/** * \file rowpainter.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author various * \author John Levon * * Full author contact details are available in file CREDITS. */ #include #include #include "rowpainter.h" #include "Bidi.h" #include "Buffer.h" #include "CoordCache.h" #include "Cursor.h" #include "BufferParams.h" #include "BufferView.h" #include "Changes.h" #include "Encoding.h" #include "support/gettext.h" #include "Language.h" #include "Layout.h" #include "LyXRC.h" #include "Row.h" #include "MetricsInfo.h" #include "Paragraph.h" #include "ParagraphMetrics.h" #include "paragraph_funcs.h" #include "ParagraphParameters.h" #include "TextMetrics.h" #include "VSpace.h" #include "frontends/FontMetrics.h" #include "frontends/Painter.h" #include "insets/InsetText.h" #include "support/debug.h" #include "support/textutils.h" #include #include #include using namespace std; namespace lyx { using frontend::Painter; using frontend::FontMetrics; RowPainter::RowPainter(PainterInfo & pi, Text const & text, pit_type pit, Row const & row, Bidi & bidi, int x, int y) : pi_(pi), text_(text), text_metrics_(pi_.base.bv->textMetrics(&text)), pars_(text.paragraphs()), row_(row), pit_(pit), par_(text.paragraphs()[pit]), pm_(text_metrics_.parMetrics(pit)), bidi_(bidi), erased_(pi_.erased_), xo_(x), yo_(y), width_(text_metrics_.width()) { bidi_.computeTables(par_, pi_.base.bv->buffer(), row_); x_ = row_.x + xo_; //lyxerr << "RowPainter: x: " << x_ << " xo: " << xo_ << " yo: " << yo_ << endl; //row_.dump(); BOOST_ASSERT(pit >= 0); BOOST_ASSERT(pit < int(text.paragraphs().size())); } FontInfo RowPainter::labelFont() const { return text_.labelFont(pi_.base.bv->buffer(), par_); } int RowPainter::leftMargin() const { return text_metrics_.leftMargin(text_metrics_.width(), pit_, row_.pos()); } // If you want to debug inset metrics uncomment the following line: //#define DEBUG_METRICS // This draws green lines around each inset. void RowPainter::paintInset(Inset const * inset, pos_type const pos) { Font const font = text_metrics_.displayFont(pit_, pos); BOOST_ASSERT(inset); // Backup full_repaint status because some insets (InsetTabular) // requires a full repaint bool pi_full_repaint = pi_.full_repaint; // FIXME: We should always use font, see documentation of // noFontChange() in Inset.h. pi_.base.font = inset->noFontChange() ? pi_.base.bv->buffer().params().getFont().fontInfo() : font.fontInfo(); pi_.ltr_pos = (bidi_.level(pos) % 2 == 0); pi_.erased_ = erased_ || par_.isDeleted(pos); pi_.base.bv->coordCache().insets().add(inset, int(x_), yo_); // insets are painted completely. Recursive inset->drawSelection(pi_, int(x_), yo_); inset->draw(pi_, int(x_), yo_); Dimension const & dim = pm_.insetDimension(inset); paintForeignMark(x_, font.language(), dim.descent()); x_ += dim.width(); // Restore full_repaint status. pi_.full_repaint = pi_full_repaint; #ifdef DEBUG_METRICS int const x1 = int(x_ - dim.width()); Dimension dim2; BOOST_ASSERT(max_witdh_ > 0); int right_margin = text_metrics_.rightMargin(pm_); int const w = max_witdh_ - leftMargin() - right_margin; MetricsInfo mi(pi_.base.bv, font.fontInfo(), w); inset->metrics(mi, dim2); if (dim.wid != dim2.wid) lyxerr << "Error: inset " << to_ascii(inset->getInsetName()) << " draw width " << dim.width() << "> metrics width " << dim2.wid << "." << endl; if (dim->asc != dim2.asc) lyxerr << "Error: inset " << to_ascii(inset->getInsetName()) << " draw ascent " << dim.ascent() << "> metrics ascent " << dim2.asc << "." << endl; if (dim2.descent() != dim.des) lyxerr << "Error: inset " << to_ascii(inset->getInsetName()) << " draw ascent " << dim.descent() << "> metrics descent " << dim2.des << "." << endl; BOOST_ASSERT(dim2.wid == dim.wid); BOOST_ASSERT(dim2.asc == dim.asc); BOOST_ASSERT(dim2.des == dim.des); int const x2 = x1 + dim.wid; int const y1 = yo_ + dim.des; int const y2 = yo_ - dim.asc; pi_.pain.line(x1, y1, x1, y2, Color_green); pi_.pain.line(x1, y1, x2, y1, Color_green); pi_.pain.line(x2, y1, x2, y2, Color_green); pi_.pain.line(x1, y2, x2, y2, Color_green); #endif } void RowPainter::paintHebrewComposeChar(pos_type & vpos, FontInfo const & font) { pos_type pos = bidi_.vis2log(vpos); docstring str; // first char char_type c = par_.getChar(pos); str += c; ++vpos; int const width = theFontMetrics(font).width(c); int dx = 0; for (pos_type i = pos - 1; i >= 0; --i) { c = par_.getChar(i); if (!Encodings::isHebrewComposeChar(c)) { if (isPrintableNonspace(c)) { int const width2 = pm_.singleWidth(i, text_metrics_.displayFont(pit_, i)); dx = (c == 0x05e8 || // resh c == 0x05d3) // dalet ? width2 - width : (width2 - width) / 2; } break; } } // Draw nikud pi_.pain.text(int(x_) + dx, yo_, str, font); } void RowPainter::paintArabicComposeChar(pos_type & vpos, FontInfo const & font) { pos_type pos = bidi_.vis2log(vpos); docstring str; // first char char_type c = par_.getChar(pos); c = par_.transformChar(c, pos); str += c; ++vpos; int const width = theFontMetrics(font).width(c); int dx = 0; for (pos_type i = pos - 1; i >= 0; --i) { c = par_.getChar(i); if (!Encodings::isArabicComposeChar(c)) { if (isPrintableNonspace(c)) { int const width2 = pm_.singleWidth(i, text_metrics_.displayFont(pit_, i)); dx = (width2 - width) / 2; } break; } } // Draw nikud pi_.pain.text(int(x_) + dx, yo_, str, font); } void RowPainter::paintChars(pos_type & vpos, FontInfo const & font, bool hebrew, bool arabic) { // This method takes up 70% of time when typing pos_type pos = bidi_.vis2log(vpos); pos_type const end = row_.endpos(); FontSpan const font_span = par_.fontSpan(pos); Change::Type const prev_change = par_.lookupChange(pos).type; // first character vector str; str.reserve(100); str.push_back(par_.getChar(pos)); if (arabic) { char_type c = str[0]; if (c == '(') c = ')'; else if (c == ')') c = '('; str[0] = par_.transformChar(c, pos); } // selected text? pit_type const p0 = pi_.base.bv->cursor().selBegin().pit(); bool selection = row_.sel_beg > -1 && row_.sel_beg != row_.sel_end && ((pit_ == p0 && (pos >= row_.sel_beg && pos < row_.sel_end)) || (pit_ > p0 && pos < row_.sel_end)); // collect as much similar chars as we can for (++vpos ; vpos < end ; ++vpos) { pos = bidi_.vis2log(vpos); if (pos < font_span.first || pos > font_span.last) break; if (row_.sel_beg > -1 && row_.sel_beg != row_.sel_end && ((pit_ == p0 && pos == row_.sel_beg) || pos == row_.sel_end)) break; if (prev_change != par_.lookupChange(pos).type) break; char_type c = par_.getChar(pos); if (!isPrintableNonspace(c)) break; /* Because we do our own bidi, at this point the strings are * already in visual order. However, Qt also applies its own * bidi algorithm to strings that it paints to the screen. * Therefore, if we were to paint Hebrew/Arabic words as a * single string, the letters in the words would get reversed * again. In order to avoid that, we don't collect Hebrew/ * Arabic characters, but rather paint them one at a time. * See also http://thread.gmane.org/gmane.editors.lyx.devel/79740 */ if (hebrew) break; /* FIXME: these checks are irrelevant, since 'arabic' and * 'hebrew' alone are already going to trigger a break. * However, this should not be removed completely, because * if an alternative solution is found which allows grouping * of arabic and hebrew characters, then these breaks may have * to be re-applied. if (arabic && Encodings::isArabicComposeChar(c)) break; if (hebrew && Encodings::isHebrewComposeChar(c)) break; */ if (arabic) { if (c == '(') c = ')'; else if (c == ')') c = '('; c = par_.transformChar(c, pos); /* see comment in hebrew, explaining why we break */ break; } str.push_back(c); } docstring s(&str[0], str.size()); if (selection || prev_change != Change::UNCHANGED) { FontInfo copy = font; if (selection) { copy.setColor(Color_selectiontext); } else if (prev_change == Change::DELETED) { copy.setColor(Color_deletedtext); } else if (prev_change == Change::INSERTED) { copy.setColor(Color_addedtext); } x_ += pi_.pain.text(int(x_), yo_, s, copy); } else { x_ += pi_.pain.text(int(x_), yo_, s, font); } } void RowPainter::paintForeignMark(double orig_x, Language const * lang, int desc) { if (!lyxrc.mark_foreign_language) return; if (lang == latex_language) return; if (lang == pi_.base.bv->buffer().params().language) return; int const y = yo_ + 1 + desc; pi_.pain.line(int(orig_x), y, int(x_), y, Color_language); } void RowPainter::paintFromPos(pos_type & vpos) { pos_type const pos = bidi_.vis2log(vpos); Font const orig_font = text_metrics_.displayFont(pit_, pos); double const orig_x = x_; // usual characters, no insets char_type const c = par_.getChar(pos); // special case languages string const & lang = orig_font.language()->lang(); bool const hebrew = lang == "hebrew"; bool const arabic = lang == "arabic_arabtex" || lang == "arabic_arabi" || lang == "farsi"; // draw as many chars as we can if ((!hebrew && !arabic) || (hebrew && !Encodings::isHebrewComposeChar(c)) || (arabic && !Encodings::isArabicComposeChar(c))) { paintChars(vpos, orig_font.fontInfo(), hebrew, arabic); } else if (hebrew) { paintHebrewComposeChar(vpos, orig_font.fontInfo()); } else if (arabic) { paintArabicComposeChar(vpos, orig_font.fontInfo()); } paintForeignMark(orig_x, orig_font.language()); } void RowPainter::paintChangeBar() { pos_type const start = row_.pos(); pos_type end = row_.endpos(); if (par_.size() == end) { // this is the last row of the paragraph; // thus, we must also consider the imaginary end-of-par character end++; } if (start == end || !par_.isChanged(start, end)) return; int const height = text_metrics_.isLastRow(pit_, row_) ? row_.ascent() : row_.height(); pi_.pain.fillRectangle(5, yo_ - row_.ascent(), 3, height, Color_changebar); } void RowPainter::paintAppendix() { // only draw the appendix frame once (for the main text) if (!par_.params().appendix() || !text_.isMainText(pi_.base.bv->buffer())) return; int y = yo_ - row_.ascent(); if (par_.params().startOfAppendix()) y += 2 * defaultRowHeight(); pi_.pain.line(1, y, 1, yo_ + row_.height(), Color_appendix); pi_.pain.line(width_ - 2, y, width_ - 2, yo_ + row_.height(), Color_appendix); } void RowPainter::paintDepthBar() { depth_type const depth = par_.getDepth(); if (depth <= 0) return; depth_type prev_depth = 0; if (!text_metrics_.isFirstRow(pit_, row_)) { pit_type pit2 = pit_; if (row_.pos() == 0) --pit2; prev_depth = pars_[pit2].getDepth(); } depth_type next_depth = 0; if (!text_metrics_.isLastRow(pit_, row_)) { pit_type pit2 = pit_; if (row_.endpos() >= pars_[pit2].size()) ++pit2; next_depth = pars_[pit2].getDepth(); } for (depth_type i = 1; i <= depth; ++i) { int const w = nestMargin() / 5; int x = int(xo_) + w * i; // only consider the changebar space if we're drawing outermost text if (text_.isMainText(pi_.base.bv->buffer())) x += changebarMargin(); int const starty = yo_ - row_.ascent(); int const h = row_.height() - 1 - (i - next_depth - 1) * 3; pi_.pain.line(x, starty, x, starty + h, Color_depthbar); if (i > prev_depth) pi_.pain.fillRectangle(x, starty, w, 2, Color_depthbar); if (i > next_depth) pi_.pain.fillRectangle(x, starty + h, w, 2, Color_depthbar); } } int RowPainter::paintAppendixStart(int y) { FontInfo pb_font = sane_font; pb_font.setColor(Color_appendix); pb_font.decSize(); int w = 0; int a = 0; int d = 0; docstring const label = _("Appendix"); theFontMetrics(pb_font).rectText(label, w, a, d); int const text_start = int(xo_ + (width_ - w) / 2); int const text_end = text_start + w; pi_.pain.rectText(text_start, y + d, label, pb_font, Color_none, Color_none); pi_.pain.line(int(xo_ + 1), y, text_start, y, Color_appendix); pi_.pain.line(text_end, y, int(xo_ + width_ - 2), y, Color_appendix); return 3 * defaultRowHeight(); } void RowPainter::paintFirst() { ParagraphParameters const & parparams = par_.params(); int y_top = 0; // start of appendix? if (parparams.startOfAppendix()) y_top += paintAppendixStart(yo_ - row_.ascent() + 2 * defaultRowHeight()); Buffer const & buffer = pi_.base.bv->buffer(); Layout const & layout = par_.layout(); if (buffer.params().paragraph_separation == BufferParams::ParagraphSkipSeparation) { if (pit_ != 0) { if (layout.latextype == LATEX_PARAGRAPH && !par_.getDepth()) { y_top += buffer.params().getDefSkip().inPixels(*pi_.base.bv); } else { Layout const & playout = pars_[pit_ - 1].layout(); if (playout.latextype == LATEX_PARAGRAPH && !pars_[pit_ - 1].getDepth()) { // is it right to use defskip here, too? (AS) y_top += buffer.params().getDefSkip().inPixels(*pi_.base.bv); } } } } bool const is_rtl = text_.isRTL(buffer, par_); bool const is_seq = isFirstInSequence(pit_, text_.paragraphs()); //lyxerr << "paintFirst: " << par_.id() << " is_seq: " << is_seq << endl; // should we print a label? if (layout.labeltype >= LABEL_STATIC && (layout.labeltype != LABEL_STATIC || layout.latextype != LATEX_ENVIRONMENT || is_seq)) { FontInfo const font = labelFont(); FontMetrics const & fm = theFontMetrics(font); docstring const str = par_.labelString(); if (!str.empty()) { double x = x_; // this is special code for the chapter layout. This is // printed in an extra row and has a pagebreak at // the top. if (layout.counter == "chapter") { double spacing_val = 1.0; if (!parparams.spacing().isDefault()) { spacing_val = parparams.spacing().getValue(); } else { spacing_val = buffer.params().spacing().getValue(); } int const labeladdon = int(fm.maxHeight() * layout.spacing.getValue() * spacing_val); int const maxdesc = int(fm.maxDescent() * layout.spacing.getValue() * spacing_val) + int(layout.parsep) * defaultRowHeight(); if (is_rtl) { x = width_ - leftMargin() - fm.width(str); } pi_.pain.text(int(x), yo_ - maxdesc - labeladdon, str, font); } else { if (is_rtl) { x = width_ - leftMargin() + fm.width(layout.labelsep); } else { x = x_ - fm.width(layout.labelsep) - fm.width(str); } pi_.pain.text(int(x), yo_, str, font); } } // the labels at the top of an environment. // More or less for bibliography } else if (is_seq && (layout.labeltype == LABEL_TOP_ENVIRONMENT || layout.labeltype == LABEL_BIBLIO || layout.labeltype == LABEL_CENTERED_TOP_ENVIRONMENT)) { FontInfo const font = labelFont(); docstring const str = par_.labelString(); if (!str.empty()) { double spacing_val = 1.0; if (!parparams.spacing().isDefault()) spacing_val = parparams.spacing().getValue(); else spacing_val = buffer.params().spacing().getValue(); FontMetrics const & fm = theFontMetrics(font); int const labeladdon = int(fm.maxHeight() * layout.spacing.getValue() * spacing_val); int maxdesc = int(fm.maxDescent() * layout.spacing.getValue() * spacing_val + (layout.labelbottomsep * defaultRowHeight())); double x = x_; if (layout.labeltype == LABEL_CENTERED_TOP_ENVIRONMENT) { if (is_rtl) x = leftMargin(); x += (width_ - text_metrics_.rightMargin(pm_) - leftMargin()) / 2; x -= fm.width(str) / 2; } else if (is_rtl) { x = width_ - leftMargin() - fm.width(str); } pi_.pain.text(int(x), yo_ - maxdesc - labeladdon, str, font); } } } void RowPainter::paintLast() { bool const is_rtl = text_.isRTL(pi_.base.bv->buffer(), par_); int const endlabel = getEndLabel(pit_, text_.paragraphs()); // paint imaginary end-of-paragraph character if (par_.isInserted(par_.size()) || par_.isDeleted(par_.size())) { FontMetrics const & fm = theFontMetrics(pi_.base.bv->buffer().params().getFont()); int const length = fm.maxAscent() / 2; ColorCode col = par_.isInserted(par_.size()) ? Color_addedtext : Color_deletedtext; pi_.pain.line(int(x_) + 1, yo_ + 2, int(x_) + 1, yo_ + 2 - length, col, Painter::line_solid, Painter::line_thick); pi_.pain.line(int(x_) + 1 - length, yo_ + 2, int(x_) + 1, yo_ + 2, col, Painter::line_solid, Painter::line_thick); } // draw an endlabel switch (endlabel) { case END_LABEL_BOX: case END_LABEL_FILLED_BOX: { FontInfo const font = labelFont(); FontMetrics const & fm = theFontMetrics(font); int const size = int(0.75 * fm.maxAscent()); int const y = yo_ - size; int const max_row_width = width_ - size - Inset::TEXT_TO_INSET_OFFSET; int x = is_rtl ? nestMargin() + changebarMargin() : max_row_width - text_metrics_.rightMargin(pm_); // If needed, move the box a bit to avoid overlapping with text. int const rem = max_row_width - row_.width(); if (rem <= 0) x += is_rtl ? rem : - rem; if (endlabel == END_LABEL_BOX) pi_.pain.rectangle(x, y, size, size, Color_eolmarker); else pi_.pain.fillRectangle(x, y, size, size, Color_eolmarker); break; } case END_LABEL_STATIC: { FontInfo const font = labelFont(); FontMetrics const & fm = theFontMetrics(font); docstring const & str = par_.layout().endlabelstring(); double const x = is_rtl ? x_ - fm.width(str) : - text_metrics_.rightMargin(pm_) - row_.width(); pi_.pain.text(int(x), yo_, str, font); break; } case END_LABEL_NO_LABEL: break; } } void RowPainter::paintOnlyInsets() { pos_type const end = row_.endpos(); for (pos_type pos = row_.pos(); pos != end; ++pos) { // If outer row has changed, nested insets are repaint completely. Inset const * inset = par_.getInset(pos); if (!inset) continue; if (x_ > pi_.base.bv->workWidth()) continue; x_ = pi_.base.bv->coordCache().getInsets().x(inset); paintInset(inset, pos); } } void RowPainter::paintText() { pos_type const end = row_.endpos(); // Spaces at logical line breaks in bidi text must be skipped during // painting. However, they may appear visually in the middle // of a row; they must be skipped, wherever they are... // * logically "abc_[HEBREW_\nHEBREW]" // * visually "abc_[_WERBEH\nWERBEH]" pos_type skipped_sep_vpos = -1; pos_type body_pos = par_.beginOfBody(); if (body_pos > 0 && (body_pos > end || !par_.isLineSeparator(body_pos - 1))) { body_pos = 0; } Layout const & layout = par_.layout(); bool running_strikeout = false; bool is_struckout = false; int last_strikeout_x = 0; // check for possible inline completion DocIterator const & inlineCompletionPos = pi_.base.bv->inlineCompletionPos(); pos_type inlineCompletionVPos = -1; if (inlineCompletionPos.inTexted() && inlineCompletionPos.text() == &text_ && inlineCompletionPos.pit() == pit_ && inlineCompletionPos.pos() - 1 >= row_.pos() && inlineCompletionPos.pos() - 1 < row_.endpos()) { // draw logically behind the previous character inlineCompletionVPos = bidi_.log2vis(inlineCompletionPos.pos() - 1); } // Use font span to speed things up, see below FontSpan font_span; Font font; // If the last logical character is a separator, don't paint it, unless // it's in the last row of a paragraph; see skipped_sep_vpos declaration if (end > 0 && end < par_.size() && par_.isSeparator(end - 1)) skipped_sep_vpos = bidi_.log2vis(end - 1); for (pos_type vpos = row_.pos(); vpos < end; ) { if (x_ > pi_.base.bv->workWidth()) break; // Skip the separator at the logical end of the row if (vpos == skipped_sep_vpos) { ++vpos; continue; } pos_type const pos = bidi_.vis2log(vpos); if (pos >= par_.size()) { ++vpos; continue; } // Use font span to speed things up, see above if (vpos < font_span.first || vpos > font_span.last) { font_span = par_.fontSpan(vpos); font = text_metrics_.displayFont(pit_, vpos); // split font span if inline completion is inside if (font_span.first <= inlineCompletionVPos && font_span.last > inlineCompletionVPos) font_span.last = inlineCompletionVPos; } const int width_pos = pm_.singleWidth(pos, font); if (x_ + width_pos < 0) { x_ += width_pos; ++vpos; continue; } is_struckout = par_.isDeleted(pos); if (is_struckout && !running_strikeout) { running_strikeout = true; last_strikeout_x = int(x_); } Inset const * inset = par_.getInset(pos); bool const highly_editable_inset = inset && inset->editable() == Inset::HIGHLY_EDITABLE; // If we reach the end of a struck out range, paint it. // We also don't paint across things like tables if (running_strikeout && (highly_editable_inset || !is_struckout)) { // Calculate 1/3 height of the buffer's default font FontMetrics const & fm = theFontMetrics(pi_.base.bv->buffer().params().getFont()); int const middle = yo_ - fm.maxAscent() / 3; pi_.pain.line(last_strikeout_x, middle, int(x_), middle, Color_deletedtext, Painter::line_solid, Painter::line_thin); running_strikeout = false; } if (body_pos > 0 && pos == body_pos - 1) { int const lwidth = theFontMetrics(labelFont()) .width(layout.labelsep); x_ += row_.label_hfill + lwidth - width_pos; } // Is the inline completion in front of character? if (font.isRightToLeft() && vpos == inlineCompletionVPos) paintInlineCompletion(font); if (par_.isSeparator(pos)) { Font const orig_font = text_metrics_.displayFont(pit_, pos); double const orig_x = x_; x_ += width_pos; if (pos >= body_pos) x_ += row_.separator; paintForeignMark(orig_x, orig_font.language()); ++vpos; } else if (inset) { // If outer row has changed, nested insets are repaint completely. pi_.base.bv->coordCache().insets().add(inset, int(x_), yo_); paintInset(inset, pos); ++vpos; } else { // paint as many characters as possible. paintFromPos(vpos); } // Is the inline completion after character? if (!font.isRightToLeft() && vpos - 1 == inlineCompletionVPos) paintInlineCompletion(font); } // if we reach the end of a struck out range, paint it if (running_strikeout) { // calculate 1/3 height of the buffer's default font FontMetrics const & fm = theFontMetrics(pi_.base.bv->buffer().params().getFont()); int const middle = yo_ - fm.maxAscent() / 3; pi_.pain.line(last_strikeout_x, middle, int(x_), middle, Color_deletedtext, Painter::line_solid, Painter::line_thin); running_strikeout = false; } } void RowPainter::paintInlineCompletion(Font const & font) { docstring completion = pi_.base.bv->inlineCompletion(); FontInfo f = font.fontInfo(); bool rtl = font.isRightToLeft(); // draw the unique and the non-unique completion part // Note: this is not time-critical as it is // only done once per screen. size_t uniqueTo = pi_.base.bv->inlineCompletionUniqueChars(); docstring s1 = completion.substr(0, uniqueTo); docstring s2 = completion.substr(uniqueTo); ColorCode c1 = Color_inlinecompletion; ColorCode c2 = Color_nonunique_inlinecompletion; // right to left? if (rtl) { swap(s1, s2); reverse(s1.begin(), s1.end()); reverse(s2.begin(), s2.end()); swap(c1, c2); } if (s1.size() > 0) { f.setColor(c1); pi_.pain.text(int(x_), yo_, s1, f); x_ += theFontMetrics(font).width(s1); } if (s2.size() > 0) { f.setColor(c2); pi_.pain.text(int(x_), yo_, s2, f); x_ += theFontMetrics(font).width(s2); } } } // namespace lyx