mirror of
https://git.lyx.org/repos/lyx.git
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621 lines
14 KiB
C++
621 lines
14 KiB
C++
/**
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* \file Row.cpp
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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 Lars Gullik Bjønnes
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* \author John Levon
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* \author André Pönitz
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* \author Jürgen Vigna
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* \author Jean-Marc Lasgouttes
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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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* Metrics for an on-screen text row.
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*/
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#include <config.h>
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#include "Row.h"
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#include "DocIterator.h"
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#include "frontends/FontMetrics.h"
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#include "support/debug.h"
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#include "support/lassert.h"
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#include "support/lstrings.h"
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#include "support/lyxalgo.h"
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#include <ostream>
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using namespace std;
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namespace lyx {
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using support::rtrim;
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using frontend::FontMetrics;
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// Maximum length that a space can be stretched when justifying text
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static double const MAX_SPACE_STRETCH = 1.5; //em
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int Row::Element::countSeparators() const
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{
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if (type != STRING)
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return 0;
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return count(str.begin(), str.end(), ' ');
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}
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int Row::Element::countExpanders() const
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{
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if (type != STRING)
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return 0;
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return theFontMetrics(font).countExpanders(str);
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}
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int Row::Element::expansionAmount() const
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{
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if (type != STRING)
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return 0;
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return countExpanders() * theFontMetrics(font).em();
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}
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void Row::Element::setExtra(double extra_per_em)
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{
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if (type != STRING)
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return;
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extra = extra_per_em * theFontMetrics(font).em();
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}
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double Row::Element::pos2x(pos_type const i) const
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{
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// This can happen with inline completion when clicking on the
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// row after the completion.
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if (i < pos || i > endpos)
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return 0;
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double w = 0;
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//handle first the two bounds of the element
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if (i == endpos && type != VIRTUAL)
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w = isRTL() ? 0 : full_width();
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else if (i == pos || type != STRING)
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w = isRTL() ? full_width() : 0;
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else {
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FontMetrics const & fm = theFontMetrics(font);
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w = fm.pos2x(str, i - pos, isRTL(), extra);
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}
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return w;
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}
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pos_type Row::Element::x2pos(int &x) const
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{
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//lyxerr << "x2pos: x=" << x << " w=" << width() << " " << *this;
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size_t i = 0;
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switch (type) {
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case STRING: {
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FontMetrics const & fm = theFontMetrics(font);
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i = fm.x2pos(str, x, isRTL(), extra);
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break;
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}
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case VIRTUAL:
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// those elements are actually empty (but they have a width)
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i = 0;
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x = isRTL() ? int(full_width()) : 0;
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break;
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case INSET:
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case SPACE:
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// those elements contain only one position. Round to
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// the closest side.
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if (x > (full_width() + 1) / 2) {
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x = int(full_width());
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i = !isRTL();
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} else {
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x = 0;
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i = isRTL();
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}
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}
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//lyxerr << "=> p=" << pos + i << " x=" << x << endl;
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return pos + i;
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}
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bool Row::Element::breakAt(int w, bool force)
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{
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if (type != STRING || dim.wid <= w)
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return false;
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FontMetrics const & fm = theFontMetrics(font);
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int x = w;
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if(fm.breakAt(str, x, isRTL(), force)) {
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dim.wid = x;
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endpos = pos + str.length();
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//lyxerr << "breakAt(" << w << ") Row element Broken at " << x << "(w(str)=" << fm.width(str) << "): e=" << *this << endl;
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return true;
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}
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return false;
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}
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pos_type Row::Element::left_pos() const
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{
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return isRTL() ? endpos : pos;
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}
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pos_type Row::Element::right_pos() const
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{
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return isRTL() ? pos : endpos;
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}
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Row::Row()
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: separator(0), label_hfill(0), left_margin(0), right_margin(0),
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sel_beg(-1), sel_end(-1),
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begin_margin_sel(false), end_margin_sel(false),
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changed_(false), crc_(0),
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pit_(0), pos_(0), end_(0),
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right_boundary_(false), flushed_(false), rtl_(false)
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{}
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void Row::setCrc(size_type crc) const
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{
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changed_ = crc != crc_;
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crc_ = crc;
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}
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bool Row::isMarginSelected(bool left_margin, DocIterator const & beg,
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DocIterator const & end) const
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{
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pos_type const sel_pos = left_margin ? sel_beg : sel_end;
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pos_type const margin_pos = left_margin ? pos_ : end_;
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// Is the chosen margin selected ?
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if (sel_pos == margin_pos) {
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if (beg.pos() == end.pos())
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// This is a special case in which the space between after
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// pos i-1 and before pos i is selected, i.e. the margins
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// (see DocIterator::boundary_).
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return beg.boundary() && !end.boundary();
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else if (end.pos() == margin_pos)
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// If the selection ends around the margin, it is only
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// drawn if the cursor is after the margin.
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return !end.boundary();
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else if (beg.pos() == margin_pos)
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// If the selection begins around the margin, it is
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// only drawn if the cursor is before the margin.
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return beg.boundary();
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else
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return true;
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}
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return false;
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}
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void Row::setSelectionAndMargins(DocIterator const & beg,
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DocIterator const & end) const
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{
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setSelection(beg.pos(), end.pos());
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if (selection()) {
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end_margin_sel = isMarginSelected(false, beg, end);
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begin_margin_sel = isMarginSelected(true, beg, end);
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}
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}
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void Row::setSelection(pos_type beg, pos_type end) const
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{
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if (pos_ >= beg && pos_ <= end)
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sel_beg = pos_;
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else if (beg > pos_ && beg <= end_)
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sel_beg = beg;
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else
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sel_beg = -1;
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if (end_ >= beg && end_ <= end)
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sel_end = end_;
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else if (end < end_ && end >= pos_)
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sel_end = end;
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else
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sel_end = -1;
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}
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bool Row::selection() const
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{
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return sel_beg != -1 && sel_end != -1;
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}
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ostream & operator<<(ostream & os, Row::Element const & e)
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{
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if (e.isRTL())
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os << e.endpos << "<<" << e.pos << " ";
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else
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os << e.pos << ">>" << e.endpos << " ";
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switch (e.type) {
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case Row::STRING:
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os << "STRING: `" << to_utf8(e.str) << "' ("
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<< e.countExpanders() << " expanders.), ";
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break;
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case Row::VIRTUAL:
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os << "VIRTUAL: `" << to_utf8(e.str) << "', ";
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break;
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case Row::INSET:
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os << "INSET: " << to_utf8(e.inset->layoutName()) << ", ";
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break;
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case Row::SPACE:
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os << "SPACE: ";
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break;
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}
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os << "width=" << e.full_width();
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return os;
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}
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ostream & operator<<(ostream & os, Row const & row)
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{
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os << " pos: " << row.pos_ << " end: " << row.end_
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<< " left_margin: " << row.left_margin
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<< " width: " << row.dim_.wid
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<< " right_margin: " << row.right_margin
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<< " ascent: " << row.dim_.asc
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<< " descent: " << row.dim_.des
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<< " separator: " << row.separator
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<< " label_hfill: " << row.label_hfill
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<< " row_boundary: " << row.right_boundary() << "\n";
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double x = row.left_margin;
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Row::Elements::const_iterator it = row.elements_.begin();
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for ( ; it != row.elements_.end() ; ++it) {
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os << "x=" << x << " => " << *it << endl;
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x += it->full_width();
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}
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return os;
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}
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int Row::left_x() const
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{
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double x = left_margin;
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const_iterator const end = elements_.end();
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const_iterator cit = elements_.begin();
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while (cit != end && cit->isVirtual()) {
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x += cit->full_width();
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++cit;
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}
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return int(x + 0.5);
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}
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int Row::right_x() const
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{
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double x = dim_.wid;
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const_iterator const begin = elements_.begin();
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const_iterator cit = elements_.end();
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while (cit != begin) {
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--cit;
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if (cit->isVirtual())
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x -= cit->full_width();
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else
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break;
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}
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return int(x + 0.5);
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}
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int Row::countSeparators() const
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{
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int n = 0;
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const_iterator const end = elements_.end();
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for (const_iterator cit = elements_.begin() ; cit != end ; ++cit)
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n += cit->countSeparators();
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return n;
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}
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bool Row::setExtraWidth(int w)
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{
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if (w < 0)
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// this is not expected to happen (but it does)
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return false;
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// amount of expansion: number of expanders time the em value for each
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// string element
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int exp_amount = 0;
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for (Row::Element const & e : elements_)
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exp_amount += e.expansionAmount();
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if (!exp_amount)
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return false;
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// extra length per expander per em
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double extra_per_em = double(w) / exp_amount;
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if (extra_per_em > MAX_SPACE_STRETCH)
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// do not stretch more than MAX_SPACE_STRETCH em per expander
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return false;
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// add extra length to each element proportionally to its em.
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for (Row::Element & e : elements_)
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if (e.type == Row::STRING)
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e.setExtra(extra_per_em);
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// update row dimension
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dim_.wid += w;
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return true;
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}
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bool Row::sameString(Font const & f, Change const & ch) const
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{
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if (elements_.empty())
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return false;
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Element const & elt = elements_.back();
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return elt.type == STRING && !elt.final
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&& elt.font == f && elt.change == ch;
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}
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void Row::finalizeLast()
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{
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if (elements_.empty())
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return;
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Element & elt = elements_.back();
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if (elt.final)
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return;
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elt.final = true;
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if (elt.type == STRING) {
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dim_.wid -= elt.dim.wid;
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elt.dim.wid = theFontMetrics(elt.font).width(elt.str);
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dim_.wid += elt.dim.wid;
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}
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}
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void Row::add(pos_type const pos, Inset const * ins, Dimension const & dim,
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Font const & f, Change const & ch)
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{
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finalizeLast();
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Element e(INSET, pos, f, ch);
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e.inset = ins;
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e.dim = dim;
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elements_.push_back(e);
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dim_.wid += dim.wid;
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}
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void Row::add(pos_type const pos, char_type const c,
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Font const & f, Change const & ch)
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{
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if (!sameString(f, ch)) {
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finalizeLast();
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Element e(STRING, pos, f, ch);
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elements_.push_back(e);
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}
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if (back().str.length() % 30 == 0) {
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dim_.wid -= back().dim.wid;
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back().str += c;
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back().endpos = pos + 1;
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back().dim.wid = theFontMetrics(back().font).width(back().str);
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dim_.wid += back().dim.wid;
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} else {
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back().str += c;
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back().endpos = pos + 1;
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}
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}
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void Row::addVirtual(pos_type const pos, docstring const & s,
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Font const & f, Change const & ch)
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{
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finalizeLast();
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Element e(VIRTUAL, pos, f, ch);
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e.str = s;
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e.dim.wid = theFontMetrics(f).width(s);
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dim_.wid += e.dim.wid;
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e.endpos = pos;
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elements_.push_back(e);
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finalizeLast();
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}
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void Row::addSpace(pos_type const pos, int const width,
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Font const & f, Change const & ch)
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{
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finalizeLast();
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Element e(SPACE, pos, f, ch);
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e.dim.wid = width;
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elements_.push_back(e);
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dim_.wid += e.dim.wid;
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}
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void Row::pop_back()
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{
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dim_.wid -= elements_.back().dim.wid;
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elements_.pop_back();
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}
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bool Row::shortenIfNeeded(pos_type const keep, int const w, int const next_width)
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{
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if (empty() || width() <= w)
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return false;
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Elements::iterator const beg = elements_.begin();
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Elements::iterator const end = elements_.end();
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int wid = left_margin;
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// Search for the first element that goes beyond right margin
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Elements::iterator cit = beg;
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for ( ; cit != end ; ++cit) {
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if (wid + cit->dim.wid > w)
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break;
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wid += cit->dim.wid;
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}
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if (cit == end) {
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// This should not happen since the row is too long.
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LYXERR0("Something is wrong cannot shorten row: " << *this);
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return false;
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}
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// Iterate backwards over breakable elements and try to break them
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Elements::iterator cit_brk = cit;
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int wid_brk = wid + cit_brk->dim.wid;
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++cit_brk;
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while (cit_brk != beg) {
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--cit_brk;
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// make a copy of the element to work on it.
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Element brk = *cit_brk;
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wid_brk -= brk.dim.wid;
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if (brk.countSeparators() == 0 || brk.pos < keep)
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continue;
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/* We have found a suitable separable element. This is the common case.
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* Try to break it cleanly (at word boundary) at a length that is both
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* - less than the available space on the row
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* - shorter than the natural width of the element, in order to enforce
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* break-up.
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*/
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if (brk.breakAt(min(w - wid_brk, brk.dim.wid - 2), false)) {
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/* if this element originally did not cause a row overflow
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* in itself, and the remainder of the row would still be
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* too large after breaking, then we will have issues in
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* next row. Thus breaking does not help.
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*/
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if (wid_brk + cit_brk->dim.wid < w
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&& dim_.wid - (wid_brk + brk.dim.wid) >= next_width) {
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break;
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}
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end_ = brk.endpos;
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/* after breakAt, there may be spaces at the end of the
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* string, but they are not counted in the string length
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* (QTextLayout feature, actually). We remove them, but do
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* not change the end of the row, since spaces at row
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* break are invisible.
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*/
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brk.str = rtrim(brk.str);
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brk.endpos = brk.pos + brk.str.length();
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*cit_brk = brk;
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dim_.wid = wid_brk + brk.dim.wid;
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// If there are other elements, they should be removed.
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elements_.erase(cit_brk + 1, end);
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return true;
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}
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}
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if (cit != beg && cit->type == VIRTUAL) {
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// It is not possible to separate a virtual element from the
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// previous one.
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--cit;
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wid -= cit->dim.wid;
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}
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if (cit != beg) {
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// There is no usable separator, but several elements have
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// been added. We can cut right here.
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end_ = cit->pos;
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dim_.wid = wid;
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elements_.erase(cit, end);
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return true;
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}
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/* If we are here, it means that we have not found a separator to
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* shorten the row. Let's try to break it again, but not at word
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* boundary this time.
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*/
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if (cit->breakAt(w - wid, true)) {
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end_ = cit->endpos;
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// See comment above.
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cit->str = rtrim(cit->str);
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cit->endpos = cit->pos + cit->str.length();
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dim_.wid = wid + cit->dim.wid;
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// If there are other elements, they should be removed.
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elements_.erase(next(cit, 1), end);
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return true;
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}
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return false;
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}
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void Row::reverseRTL(bool const rtl_par)
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{
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pos_type i = 0;
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pos_type const end = elements_.size();
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while (i < end) {
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// gather a sequence of elements with the same direction
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bool const rtl = elements_[i].isRTL();
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pos_type j = i;
|
|
while (j < end && elements_[j].isRTL() == rtl)
|
|
++j;
|
|
// if the direction is not the same as the paragraph
|
|
// direction, the sequence has to be reverted.
|
|
if (rtl != rtl_par)
|
|
reverse(elements_.begin() + i, elements_.begin() + j);
|
|
i = j;
|
|
}
|
|
// If the paragraph itself is RTL, reverse everything
|
|
if (rtl_par)
|
|
reverse(elements_.begin(), elements_.end());
|
|
rtl_ = rtl_par;
|
|
}
|
|
|
|
Row::const_iterator const
|
|
Row::findElement(pos_type const pos, bool const boundary, double & x) const
|
|
{
|
|
/**
|
|
* When boundary is true, position i is in the row element (pos, endpos)
|
|
* if
|
|
* pos < i <= endpos
|
|
* whereas, when boundary is false, the test is
|
|
* pos <= i < endpos
|
|
* The correction below allows to handle both cases.
|
|
*/
|
|
int const boundary_corr = (boundary && pos) ? -1 : 0;
|
|
|
|
x = left_margin;
|
|
|
|
/** Early return in trivial cases
|
|
* 1) the row is empty
|
|
* 2) the position is the left-most position of the row; there
|
|
* is a quirk here however: if the first element is virtual
|
|
* (end-of-par marker for example), then we have to look
|
|
* closer
|
|
*/
|
|
if (empty()
|
|
|| (pos == begin()->left_pos() && !boundary
|
|
&& !begin()->isVirtual()))
|
|
return begin();
|
|
|
|
Row::const_iterator cit = begin();
|
|
for ( ; cit != end() ; ++cit) {
|
|
/** Look whether the cursor is inside the element's
|
|
* span. Note that it is necessary to take the
|
|
* boundary into account, and to accept virtual
|
|
* elements, which have pos == endpos.
|
|
*/
|
|
if (pos + boundary_corr >= cit->pos
|
|
&& (pos + boundary_corr < cit->endpos || cit->isVirtual())) {
|
|
x += cit->pos2x(pos);
|
|
break;
|
|
}
|
|
x += cit->full_width();
|
|
}
|
|
|
|
if (cit == end())
|
|
--cit;
|
|
|
|
return cit;
|
|
}
|
|
|
|
|
|
} // namespace lyx
|