, 2) right_pos = cit->left_pos() - (cit->isRTL() ? 1 : 0); // happens with consecutive row of same direction if (right_pos == left_pos) right_pos += cit->isRTL() ? -1 : 1; } // common case: both positions are inside the row element else { // [ 1 2|3 [ => (2, 3) // or ] 3|2 1 ] => (3, 2) left_pos = pos() - (cit->isRTL() ? 0 : 1); right_pos = pos() - (cit->isRTL() ? 1 : 0); } // Note that debug message does not catch all early returns above LYXERR(Debug::RTL,"getSurroundingPos(" << pos() << (boundary() ? "b" : "") << ") => (" << left_pos << ", " << right_pos <<")"); } bool Cursor::posVisToNewRow(bool movingLeft) { Row const & row = textRow(); bool par_is_LTR = !row.isRTL(); // Inside a table, determining whether to move to the next or // previous row should be done based on the table's direction. if (inset().asInsetTabular()) { par_is_LTR = !inset().asInsetTabular()->isRightToLeft(*this); LYXERR(Debug::RTL, "Inside table! par_is_LTR=" << (par_is_LTR ? 1 : 0)); } // if moving left in an LTR paragraph or moving right in an // RTL one, move to previous row if (par_is_LTR == movingLeft) { if (row.pos() == 0) { // we're at first row in paragraph if (pit() == 0) // no previous paragraph! don't move return false; // move to last pos in previous par --pit(); pos() = lastpos(); boundary(false); } else { // move to previous row in this par pos() = row.pos() - 1; // this is guaranteed to be in previous row boundary(false); } } // if moving left in an RTL paragraph or moving right in an // LTR one, move to next row else { if (row.endpos() == lastpos()) { // we're at last row in paragraph if (pit() == lastpit()) // last paragraph! don't move return false; // move to first row in next par ++pit(); pos() = 0; boundary(false); } else { // move to next row in this par pos() = row.endpos(); boundary(false); } } // make sure we're at left-/right-most pos in new row posVisToRowExtremity(!movingLeft); return true; } void Cursor::posVisToRowExtremity(bool left) { LYXERR(Debug::RTL, "entering extremity: " << pit() << "," << pos() << "," << (boundary() ? 1 : 0)); TextMetrics const & tm = bv_->textMetrics(text()); // Looking for extremities is like clicking on the left or the // right of the row. int x = tm.origin().x_ + (left ? 0 : textRow().width()); bool b = false; pos() = tm.getPosNearX(textRow(), x, b); boundary(b); LYXERR(Debug::RTL, "leaving extremity: " << pit() << "," << pos() << "," << (boundary() ? 1 : 0)); } bool Cursor::reverseDirectionNeeded() const { /* * We determine the directions based on the direction of the * bottom() --- i.e., outermost --- paragraph, because that is * the only way to achieve consistency of the arrow's movements * within a paragraph, and thus avoid situations in which the * cursor gets stuck. */ return bottom().paragraph().isRTL(bv().buffer().params()); } void Cursor::setTargetX(int x) { x_target_ = x; textTargetOffset_ = 0; } int Cursor::x_target() const { return x_target_; } void Cursor::clearTargetX() { x_target_ = -1; textTargetOffset_ = 0; } void Cursor::updateTextTargetOffset() { int x; int y; getPos(x, y); textTargetOffset_ = x - x_target_; } bool Cursor::selHandle(bool sel) { //lyxerr << "Cursor::selHandle" << endl; if (mark()) sel = true; if (sel == selection()) return false; if (!sel) cap::saveSelection(*this); resetAnchor(); selection(sel); return true; } bool Cursor::atFirstOrLastRow(bool up) { TextMetrics const & tm = bv_->textMetrics(text()); ParagraphMetrics const & pm = tm.parMetrics(pit()); int row; if (pos() && boundary()) row = pm.pos2row(pos() - 1); else row = pm.pos2row(pos()); if (up) { if (pit() == 0 && row == 0) return true; } else { if (pit() + 1 >= int(text()->paragraphs().size()) && row + 1 >= int(pm.rows().size())) return true; } return false; } } // namespace lyx /////////////////////////////////////////////////////////////////// // // FIXME: Look here // The part below is the non-integrated rest of the original math // cursor. This should be either generalized for texted or moved // back to mathed (in most cases to InsetMathNest). // /////////////////////////////////////////////////////////////////// #include "mathed/InsetMathChar.h" #include "mathed/InsetMathGrid.h" #include "mathed/InsetMathScript.h" #include "mathed/InsetMathUnknown.h" #include "mathed/MathFactory.h" #include "mathed/MathStream.h" #include "mathed/MathSupport.h" namespace lyx { bool Cursor::openable(MathAtom const & t) const { if (!t->isActive()) return false; if (t->lock()) return false; if (!selection()) return true; // we can't move into anything new during selection if (depth() >= realAnchor().depth()) return false; if (t.nucleus() != &realAnchor()[depth()].inset()) return false; return true; } void Cursor::plainErase() { cell().erase(pos()); } void Cursor::plainInsert(MathAtom const & t) { cell().insert(pos(), t); ++pos(); inset().setBuffer(bv_->buffer()); inset().initView(); checkBufferStructure(); } void Cursor::insert(char_type c) { //lyxerr << "Cursor::insert char '" << c << "'" << endl; LASSERT(!empty(), return); if (inMathed()) { cap::selClearOrDel(*this); insert(new InsetMathChar(c)); } else { text()->insertChar(*this, c); } } void Cursor::insert(docstring const & str) { for (char_type c : str) insert(c); } void Cursor::insert(Inset * inset0) { LASSERT(inset0, return); if (inMathed()) insert(MathAtom(inset0->asInsetMath())); else { text()->insertInset(*this, inset0); inset0->setBuffer(bv_->buffer()); inset0->initView(); if (inset0->isLabeled()) forceBufferUpdate(); } } void Cursor::insert(MathAtom const & t) { LATTEST(inMathed()); //lyxerr << "Cursor::insert MathAtom '" << t << "'" << endl; macroModeClose(); cap::selClearOrDel(*this); plainInsert(t); } void Cursor::insert(MathData const & ar) { LATTEST(inMathed()); macroModeClose(); if (selection()) cap::eraseSelection(*this); cell().insert(pos(), ar); pos() += ar.size(); // FIXME audit setBuffer calls inset().setBuffer(bv_->buffer()); } int Cursor::niceInsert(docstring const & t, Parse::flags f, bool enter) { LATTEST(inMathed()); MathData ar(buffer()); asArray(t, ar, f); if (ar.size() == 1 && (enter || selection())) niceInsert(ar[0]); else insert(ar); return ar.size(); } void Cursor::niceInsert(MathAtom const & t) { LATTEST(inMathed()); macroModeClose(); docstring const safe = cap::grabAndEraseSelection(*this); plainInsert(t); // If possible, enter the new inset and move the contents of the selection if (t->isActive()) { posBackward(); // be careful here: don't use 'pushBackward(t)' as this we need to // push the clone, not the original pushBackward(*nextInset()); // We may not use niceInsert here (recursion) MathData ar(buffer()); asArray(safe, ar); insert(ar); } else if (t->asMacro() && !safe.empty()) { MathData ar(buffer()); asArray(safe, ar); docstring const name = t->asMacro()->name(); MacroData const * data = buffer()->getMacro(name); if (data && data->numargs() - data->optionals() > 0) { plainInsert(MathAtom(new InsetMathBrace(ar))); posBackward(); } } } bool Cursor::backspace(bool const force) { if (selection()) { cap::eraseSelection(*this); return true; } if (pos() == 0) { // If empty cell, and not part of a big cell if (lastpos() == 0 && inset().nargs() == 1) { popBackward(); // Directly delete empty cell: [|[]] => [|] if (inMathed()) { plainErase(); resetAnchor(); return true; } // [|], can not delete from inside return false; } else { if (inMathed()) pullArg(); else popBackward(); return true; } } if (inMacroMode()) { InsetMathUnknown * p = activeMacro(); if (p->name().size() > 1) { p->setName(p->name().substr(0, p->name().size() - 1)); return true; } } if (pos() != 0 && !force && prevAtom()->confirmDeletion()) { // let's require two backspaces for 'big stuff' and // highlight on the first resetAnchor(); selection(true); --pos(); } else { --pos(); plainErase(); } return true; } bool Cursor::erase(bool const force) { if (inMacroMode()) return true; if (selection()) { cap::eraseSelection(*this); return true; } // delete empty cells if possible if (pos() == lastpos() && inset().idxDelete(idx())) return true; // special behaviour when in last position of cell if (pos() == lastpos()) { bool one_cell = inset().nargs() == 1; if (one_cell && lastpos() == 0) { popBackward(); // Directly delete empty cell: [|[]] => [|] if (inMathed()) { plainErase(); resetAnchor(); return true; } // [|], can not delete from inside return false; } // remove markup if (!one_cell) inset().idxGlue(idx()); return true; } // 'clever' UI hack: only erase large items if previously slected if (pos() != lastpos() && !force && nextAtom()->confirmDeletion()) { resetAnchor(); selection(true); ++pos(); } else { plainErase(); } return true; } bool Cursor::up() { macroModeClose(); DocIterator save = *this; FuncRequest cmd(selection() ? LFUN_UP_SELECT : LFUN_UP, docstring()); this->dispatch(cmd); if (disp_.dispatched()) return true; setCursor(save); return false; } bool Cursor::down() { macroModeClose(); DocIterator save = *this; FuncRequest cmd(selection() ? LFUN_DOWN_SELECT : LFUN_DOWN, docstring()); this->dispatch(cmd); if (disp_.dispatched()) return true; setCursor(save); return false; } void Cursor::handleNest(MathAtom const & a, int c) { //lyxerr << "Cursor::handleNest: " << c << endl; MathAtom t = a; asArray(cap::grabAndEraseSelection(*this), t.nucleus()->cell(c)); insert(t); posBackward(); pushBackward(*nextInset()); } int Cursor::targetX() const { if (x_target() != -1) return x_target(); int x = 0; int y = 0; getPos(x, y); return x; } int Cursor::textTargetOffset() const { return textTargetOffset_; } void Cursor::setTargetX() { int x; int y; getPos(x, y); setTargetX(x); } bool Cursor::macroModeClose(bool cancel) { if (!inMacroMode()) return false; InsetMathUnknown * p = activeMacro(); p->finalize(); MathData selection(buffer()); asArray(p->selection(), selection); docstring const s = p->name(); --pos(); cell().erase(pos()); // do nothing if the macro name is empty if (s == "\\" || cancel) return false; // trigger updates of macros, at least, if no full // updates take place anyway screenUpdateFlags(Update::Force); docstring const name = s.substr(1); InsetMathNest * const in = inset().asInsetMath()->asNestInset(); if (in && in->interpretString(*this, s)) return true; bool const user_macro = buffer()->getMacro(name, *this, false); MathAtom atom = user_macro ? MathAtom(new InsetMathMacro(buffer(), name)) : createInsetMath(name, buffer()); // try to put argument into macro, if we just inserted a macro bool macroArg = false; InsetMathMacro * atomAsMacro = atom.nucleus()->asMacro(); if (atomAsMacro) { // macros here are still unfolded (in init mode in fact). So // we have to resolve the macro here manually and check its arity // to put the selection behind it if arity > 0. MacroData const * data = buffer()->getMacro(atomAsMacro->name()); if (!selection.empty() && data && data->numargs() - data->optionals() > 0) { macroArg = true; atomAsMacro->setDisplayMode(InsetMathMacro::DISPLAY_INTERACTIVE_INIT, 1); } else // non-greedy case. Do not touch the arguments behind atomAsMacro->setDisplayMode(InsetMathMacro::DISPLAY_INTERACTIVE_INIT, 0); } // insert remembered selection into first argument of a non-macro else if (atom.nucleus()->nargs() > 0) atom.nucleus()->cell(0).append(selection); MathWordList const & words = mathedWordList(); MathWordList::const_iterator it = words.find(name); bool keep_mathmode = user_macro || (it != words.end() && (it->second.inset == "font" || it->second.inset == "oldfont" || it->second.inset == "mbox")); bool ert_macro = !user_macro && it == words.end() && atomAsMacro; if (in && in->currentMode() == Inset::TEXT_MODE && atom.nucleus()->currentMode() == Inset::MATH_MODE && name != from_ascii("ensuremath") && !ert_macro) { MathAtom at(new InsetMathEnsureMath(buffer())); at.nucleus()->cell(0).push_back(atom); niceInsert(at); posForward(); } else if (in && in->currentMode() == Inset::MATH_MODE && atom.nucleus()->currentMode() == Inset::TEXT_MODE && !keep_mathmode) { MathAtom at = createInsetMath("text", buffer()); at.nucleus()->cell(0).push_back(atom); niceInsert(at); posForward(); } else plainInsert(atom); // finally put the macro argument behind, if needed if (macroArg) { if (selection.size() > 1 || selection[0]->asScriptInset()) plainInsert(MathAtom(new InsetMathBrace(selection))); else insert(selection); } return true; } bool Cursor::inMacroMode() const { if (!inMathed()) return false; if (pos() == 0 || cell().empty()) return false; InsetMathUnknown const * p = prevAtom()->asUnknownInset(); return p && !p->final(); } InsetMathUnknown * Cursor::activeMacro() { return inMacroMode() ? prevAtom().nucleus()->asUnknownInset() : 0; } InsetMathUnknown const * Cursor::activeMacro() const { return inMacroMode() ? prevAtom().nucleus()->asUnknownInset() : 0; } docstring Cursor::macroName() { return inMacroMode() ? activeMacro()->name() : docstring(); } void Cursor::pullArg() { // FIXME: Look here MathData ar = cell(); if (popBackward() && inMathed()) { plainErase(); cell().insert(pos(), ar); resetAnchor(); } else { //formula()->mutateToText(); } } void Cursor::normalize() { if (idx() > lastidx()) { lyxerr << "this should not really happen - 1: " << idx() << ' ' << nargs() << " in: " << &inset() << endl; idx() = lastidx(); } if (pos() > lastpos()) { lyxerr << "this should not really happen - 2: " << pos() << ' ' << lastpos() << " in idx: " << idx() << " in atom: '"; odocstringstream os; otexrowstream ots(os); WriteStream wi(ots, false, true, WriteStream::wsDefault); inset().asInsetMath()->write(wi); lyxerr << to_utf8(os.str()) << endl; pos() = lastpos(); } } bool Cursor::upDownInMath(bool up) { // Be warned: The 'logic' implemented in this function is highly // fragile. A distance of one pixel or a '<' vs '<=' _really // matters. So fiddle around with it only if you think you know // what you are doing! int xo = 0; int yo = 0; getPos(xo, yo); xo = beforeDispatchPosX_; // check if we had something else in mind, if not, this is the future // target if (x_target_ == -1) setTargetX(xo); else if (inset().asInsetText() && xo - textTargetOffset() != x_target()) { // In text mode inside the line (not left or right) possibly set a new target_x, // but only if we are somewhere else than the previous target-offset. // We want to keep the x-target on subsequent up/down movements // that cross beyond the end of short lines. Thus a special // handling when the cursor is at the end of line: Use the new // x-target only if the old one was before the end of line // or the old one was after the beginning of the line bool inRTL = innerParagraph().isRTL(bv().buffer().params()); bool left; bool right; if (inRTL) { left = pos() == textRow().endpos(); right = pos() == textRow().pos(); } else { left = pos() == textRow().pos(); right = pos() == textRow().endpos(); } if ((!left && !right) || (left && !right && xo < x_target_) || (!left && right && x_target_ < xo)) setTargetX(xo); else xo = targetX(); } else xo = targetX(); // try neigbouring script insets Cursor old = *this; if (inMathed() && !selection()) { // try left if (pos() != 0) { InsetMathScript const * p = prevAtom()->asScriptInset(); if (p && p->has(up)) { --pos(); push(*const_cast(p)); idx() = p->idxOfScript(up); pos() = lastpos(); // we went in the right direction? Otherwise don't jump into the script int x; int y; getPos(x, y); int oy = beforeDispatchPosY_; if ((!up && y <= oy) || (up && y >= oy)) operator=(old); else return true; } } // try right if (pos() != lastpos()) { InsetMathScript const * p = nextAtom()->asScriptInset(); if (p && p->has(up)) { push(*const_cast(p)); idx() = p->idxOfScript(up); pos() = 0; // we went in the right direction? Otherwise don't jump into the script int x; int y; getPos(x, y); int oy = beforeDispatchPosY_; if ((!up && y <= oy) || (up && y >= oy)) operator=(old); else return true; } } } // try to find an inset that knows better then we, if (inset().idxUpDown(*this, up)) { //lyxerr << "idxUpDown triggered" << endl; // try to find best position within this inset if (!selection()) setCursor(bruteFind(*this, xo, yo)); return true; } // any improvement going just out of inset? if (popBackward() && inMathed()) { //lyxerr << "updown: popBackward succeeded" << endl; int xnew; int ynew; int yold = beforeDispatchPosY_; getPos(xnew, ynew); if (up ? ynew < yold : ynew > yold) return true; } // no success, we are probably at the document top or bottom operator=(old); return false; } bool Cursor::mathForward(bool word) { LASSERT(inMathed(), return false); if (pos() < lastpos()) { if (word) { // word: skip a group of insets of the form X*(B*|R*|P*) (greedy // match) where X is any math class, B is mathbin, R is mathrel, and // P is mathpunct. Make sure that the following remains true: // mathForward(true); mathBackward(true); mathForward(true) // is the same as mathForward(true) and // mathBackward(true); mathForward(true); mathBackward(true) // is the same as mathBackward(true). MathClass mc = nextMath().mathClass(); do posForward(); while (pos() < lastpos() && mc == nextMath().mathClass()); if (pos() < lastpos() && ((mc = nextMath().mathClass()) == MC_BIN || mc == MC_REL || mc == MC_PUNCT)) do posForward(); while (pos() < lastpos() && mc == nextMath().mathClass()); } else if (openable(nextAtom())) { // single step: try to enter the next inset pushBackward(nextMath()); inset().idxFirst(*this); } else posForward(); return true; } if (inset().idxForward(*this)) return true; // try to pop forwards --- but don't pop out of math! leave that to // the FINISH lfuns int s = depth() - 2; if (s >= 0 && operator[](s).inset().asInsetMath()) return popForward(); return false; } bool Cursor::mathBackward(bool word) { LASSERT(inMathed(), return false); if (pos() > 0) { if (word) { // word: skip a group of insets. See the comment in mathForward. MathClass mc = prevMath().mathClass(); do posBackward(); while (pos() > 0 && mc == prevMath().mathClass()); if (pos() > 0 && (mc == MC_BIN || mc == MC_REL || mc == MC_PUNCT)) { mc = prevMath().mathClass(); do posBackward(); while (pos() > 0 && mc == prevMath().mathClass()); } } else if (openable(prevAtom())) { // single step: try to enter the preceding inset posBackward(); push(nextMath()); inset().idxLast(*this); } else posBackward(); return true; } if (inset().idxBackward(*this)) return true; // try to pop backwards --- but don't pop out of math! leave that to // the FINISH lfuns int s = depth() - 2; if (s >= 0 && operator[](s).inset().asInsetMath()) return popBackward(); return false; } bool Cursor::upDownInText(bool up, bool & updateNeeded) { LASSERT(text(), return false); // where are we? int xo = 0; int yo = 0; getPos(xo, yo); xo = beforeDispatchPosX_; // update the targetX - this is here before the "return false" // to set a new target which can be used by InsetTexts above // if we cannot move up/down inside this inset anymore if (x_target_ == -1) setTargetX(xo); else if (xo - textTargetOffset() != x_target() && depth() == beforeDispatchCursor_.depth()) { // In text mode inside the line (not left or right) // possibly set a new target_x, but only if we are // somewhere else than the previous target-offset. // We want to keep the x-target on subsequent up/down // movements that cross beyond the end of short lines. // Thus a special handling when the cursor is at the // end of line: Use the new x-target only if the old // one was before the end of line or the old one was // after the beginning of the line bool inRTL = innerParagraph().isRTL(bv().buffer().params()); bool left; bool right; if (inRTL) { left = pos() == textRow().endpos(); right = pos() == textRow().pos(); } else { left = pos() == textRow().pos(); right = pos() == textRow().endpos(); } if ((!left && !right) || (left && !right && xo < x_target_) || (!left && right && x_target_ < xo)) setTargetX(xo); else xo = targetX(); } else xo = targetX(); // first get the current line TextMetrics & tm = bv_->textMetrics(text()); ParagraphMetrics const & pm = tm.parMetrics(pit()); int row; if (pos() && boundary()) row = pm.pos2row(pos() - 1); else row = pm.pos2row(pos()); if (atFirstOrLastRow(up)) { // Is there a place for the cursor to go ? If yes, we // can execute the DEPM, otherwise we should keep the // paragraph to host the cursor. Cursor dummy = *this; bool valid_destination = false; for(; dummy.depth(); dummy.pop()) if (!dummy.atFirstOrLastRow(up)) { valid_destination = true; break; } // will a next dispatch follow and if there is a new // dispatch will it move the cursor out ? if (depth() > 1 && valid_destination) { // The cursor hasn't changed yet. This happens when // you e.g. move out of an inset. And to give the // DEPM the possibility of doing something we must // provide it with two different cursors. (Lgb, vfr) dummy = *this; dummy.pos() = dummy.pos() == 0 ? dummy.lastpos() : 0; dummy.pit() = dummy.pit() == 0 ? dummy.lastpit() : 0; updateNeeded |= bv().checkDepm(dummy, *this); updateTextTargetOffset(); if (updateNeeded) forceBufferUpdate(); } return false; } // with and without selection are handled differently if (!selection()) { int yo1 = bv().getPos(*this).y_; Cursor old = *this; // To next/previous row // FIXME: the y position is often guessed wrongly across styles and // insets, which leads to weird behaviour. if (up) tm.editXY(*this, xo, yo1 - textRow().ascent() - 1); else tm.editXY(*this, xo, yo1 + textRow().descent() + 1); x_target_ = old.x_target_; clearSelection(); // This happens when you move out of an inset. // And to give the DEPM the possibility of doing // something we must provide it with two different // cursors. (Lgb) Cursor dummy = *this; if (dummy == old) ++dummy.pos(); if (bv().checkDepm(dummy, old)) { updateNeeded = true; // Make sure that cur gets back whatever happened to dummy (Lgb) operator=(dummy); } if (inTexted() && pos() && paragraph().isEnvSeparator(pos() - 1)) posBackward(); } else { // if there is a selection, we stay out of any inset, // and just jump to the right position: Cursor old = *this; int next_row = row; if (up) { if (row > 0) { --next_row; } else if (pit() > 0) { --pit(); TextMetrics & tm2 = bv_->textMetrics(text()); if (!tm2.contains(pit())) tm2.newParMetricsUp(); ParagraphMetrics const & pmcur = tm2.parMetrics(pit()); next_row = pmcur.rows().size() - 1; } } else { if (row + 1 < int(pm.rows().size())) { ++next_row; } else if (pit() + 1 < int(text()->paragraphs().size())) { ++pit(); TextMetrics & tm2 = bv_->textMetrics(text()); if (!tm2.contains(pit())) tm2.newParMetricsDown(); next_row = 0; } } Row const & real_next_row = tm.parMetrics(pit()).rows()[next_row]; bool bound = false; top().pos() = tm.getPosNearX(real_next_row, xo, bound); boundary(bound); // When selection==false, this is done by TextMetrics::editXY setCurrentFont(); updateNeeded |= bv().checkDepm(*this, old); } if (updateNeeded) forceBufferUpdate(); updateTextTargetOffset(); return true; } void Cursor::handleFont(string const & font) { LYXERR(Debug::DEBUG, font); docstring safe; if (selection()) { macroModeClose(); safe = cap::grabAndEraseSelection(*this); } recordUndoInset(); if (lastpos() != 0) { // something left in the cell if (pos() == 0) { // cursor in first position popBackward(); } else if (pos() == lastpos()) { // cursor in last position popForward(); } else { // cursor in between. split cell MathData::iterator bt = cell().begin(); MathAtom at = createInsetMath(from_utf8(font), buffer()); at.nucleus()->cell(0) = MathData(buffer(), bt, bt + pos()); cell().erase(bt, bt + pos()); popBackward(); plainInsert(at); } } else { // nothing left in the cell popBackward(); plainErase(); resetAnchor(); } insert(safe); } void Cursor::undispatched() const { disp_.dispatched(false); } void Cursor::dispatched() const { disp_.dispatched(true); } void Cursor::screenUpdateFlags(Update::flags f) const { disp_.screenUpdate(f); } void Cursor::forceBufferUpdate() const { disp_.forceBufferUpdate(); } void Cursor::clearBufferUpdate() const { disp_.clearBufferUpdate(); } bool Cursor::needBufferUpdate() const { return disp_.needBufferUpdate(); } void Cursor::noScreenUpdate() const { disp_.screenUpdate(Update::None); } Font Cursor::getFont() const { // The logic here should more or less match to the // Cursor::setCurrentFont logic, i.e. the cursor height should // give a hint what will happen if a character is entered. // FIXME: this is not the case, what about removing this method ? (see #10478). // HACK. far from being perfect... CursorSlice const & sl = innerTextSlice(); Text const & text = *sl.text(); Paragraph const & par = text.getPar(sl.pit()); // on boundary, so we are really at the character before pos_type pos = sl.pos(); if (pos > 0 && boundary()) --pos; // on space? Take the font before (only for RTL boundary stay) if (pos > 0) { TextMetrics const & tm = bv().textMetrics(&text); if (pos == sl.lastpos() || (par.isSeparator(pos) && !tm.isRTLBoundary(sl.pit(), pos))) --pos; } // get font at the position Font font = par.getFont(buffer()->params(), pos, text.outerFont(sl.pit())); return font; } void Cursor::sanitize() { setBuffer(&bv_->buffer()); CursorData::sanitize(); } bool notifyCursorLeavesOrEnters(Cursor const & old, Cursor & cur) { // find inset in common size_type i; for (i = 0; i < old.depth() && i < cur.depth(); ++i) { if (&old[i].inset() != &cur[i].inset()) break; } // update words if we just moved to another paragraph if (i == old.depth() && i == cur.depth() && !cur.buffer()->isClean() && cur.inTexted() && old.inTexted() && cur.pit() != old.pit()) { old.paragraph().updateWords(); } // notify everything on top of the common part in old cursor, // but stop if the inset claims the cursor to be invalid now for (size_type j = i; j < old.depth(); ++j) { Cursor inset_pos = old; inset_pos.cutOff(j); if (old[j].inset().notifyCursorLeaves(inset_pos, cur)) return true; } // notify everything on top of the common part in new cursor, // but stop if the inset claims the cursor to be invalid now for (; i < cur.depth(); ++i) { if (cur[i].inset().notifyCursorEnters(cur)) return true; } return false; } void Cursor::setCurrentFont() { CursorSlice const & cs = innerTextSlice(); Paragraph const & par = cs.paragraph(); pos_type cpit = cs.pit(); pos_type cpos = cs.pos(); Text const & ctext = *cs.text(); TextMetrics const & tm = bv().textMetrics(&ctext); // are we behind previous char in fact? -> go to that char if (cpos > 0 && boundary()) --cpos; // find position to take the font from if (cpos != 0) { // paragraph end? -> font of last char if (cpos == lastpos()) --cpos; // on space? -> look at the words in front of space else if (cpos > 0 && par.isSeparator(cpos)) { // abc| def -> font of c // abc |[WERBEH], i.e. boundary==true -> font of c // abc [WERBEH]| def, font of the space if (!tm.isRTLBoundary(cpit, cpos)) --cpos; } } // get font BufferParams const & bufparams = buffer()->params(); current_font = par.getFontSettings(bufparams, cpos); real_current_font = tm.displayFont(cpit, cpos); // special case for paragraph end if (cs.pos() == lastpos() && tm.isRTLBoundary(cpit, cs.pos()) && !boundary()) { Language const * lang = par.getParLanguage(bufparams); current_font.setLanguage(lang); current_font.fontInfo().setNumber(FONT_OFF); real_current_font.setLanguage(lang); real_current_font.fontInfo().setNumber(FONT_OFF); } } void Cursor::checkBufferStructure() { Buffer const * master = buffer()->masterBuffer(); master->tocBackend().updateItem(*this); if (master != buffer() && !master->hasGuiDelegate()) // In case the master has no gui associated with it, // the TocItem is not updated (part of bug 5699). buffer()->tocBackend().updateItem(*this); // If the last tracked change of the paragraph has just been // deleted, then we need to recompute the buffer flag // tracked_changes_present_. if (inTexted() && paragraph().isChangeUpdateRequired()) disp_.forceChangesUpdate(); } void Cursor::moveToClosestEdge(int const x, bool const edit) { if (Inset const * inset = nextInset()) { // stay in front of insets for which we want to open the dialog // (e.g. InsetMathSpace). if (edit && (inset->hasSettings() || !inset->contextMenuName().empty())) return; CoordCache::Insets const & insetCache = bv().coordCache().getInsets(); if (!insetCache.has(inset)) return; int const wid = insetCache.dim(inset).wid; Point p = insetCache.xy(inset); if (x > p.x_ + (wid + 1) / 2) posForward(); } } } // namespace lyx