mirror of
https://git.lyx.org/repos/lyx.git
synced 2024-12-24 21:55:29 +00:00
2392e19c66
is changed * src/cursor.C: remove unused 'using std::swap' * src/BufferView.C: ditto * src/CutAndPaste.[Ch] (switchBetweenClasses): replace ParagraphList argument with InsetText argument. This avoids an unnecessary swap in lyxfunc.C. * src/CutAndPaste.C (pasteSelectionHelper): Adjust to the changes above (pasteSelectionHelper): Use ParagraphList::swap instead of std::swap. This fixes the crash. * src/lyxfunc.C (LyXFunc::dispatch): Adjust to switchBetweenClasses changes git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@13895 a592a061-630c-0410-9148-cb99ea01b6c8
1279 lines
26 KiB
C
1279 lines
26 KiB
C
/**
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* \file cursor.C
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* This file is part of LyX, the document processor.
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* Licence details can be found in the file COPYING.
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*
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* \author Alejandro Aguilar Sierra
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* \author Alfredo Braunstein
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* \author André Pönitz
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*
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* Full author contact details are available in file CREDITS.
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*/
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#include <config.h>
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#include "BufferView.h"
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#include "buffer.h"
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#include "cursor.h"
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#include "coordcache.h"
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#include "CutAndPaste.h"
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#include "debug.h"
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#include "dispatchresult.h"
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#include "encoding.h"
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#include "funcrequest.h"
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#include "language.h"
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#include "lfuns.h"
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#include "lyxfont.h"
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#include "lyxfunc.h" // only for setMessage()
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#include "lyxrc.h"
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#include "lyxrow.h"
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#include "lyxtext.h"
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#include "paragraph.h"
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#include "paragraph_funcs.h"
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#include "pariterator.h"
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#include "insets/insettabular.h"
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#include "insets/insettext.h"
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#include "mathed/math_data.h"
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#include "mathed/math_inset.h"
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#include "mathed/math_scriptinset.h"
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#include "mathed/math_macrotable.h"
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#include "mathed/math_parser.h"
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#include "support/limited_stack.h"
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#include "frontends/LyXView.h"
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#include "frontends/font_metrics.h"
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#include <boost/assert.hpp>
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#include <boost/bind.hpp>
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#include <boost/current_function.hpp>
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#include <sstream>
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#include <limits>
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using lyx::char_type;
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using lyx::pit_type;
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using std::string;
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using std::vector;
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using std::endl;
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#ifndef CXX_GLOBAL_CSTD
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using std::isalpha;
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#endif
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using std::min;
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namespace {
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bool
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positionable(DocIterator const & cursor, DocIterator const & anchor)
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{
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// avoid deeper nested insets when selecting
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if (cursor.depth() > anchor.depth())
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return false;
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// anchor might be deeper, should have same path then
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for (size_t i = 0; i < cursor.depth(); ++i)
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if (&cursor[i].inset() != &anchor[i].inset())
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return false;
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// position should be ok.
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return true;
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}
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// Find position closest to (x, y) in cell given by iter.
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// Used only in mathed
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DocIterator bruteFind2(LCursor const & c, int x, int y)
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{
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double best_dist = std::numeric_limits<double>::max();
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DocIterator result;
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DocIterator it = c;
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it.top().pos() = 0;
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DocIterator et = c;
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et.top().pos() = et.top().asMathInset()->cell(et.top().idx()).size();
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for (size_t i = 0; ; ++i) {
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int xo;
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int yo;
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InsetBase const * inset = &it.inset();
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Point o = theCoords.getInsets().xy(inset);
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inset->cursorPos(it.top(), c.boundary(), xo, yo);
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// Convert to absolute
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xo += o.x_;
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yo += o.y_;
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double d = (x - xo) * (x - xo) + (y - yo) * (y - yo);
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// '<=' in order to take the last possible position
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// this is important for clicking behind \sum in e.g. '\sum_i a'
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lyxerr[Debug::DEBUG] << "i: " << i << " d: " << d
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<< " best: " << best_dist << endl;
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if (d <= best_dist) {
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best_dist = d;
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result = it;
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}
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if (it == et)
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break;
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it.forwardPos();
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}
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return result;
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}
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/// moves position closest to (x, y) in given box
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bool bruteFind(LCursor & cursor,
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int x, int y, int xlow, int xhigh, int ylow, int yhigh)
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{
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BOOST_ASSERT(!cursor.empty());
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InsetBase & inset = cursor[0].inset();
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CoordCache::InnerParPosCache const & cache = theCoords.getParPos().find(cursor.bottom().text())->second;
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// Get an iterator on the first paragraph in the cache
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DocIterator it(inset);
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it.push_back(CursorSlice(inset));
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it.pit() = cache.begin()->first;
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// Get an iterator after the last paragraph in the cache
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DocIterator et(inset);
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et.push_back(CursorSlice(inset));
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et.pit() = boost::prior(cache.end())->first;
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if (et.pit() >= et.lastpit())
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et = doc_iterator_end(inset);
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else
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++et.pit();
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double best_dist = std::numeric_limits<double>::max();;
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DocIterator best_cursor = et;
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for ( ; it != et; it.forwardPos(true)) {
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// avoid invalid nesting when selecting
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if (!cursor.selection() || positionable(it, cursor.anchor_)) {
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Point p = bv_funcs::getPos(it, false);
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int xo = p.x_;
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int yo = p.y_;
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if (xlow <= xo && xo <= xhigh && ylow <= yo && yo <= yhigh) {
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double const dx = xo - x;
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double const dy = yo - y;
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double const d = dx * dx + dy * dy;
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// '<=' in order to take the last possible position
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// this is important for clicking behind \sum in e.g. '\sum_i a'
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if (d <= best_dist) {
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// lyxerr << "*" << endl;
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best_dist = d;
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best_cursor = it;
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}
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}
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}
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}
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if (best_cursor != et) {
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cursor.setCursor(best_cursor);
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return true;
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}
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return false;
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}
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/// moves position closest to (x, y) in given box
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bool bruteFind3(LCursor & cur, int x, int y, bool up)
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{
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BufferView & bv = cur.bv();
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int ylow = up ? 0 : y + 1;
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int yhigh = up ? y - 1 : bv.workHeight();
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int xlow = 0;
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int xhigh = bv.workWidth();
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// FIXME: bit more work needed to get 'from' and 'to' right.
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pit_type from = cur.bottom().pit();
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//pit_type to = cur.bottom().pit();
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//lyxerr << "Pit start: " << from << endl;
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//lyxerr << "bruteFind3: x: " << x << " y: " << y
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// << " xlow: " << xlow << " xhigh: " << xhigh
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// << " ylow: " << ylow << " yhigh: " << yhigh
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// << endl;
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InsetBase & inset = bv.buffer()->inset();
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DocIterator it = doc_iterator_begin(inset);
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it.pit() = from;
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DocIterator et = doc_iterator_end(inset);
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double best_dist = std::numeric_limits<double>::max();
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DocIterator best_cursor = et;
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for ( ; it != et; it.forwardPos()) {
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// avoid invalid nesting when selecting
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if (bv_funcs::status(&bv, it) == bv_funcs::CUR_INSIDE
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&& (!cur.selection() || positionable(it, cur.anchor_))) {
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Point p = bv_funcs::getPos(it, false);
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int xo = p.x_;
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int yo = p.y_;
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if (xlow <= xo && xo <= xhigh && ylow <= yo && yo <= yhigh) {
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double const dx = xo - x;
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double const dy = yo - y;
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double const d = dx * dx + dy * dy;
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//lyxerr << "itx: " << xo << " ity: " << yo << " d: " << d
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// << " dx: " << dx << " dy: " << dy
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// << " idx: " << it.idx() << " pos: " << it.pos()
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// << " it:\n" << it
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// << endl;
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// '<=' in order to take the last possible position
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// this is important for clicking behind \sum in e.g. '\sum_i a'
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if (d <= best_dist) {
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//lyxerr << "*" << endl;
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best_dist = d;
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best_cursor = it;
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}
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}
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}
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}
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//lyxerr << "best_dist: " << best_dist << " cur:\n" << best_cursor << endl;
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if (best_cursor == et)
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return false;
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cur.setCursor(best_cursor);
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return true;
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}
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} // namespace anon
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// be careful: this is called from the bv's constructor, too, so
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// bv functions are not yet available!
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LCursor::LCursor(BufferView & bv)
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: DocIterator(), bv_(&bv), anchor_(), x_target_(-1),
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selection_(false), mark_(false), logicalpos_(false)
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{}
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void LCursor::reset(InsetBase & inset)
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{
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clear();
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push_back(CursorSlice(inset));
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anchor_ = DocIterator(inset);
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clearTargetX();
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selection_ = false;
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mark_ = false;
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}
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// this (intentionally) does neither touch anchor nor selection status
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void LCursor::setCursor(DocIterator const & cur)
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{
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DocIterator::operator=(cur);
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}
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void LCursor::dispatch(FuncRequest const & cmd0)
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{
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lyxerr[Debug::DEBUG] << BOOST_CURRENT_FUNCTION
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<< " cmd: " << cmd0 << '\n'
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<< *this << endl;
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if (empty())
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return;
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fixIfBroken();
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FuncRequest cmd = cmd0;
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LCursor safe = *this;
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for (; depth(); pop()) {
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lyxerr[Debug::DEBUG] << "LCursor::dispatch: cmd: "
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<< cmd0 << endl << *this << endl;
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BOOST_ASSERT(pos() <= lastpos());
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BOOST_ASSERT(idx() <= lastidx());
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BOOST_ASSERT(pit() <= lastpit());
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// The common case is 'LFUN handled, need update', so make the
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// LFUN handler's life easier by assuming this as default value.
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// The handler can reset the update and val flags if necessary.
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disp_.update(true);
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disp_.dispatched(true);
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inset().dispatch(*this, cmd);
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if (disp_.dispatched())
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break;
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}
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// it completely to get a 'bomb early' behaviour in case this
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// object will be used again.
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if (!disp_.dispatched()) {
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lyxerr[Debug::DEBUG] << "RESTORING OLD CURSOR!" << endl;
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operator=(safe);
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disp_.dispatched(false);
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}
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}
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DispatchResult LCursor::result() const
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{
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return disp_;
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}
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BufferView & LCursor::bv() const
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{
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BOOST_ASSERT(bv_);
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return *bv_;
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}
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Buffer & LCursor::buffer() const
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{
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BOOST_ASSERT(bv_);
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BOOST_ASSERT(bv_->buffer());
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return *bv_->buffer();
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}
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void LCursor::pop()
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{
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BOOST_ASSERT(depth() >= 1);
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pop_back();
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}
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void LCursor::push(InsetBase & p)
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{
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push_back(CursorSlice(p));
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}
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void LCursor::pushLeft(InsetBase & p)
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{
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BOOST_ASSERT(!empty());
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//lyxerr << "Entering inset " << t << " left" << endl;
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push(p);
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p.idxFirst(*this);
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}
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bool LCursor::popLeft()
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{
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BOOST_ASSERT(!empty());
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//lyxerr << "Leaving inset to the left" << endl;
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inset().notifyCursorLeaves(*this);
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if (depth() == 1)
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return false;
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pop();
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return true;
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}
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bool LCursor::popRight()
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{
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BOOST_ASSERT(!empty());
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//lyxerr << "Leaving inset to the right" << endl;
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inset().notifyCursorLeaves(*this);
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if (depth() == 1)
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return false;
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pop();
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++pos();
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return true;
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}
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int LCursor::currentMode()
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{
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BOOST_ASSERT(!empty());
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for (int i = depth() - 1; i >= 0; --i) {
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int res = operator[](i).inset().currentMode();
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if (res != InsetBase::UNDECIDED_MODE)
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return res;
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}
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return InsetBase::TEXT_MODE;
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}
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void LCursor::getPos(int & x, int & y) const
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{
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Point p = bv_funcs::getPos(*this, boundary());
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x = p.x_;
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y = p.y_;
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}
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void LCursor::resetAnchor()
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{
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anchor_ = *this;
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}
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bool LCursor::posLeft()
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{
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if (pos() == 0)
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return false;
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--pos();
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return true;
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}
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bool LCursor::posRight()
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{
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if (pos() == lastpos())
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return false;
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++pos();
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return true;
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}
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CursorSlice LCursor::anchor() const
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{
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BOOST_ASSERT(anchor_.depth() >= depth());
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CursorSlice normal = anchor_[depth() - 1];
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if (depth() < anchor_.depth() && top() <= normal) {
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// anchor is behind cursor -> move anchor behind the inset
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++normal.pos();
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}
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return normal;
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}
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CursorSlice LCursor::selBegin() const
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{
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if (!selection())
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return top();
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return anchor() < top() ? anchor() : top();
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}
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CursorSlice LCursor::selEnd() const
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{
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if (!selection())
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return top();
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return anchor() > top() ? anchor() : top();
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}
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DocIterator LCursor::selectionBegin() const
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{
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if (!selection())
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return *this;
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DocIterator di = (anchor() < top() ? anchor_ : *this);
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di.resize(depth());
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return di;
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}
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DocIterator LCursor::selectionEnd() const
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{
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if (!selection())
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return *this;
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DocIterator di = (anchor() > top() ? anchor_ : *this);
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if (di.depth() > depth()) {
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di.resize(depth());
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++di.pos();
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}
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return di;
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}
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void LCursor::setSelection()
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{
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selection() = true;
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// A selection with no contents is not a selection
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#ifdef WITH_WARNINGS
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#warning doesnt look ok
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#endif
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if (pit() == anchor().pit() && pos() == anchor().pos())
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selection() = false;
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}
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void LCursor::setSelection(DocIterator const & where, size_t n)
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{
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setCursor(where);
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selection() = true;
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anchor_ = where;
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pos() += n;
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}
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void LCursor::clearSelection()
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{
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selection() = false;
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mark() = false;
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resetAnchor();
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bv().unsetXSel();
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}
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int & LCursor::x_target()
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{
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return x_target_;
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}
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int LCursor::x_target() const
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{
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return x_target_;
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}
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void LCursor::clearTargetX()
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{
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x_target_ = -1;
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}
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void LCursor::info(std::ostream & os) const
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{
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for (int i = 1, n = depth(); i < n; ++i) {
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operator[](i).inset().infoize(os);
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os << " ";
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}
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if (pos() != 0)
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prevInset()->infoize2(os);
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// overwite old message
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os << " ";
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}
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void LCursor::selHandle(bool sel)
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{
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//lyxerr << "LCursor::selHandle" << endl;
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if (sel == selection())
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return;
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resetAnchor();
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selection() = sel;
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}
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std::ostream & operator<<(std::ostream & os, LCursor const & cur)
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{
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os << "\n cursor: | anchor:\n";
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for (size_t i = 0, n = cur.depth(); i != n; ++i) {
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os << " " << cur[i] << " | ";
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if (i < cur.anchor_.depth())
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os << cur.anchor_[i];
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else
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os << "-------------------------------";
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os << "\n";
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}
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for (size_t i = cur.depth(), n = cur.anchor_.depth(); i < n; ++i) {
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os << "------------------------------- | " << cur.anchor_[i] << "\n";
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}
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os << " selection: " << cur.selection_
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<< " x_target: " << cur.x_target_ << endl;
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return os;
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}
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///////////////////////////////////////////////////////////////////
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//
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// The part below is the non-integrated rest of the original math
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// cursor. This should be either generalized for texted or moved
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// back to mathed (in most cases to MathNestInset).
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//
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///////////////////////////////////////////////////////////////////
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#include "mathed/math_charinset.h"
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#include "mathed/math_factory.h"
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#include "mathed/math_gridinset.h"
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#include "mathed/math_macroarg.h"
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#include "mathed/math_mathmlstream.h"
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#include "mathed/math_scriptinset.h"
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#include "mathed/math_support.h"
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#include "mathed/math_unknowninset.h"
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//#define FILEDEBUG 1
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bool LCursor::isInside(InsetBase const * p)
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{
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for (size_t i = 0; i != depth(); ++i)
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if (&operator[](i).inset() == p)
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return true;
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return false;
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}
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void LCursor::leaveInset(InsetBase const & inset)
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{
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for (size_t i = 0; i != depth(); ++i) {
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if (&operator[](i).inset() == &inset) {
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resize(i);
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return;
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}
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}
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}
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bool LCursor::openable(MathAtom const & t) const
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{
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if (!t->isActive())
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return false;
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if (t->lock())
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return false;
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if (!selection())
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return true;
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// we can't move into anything new during selection
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if (depth() >= anchor_.depth())
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return false;
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if (!ptr_cmp(t.nucleus(), &anchor_[depth()].inset()))
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return false;
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return true;
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}
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void LCursor::setScreenPos(int x, int y)
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{
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x_target() = x;
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bruteFind(*this, x, y, 0, bv().workWidth(), 0, bv().workHeight());
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}
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void LCursor::plainErase()
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{
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cell().erase(pos());
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}
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void LCursor::markInsert()
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{
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insert(char_type(0));
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}
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void LCursor::markErase()
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{
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cell().erase(pos());
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}
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void LCursor::plainInsert(MathAtom const & t)
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{
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cell().insert(pos(), t);
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++pos();
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}
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void LCursor::insert(string const & str)
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{
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for_each(str.begin(), str.end(),
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boost::bind(static_cast<void(LCursor::*)(char_type)>
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(&LCursor::insert), this, _1));
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}
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void LCursor::insert(char_type c)
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{
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//lyxerr << "LCursor::insert char '" << c << "'" << endl;
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BOOST_ASSERT(!empty());
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if (inMathed()) {
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lyx::cap::selClearOrDel(*this);
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insert(new MathCharInset(c));
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} else {
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text()->insertChar(*this, c);
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}
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}
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void LCursor::insert(MathAtom const & t)
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{
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//lyxerr << "LCursor::insert MathAtom '" << t << "'" << endl;
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macroModeClose();
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lyx::cap::selClearOrDel(*this);
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plainInsert(t);
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}
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void LCursor::insert(InsetBase * inset)
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{
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if (inMathed())
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insert(MathAtom(inset));
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else
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text()->insertInset(*this, inset);
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}
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void LCursor::niceInsert(string const & t)
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{
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MathArray ar;
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asArray(t, ar);
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if (ar.size() == 1)
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niceInsert(ar[0]);
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else
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insert(ar);
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}
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void LCursor::niceInsert(MathAtom const & t)
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{
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macroModeClose();
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string const safe = lyx::cap::grabAndEraseSelection(*this);
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plainInsert(t);
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// enter the new inset and move the contents of the selection if possible
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if (t->isActive()) {
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posLeft();
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// be careful here: don't use 'pushLeft(t)' as this we need to
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// push the clone, not the original
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pushLeft(*nextInset());
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// We may not use niceInsert here (recursion)
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MathArray ar;
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asArray(safe, ar);
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insert(ar);
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}
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}
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void LCursor::insert(MathArray const & ar)
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{
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macroModeClose();
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if (selection())
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lyx::cap::eraseSelection(*this);
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cell().insert(pos(), ar);
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pos() += ar.size();
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}
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bool LCursor::backspace()
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{
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autocorrect() = false;
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if (selection()) {
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lyx::cap::selDel(*this);
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return true;
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}
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if (pos() == 0) {
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if (inset().nargs() == 1 && depth() == 1 && lastpos() == 0)
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return false;
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pullArg();
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return true;
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}
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if (inMacroMode()) {
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MathUnknownInset * p = activeMacro();
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if (p->name().size() > 1) {
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p->setName(p->name().substr(0, p->name().size() - 1));
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return true;
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}
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}
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if (pos() != 0 && prevAtom()->nargs() > 0) {
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// let's require two backspaces for 'big stuff' and
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// highlight on the first
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resetAnchor();
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selection() = true;
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--pos();
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} else {
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--pos();
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plainErase();
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}
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return true;
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}
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bool LCursor::erase()
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{
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autocorrect() = false;
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if (inMacroMode())
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return true;
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if (selection()) {
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lyx::cap::selDel(*this);
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return true;
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}
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// delete empty cells if possible
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if (pos() == lastpos() && inset().idxDelete(idx()))
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return true;
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// special behaviour when in last position of cell
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if (pos() == lastpos()) {
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bool one_cell = inset().nargs() == 1;
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if (one_cell && depth() == 1 && lastpos() == 0)
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return false;
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// remove markup
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if (one_cell)
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pullArg();
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else
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inset().idxGlue(idx());
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return true;
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}
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// 'clever' UI hack: only erase large items if previously slected
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if (pos() != lastpos() && nextAtom()->nargs() > 0) {
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resetAnchor();
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selection() = true;
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++pos();
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} else {
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plainErase();
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}
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return true;
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}
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bool LCursor::up()
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{
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macroModeClose();
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DocIterator save = *this;
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if (goUpDown(true))
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return true;
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setCursor(save);
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autocorrect() = false;
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return selection();
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}
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bool LCursor::down()
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{
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macroModeClose();
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DocIterator save = *this;
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if (goUpDown(false))
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return true;
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setCursor(save);
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autocorrect() = false;
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return selection();
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}
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bool LCursor::macroModeClose()
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{
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if (!inMacroMode())
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return false;
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MathUnknownInset * p = activeMacro();
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p->finalize();
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string const s = p->name();
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--pos();
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cell().erase(pos());
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// do nothing if the macro name is empty
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if (s == "\\")
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return false;
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// prevent entering of recursive macros
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// FIXME: this is only a weak attempt... only prevents immediate
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// recursion
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string const name = s.substr(1);
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InsetBase const * macro = innerInsetOfType(InsetBase::MATHMACRO_CODE);
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if (macro && macro->getInsetName() == name)
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lyxerr << "can't enter recursive macro" << endl;
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MathNestInset * const in = inset().asMathInset()->asNestInset();
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if (in && in->interpret(*this, s))
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return true;
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plainInsert(createMathInset(name));
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return true;
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}
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string LCursor::macroName()
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{
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return inMacroMode() ? activeMacro()->name() : string();
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}
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void LCursor::handleNest(MathAtom const & a, int c)
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{
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//lyxerr << "LCursor::handleNest: " << c << endl;
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MathAtom t = a;
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asArray(lyx::cap::grabAndEraseSelection(*this), t.nucleus()->cell(c));
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insert(t);
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posLeft();
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pushLeft(*nextInset());
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}
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int LCursor::targetX() const
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{
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if (x_target() != -1)
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return x_target();
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int x = 0;
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int y = 0;
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getPos(x, y);
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return x;
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}
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void LCursor::setTargetX()
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{
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// For now this is good enough. A better solution would be to
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// avoid this rebreak by setting cursorX only after drawing
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bottom().text()->redoParagraph(bottom().pit());
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int x;
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int y;
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getPos(x, y);
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x_target_ = x;
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}
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bool LCursor::inMacroMode() const
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{
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if (pos() == 0)
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return false;
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MathUnknownInset const * p = prevAtom()->asUnknownInset();
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return p && !p->final();
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}
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MathUnknownInset * LCursor::activeMacro()
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{
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return inMacroMode() ? prevAtom().nucleus()->asUnknownInset() : 0;
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}
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void LCursor::pullArg()
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{
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#ifdef WITH_WARNINGS
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#warning Look here
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#endif
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MathArray ar = cell();
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if (popLeft() && inMathed()) {
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plainErase();
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cell().insert(pos(), ar);
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resetAnchor();
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} else {
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//formula()->mutateToText();
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}
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}
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void LCursor::touch()
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{
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#ifdef WITH_WARNINGS
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#warning look here
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#endif
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#if 0
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DocIterator::const_iterator it = begin();
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DocIterator::const_iterator et = end();
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for ( ; it != et; ++it)
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it->cell().touch();
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#endif
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}
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void LCursor::normalize()
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{
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if (idx() > lastidx()) {
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lyxerr << "this should not really happen - 1: "
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<< idx() << ' ' << nargs()
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<< " in: " << &inset() << endl;
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idx() = lastidx();
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}
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if (pos() > lastpos()) {
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lyxerr << "this should not really happen - 2: "
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<< pos() << ' ' << lastpos() << " in idx: " << idx()
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<< " in atom: '";
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WriteStream wi(lyxerr, false, true);
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inset().asMathInset()->write(wi);
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lyxerr << endl;
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pos() = lastpos();
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}
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}
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bool LCursor::goUpDown(bool up)
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{
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// Be warned: The 'logic' implemented in this function is highly
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// fragile. A distance of one pixel or a '<' vs '<=' _really
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// matters. So fiddle around with it only if you think you know
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// what you are doing!
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int xo = 0;
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int yo = 0;
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getPos(xo, yo);
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// check if we had something else in mind, if not, this is the future goal
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if (x_target() == -1)
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x_target() = xo;
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else
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xo = x_target();
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// try neigbouring script insets
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if (!selection()) {
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// try left
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if (pos() != 0) {
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MathScriptInset const * p = prevAtom()->asScriptInset();
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if (p && p->has(up)) {
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--pos();
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push(*const_cast<MathScriptInset*>(p));
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idx() = p->idxOfScript(up);
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pos() = lastpos();
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return true;
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}
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}
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// try right
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if (pos() != lastpos()) {
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MathScriptInset const * p = nextAtom()->asScriptInset();
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if (p && p->has(up)) {
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push(*const_cast<MathScriptInset*>(p));
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idx() = p->idxOfScript(up);
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pos() = 0;
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return true;
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}
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}
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}
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// FIXME: Switch this on for more robust movement
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#if 0
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return bruteFind3(*this, xo, yo, up);
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#else
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//xarray().boundingBox(xlow, xhigh, ylow, yhigh);
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//if (up)
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// yhigh = yo - 4;
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//else
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// ylow = yo + 4;
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//if (bruteFind(*this, xo, yo, xlow, xhigh, ylow, yhigh)) {
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// lyxerr << "updown: handled by brute find in the same cell" << endl;
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// return true;
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//}
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// try to find an inset that knows better then we
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while (true) {
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//lyxerr << "updown: We are in " << &inset() << " idx: " << idx() << endl;
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// ask inset first
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if (inset().idxUpDown(*this, up)) {
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//lyxerr << "idxUpDown triggered" << endl;
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// try to find best position within this inset
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if (!selection())
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setCursor(bruteFind2(*this, xo, yo));
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return true;
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}
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// no such inset found, just take something "above"
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if (!popLeft()) {
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//lyxerr << "updown: popleft failed (strange case)" << endl;
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int ylow = up ? 0 : yo + 1;
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int yhigh = up ? yo - 1 : bv().workHeight();
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return bruteFind(*this, xo, yo, 0, bv().workWidth(), ylow, yhigh);
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}
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// any improvement so far?
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//lyxerr << "updown: popLeft succeeded" << endl;
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int xnew;
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int ynew;
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getPos(xnew, ynew);
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if (up ? ynew < yo : ynew > yo)
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return true;
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}
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// we should not come here.
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BOOST_ASSERT(false);
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#endif
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}
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void LCursor::handleFont(string const & font)
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{
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lyxerr[Debug::DEBUG] << BOOST_CURRENT_FUNCTION << ": " << font << endl;
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string safe;
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if (selection()) {
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macroModeClose();
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safe = lyx::cap::grabAndEraseSelection(*this);
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}
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if (lastpos() != 0) {
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// something left in the cell
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if (pos() == 0) {
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// cursor in first position
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popLeft();
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} else if (pos() == lastpos()) {
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// cursor in last position
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popRight();
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} else {
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// cursor in between. split cell
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MathArray::iterator bt = cell().begin();
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MathAtom at = createMathInset(font);
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at.nucleus()->cell(0) = MathArray(bt, bt + pos());
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cell().erase(bt, bt + pos());
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popLeft();
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plainInsert(at);
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}
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} else {
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// nothing left in the cell
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pullArg();
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plainErase();
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}
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insert(safe);
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}
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void LCursor::message(string const & msg) const
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{
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bv().owner()->getLyXFunc().setMessage(msg);
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}
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void LCursor::errorMessage(string const & msg) const
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{
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bv().owner()->getLyXFunc().setErrorMessage(msg);
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}
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string LCursor::selectionAsString(bool label) const
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{
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if (!selection())
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return string();
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if (inTexted()) {
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Buffer const & buffer = *bv().buffer();
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ParagraphList const & pars = text()->paragraphs();
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// should be const ...
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pit_type startpit = selBegin().pit();
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pit_type endpit = selEnd().pit();
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size_t const startpos = selBegin().pos();
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size_t const endpos = selEnd().pos();
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if (startpit == endpit)
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return pars[startpit].asString(buffer, startpos, endpos, label);
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// First paragraph in selection
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string result = pars[startpit].
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asString(buffer, startpos, pars[startpit].size(), label) + "\n\n";
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// The paragraphs in between (if any)
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for (pit_type pit = startpit + 1; pit != endpit; ++pit) {
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Paragraph const & par = pars[pit];
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result += par.asString(buffer, 0, par.size(), label) + "\n\n";
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}
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// Last paragraph in selection
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result += pars[endpit].asString(buffer, 0, endpos, label);
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return result;
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}
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|
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if (inMathed())
|
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return lyx::cap::grabSelection(*this);
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|
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return string();
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}
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|
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string LCursor::currentState()
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{
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if (inMathed()) {
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std::ostringstream os;
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info(os);
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return os.str();
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}
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|
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if (inTexted())
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return text()->currentState(*this);
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|
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return string();
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}
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|
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string LCursor::getPossibleLabel()
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{
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return inMathed() ? "eq:" : text()->getPossibleLabel(*this);
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}
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Encoding const * LCursor::getEncoding() const
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|
{
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if (empty())
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return 0;
|
|
if (!bv().buffer())
|
|
return 0;
|
|
int s = 0;
|
|
// go up until first non-0 text is hit
|
|
// (innermost text is 0 in mathed)
|
|
for (s = depth() - 1; s >= 0; --s)
|
|
if (operator[](s).text())
|
|
break;
|
|
CursorSlice const & sl = operator[](s);
|
|
LyXText const & text = *sl.text();
|
|
LyXFont font = text.getPar(sl.pit()).getFont(
|
|
bv().buffer()->params(), sl.pos(), outerFont(sl.pit(), text.paragraphs()));
|
|
return font.language()->encoding();
|
|
}
|
|
|
|
|
|
void LCursor::undispatched()
|
|
{
|
|
disp_.dispatched(false);
|
|
}
|
|
|
|
|
|
void LCursor::dispatched()
|
|
{
|
|
disp_.dispatched(true);
|
|
}
|
|
|
|
|
|
void LCursor::needsUpdate()
|
|
{
|
|
disp_.update(true);
|
|
}
|
|
|
|
|
|
void LCursor::noUpdate()
|
|
{
|
|
disp_.update(false);
|
|
}
|
|
|
|
|
|
LyXFont LCursor::getFont() const
|
|
{
|
|
// HACK. far from being perfect...
|
|
int s = 0;
|
|
// go up until first non-0 text is hit
|
|
// (innermost text is 0 in mathed)
|
|
for (s = depth() - 1; s >= 0; --s)
|
|
if (operator[](s).text())
|
|
break;
|
|
CursorSlice const & sl = operator[](s);
|
|
LyXText const & text = *sl.text();
|
|
LyXFont font = text.getPar(sl.pit()).getFont(
|
|
bv().buffer()->params(),
|
|
sl.pos(),
|
|
outerFont(sl.pit(), text.paragraphs()));
|
|
|
|
return font;
|
|
}
|
|
|
|
|
|
void LCursor::fixIfBroken()
|
|
{
|
|
// find out last good level
|
|
LCursor copy = *this;
|
|
size_t newdepth = depth();
|
|
while (!copy.empty()) {
|
|
if (copy.idx() > copy.lastidx()) {
|
|
lyxerr << "wrong idx " << copy.idx()
|
|
<< ", max is " << copy.lastidx()
|
|
<< " at level " << copy.depth()
|
|
<< ". Trying to correct this." << endl;
|
|
newdepth = copy.depth() - 1;
|
|
}
|
|
else if (copy.pit() > copy.lastpit()) {
|
|
lyxerr << "wrong pit " << copy.pit()
|
|
<< ", max is " << copy.lastpit()
|
|
<< " at level " << copy.depth()
|
|
<< ". Trying to correct this." << endl;
|
|
newdepth = copy.depth() - 1;
|
|
}
|
|
else if (copy.pos() > copy.lastpos()) {
|
|
lyxerr << "wrong pos " << copy.pos()
|
|
<< ", max is " << copy.lastpos()
|
|
<< " at level " << copy.depth()
|
|
<< ". Trying to correct this." << endl;
|
|
newdepth = copy.depth() - 1;
|
|
}
|
|
copy.pop();
|
|
}
|
|
// shrink cursor to a size where everything is valid, possibly
|
|
// leaving insets
|
|
while (depth() > newdepth) {
|
|
pop();
|
|
lyxerr << "correcting cursor to level " << depth() << endl;
|
|
}
|
|
}
|