/** * \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 "RowPainter.h" #include "Buffer.h" #include "CoordCache.h" #include "Cursor.h" #include "BufferParams.h" #include "BufferView.h" #include "Bullet.h" #include "Changes.h" #include "Language.h" #include "Layout.h" #include "LyXRC.h" #include "Row.h" #include "MetricsInfo.h" #include "Paragraph.h" #include "ParagraphList.h" #include "ParagraphParameters.h" #include "Text.h" #include "TextMetrics.h" #include "frontends/FontMetrics.h" #include "frontends/Painter.h" #include "support/debug.h" #include "support/gettext.h" #include "support/lassert.h" #include using namespace std; namespace lyx { using frontend::Painter; using frontend::FontMetrics; RowPainter::RowPainter(PainterInfo & pi, Text const & text, Row const & row, int x, int y) : pi_(pi), text_(text), tm_(pi_.base.bv->textMetrics(&text)), row_(row), par_(text.paragraphs()[row.pit()]), xo_(x), yo_(y) { x_ = row_.left_margin + xo_; //lyxerr << "RowPainter: x: " << x_ << " xo: " << xo_ << " yo: " << yo_ << endl; //row_.dump(); LBUFERR(row.pit() >= 0); LBUFERR(row.pit() < int(text.paragraphs().size())); } FontInfo RowPainter::labelFont(bool end) const { FontInfo f = tm_.labelDisplayFont(row_.pit()).fontInfo(); // selected text? if ((end ? row_.end_margin_sel : row_.begin_margin_sel) || pi_.selected) f.setPaintColor(Color_selectiontext); return f; } // If you want to debug inset metrics uncomment the following line: //#define DEBUG_METRICS // This draws green lines around each inset. void RowPainter::paintInset(Row::Element const & e) const { // Handle selection (first left/right, then middle). pi_.selected_left = pi_.selected || (row_.isRTL() ? row_.end_margin_sel : row_.begin_margin_sel); pi_.selected_right = pi_.selected || (row_.isRTL() ? row_.begin_margin_sel : row_.end_margin_sel); bool const pi_selected = pi_.selected; Cursor const & cur = pi_.base.bv->cursor(); if (cur.selection() && cur.text() == &text_ && cur.normalAnchor().text() == &text_) pi_.selected = row_.sel_beg <= e.pos && row_.sel_end > e.pos; LASSERT(e.inset, return); // Backup full_repaint status because some insets (InsetTabular) // requires a full repaint bool const pi_full_repaint = pi_.full_repaint; bool const pi_do_spellcheck = pi_.do_spellcheck; Change const pi_change = pi_.change; pi_.base.font = e.inset->inheritFont() ? e.font.fontInfo() : pi_.base.bv->buffer().params().getFont().fontInfo(); pi_.base.outer_font = e.font.fontInfo(); pi_.ltr_pos = !e.font.isVisibleRightToLeft(); pi_.change = pi_.change.changed() ? pi_.change : e.change; pi_.do_spellcheck &= e.inset->allowSpellCheck(); int const x1 = int(x_); pi_.base.bv->coordCache().insets().add(e.inset, x1, yo_); // insets are painted completely. Recursive // FIXME: it is wrong to completely paint the background // if we want to do single row painting. e.inset->drawBackground(pi_, x1, yo_); e.inset->drawSelection(pi_, x1, yo_); e.inset->draw(pi_, x1, yo_); paintTextDecoration(e); // Restore full_repaint status. pi_.full_repaint = pi_full_repaint; pi_.change = pi_change; pi_.do_spellcheck = pi_do_spellcheck; pi_.selected = pi_selected; #ifdef DEBUG_METRICS Dimension const & dim = pi_.base.bv->coordCache().insets().dim(e.inset); 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::paintLanguageMarkings(Row::Element const & e) const { paintForeignMark(e); paintNoSpellingMark(e); } void RowPainter::paintForeignMark(Row::Element const & e) const { Language const * lang = e.font.language(); if (!lyxrc.mark_foreign_language) return; if (lang == latex_language) return; if (lang == pi_.base.bv->buffer().params().language) return; int const desc = e.inset ? e.dim.descent() : 0; int const y = yo_ + min(3 * pi_.base.solidLineOffset() / 2 + desc, row_.descent() - 1); pi_.pain.line(int(x_), y, int(x_ + e.full_width() - 1), y, Color_language, Painter::line_solid, pi_.base.solidLineThickness()); } void RowPainter::paintNoSpellingMark(Row::Element const & e) const { //if (!lyxrc.mark_no_spelling) // return; if (e.font.language() == latex_language) return; if (e.font.fontInfo().nospellcheck() != FONT_ON) return; // We at the same voffset than the misspelled mark, since // these two are mutually exclusive int const desc = e.inset ? e.dim.descent() : 0; int y = yo_ + pi_.base.solidLineOffset() + desc + pi_.base.solidLineThickness() + (e.change.changed() ? pi_.base.solidLineThickness() + 1 : 0) + 1; // Make sure that the mark does not go below the row rectangle y = min(y, yo_ + row_.descent() - 1); pi_.pain.line(int(x_), y, int(x_ + e.full_width()), y, Color_language, Painter::line_onoffdash, pi_.base.solidLineThickness()); } void RowPainter::paintMisspelledMark(Row::Element const & e) const { if (e.font.fontInfo().nospellcheck() == FONT_ON) return; // if changed the misspelled marker gets placed slightly lower than normal // to avoid drawing at the same vertical offset FontMetrics const & fm = theFontMetrics(e.font); int const thickness = max(fm.lineWidth(), 2); int y = yo_ + pi_.base.solidLineOffset() + pi_.base.solidLineThickness() + (e.change.changed() ? pi_.base.solidLineThickness() + 1 : 0) + 1 + thickness / 2; // Make sure that the mark does not go below the row rectangle y = min(y, yo_ + row_.descent() - 1); //FIXME: this could be computed only once, it is probably not costly. // check for cursor position // don't draw misspelled marker for words at cursor position // we don't want to disturb the process of text editing DocIterator const nw = pi_.base.bv->cursor().newWord(); pos_type cpos = -1; if (!nw.empty() && par_.id() == nw.paragraph().id()) { cpos = nw.pos(); if (cpos > 0 && cpos == par_.size() && !par_.isWordSeparator(cpos-1)) --cpos; else if (cpos > 0 && par_.isWordSeparator(cpos)) --cpos; } pos_type pos = e.pos; while (pos < e.pos + pos_type(e.str.length())) { if (!par_.isMisspelled(pos)) { ++pos; continue; } FontSpan const & range = par_.getSpellRange(pos); // Skip element which are being edited if (range.contains(cpos)) { // the range includes the last element pos = range.last + 1; continue; } int x1 = fm.pos2x(e.str, range.first - e.pos, e.isRTL(), e.extra); int x2 = fm.pos2x(e.str, min(range.last - e.pos + 1, pos_type(e.str.length())), e.isRTL(), e.extra); if (x1 > x2) swap(x1, x2); pi_.pain.line(int(x_ + x1), y, int(x_ + x2), y, Color_error, Painter::line_onoffdash, thickness); pos = range.last + 1; } } void RowPainter::paintStringAndSel(Row::Element const & e) const { // at least part of text selected? bool const some_sel = (e.endpos >= row_.sel_beg && e.pos < row_.sel_end) || pi_.selected; // all the text selected? bool const all_sel = (e.pos >= row_.sel_beg && e.endpos < row_.sel_end) || pi_.selected; if (all_sel || e.change.changed()) { Font copy = e.font; Color const col = e.change.changed() ? e.change.color() : Color_selectiontext; copy.fontInfo().setPaintColor(col); pi_.pain.text(int(x_), yo_, e.str, copy, e.extra, e.full_width()); } else if (!some_sel) { pi_.pain.text(int(x_), yo_, e.str, e.font, e.extra, e.full_width()); } else { pi_.pain.text(int(x_), yo_, e.str, e.font, Color_selectiontext, max(row_.sel_beg, e.pos) - e.pos, min(row_.sel_end, e.endpos) - e.pos, e.extra, e.full_width()); } } void RowPainter::paintTextDecoration(Row::Element const & e) const { // element selected? bool const sel = (e.pos >= row_.sel_beg && e.endpos <= row_.sel_end) || pi_.selected; FontInfo copy = e.font.fontInfo(); if (sel || e.change.changed()) { Color const col = e.change.changed() ? e.change.color() : Color_selectiontext; copy.setPaintColor(col); } pi_.pain.textDecoration(copy, int(x_), yo_, int(e.full_width())); } void RowPainter::paintChange(Row::Element const & e) const { e.change.paintCue(pi_, x_, yo_, x_ + e.full_width(), e.font.fontInfo()); } void RowPainter::paintChangeBar() const { int const x = pi_.base.bv->leftMargin() - pi_.base.bv->zoomedPixels(7); Dimension const & cdim = row_.contents_dim(); pi_.pain.fillRectangle(x, yo_ - cdim.ascent(), 3, cdim.height(), Color_changebar); } void RowPainter::paintAppendix() const { // only draw the appendix frame once (for the main text) if (!par_.params().appendix() || !text_.isMainText()) return; int y = yo_ - row_.ascent(); if (par_.params().startOfAppendix()) y += 2 * defaultRowHeight(); pi_.pain.line(1, y, 1, yo_ + row_.descent(), Color_appendix); pi_.pain.line(tm_.width() - 2, y, tm_.width() - 2, yo_ + row_.descent(), Color_appendix); } void RowPainter::paintDepthBar() const { depth_type const depth = par_.getDepth(); ParagraphList const & pars = text_.paragraphs(); if (depth <= 0) return; depth_type prev_depth = 0; if (!tm_.isFirstRow(row_)) { pit_type pit2 = row_.pit(); if (row_.pos() == 0) --pit2; prev_depth = pars[pit2].getDepth(); } depth_type next_depth = 0; if (!tm_.isLastRow(row_)) { pit_type pit2 = row_.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()) x += pi_.base.bv->leftMargin() - 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); } } void RowPainter::paintAppendixStart(int y) const { 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_ + (tm_.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_ + tm_.width() - 2), y, Color_appendix); } void RowPainter::paintTooLargeMarks(bool const left, bool const right) const { int const lwid = pi_.base.dottedLineThickness(); Dimension const & cdim = row_.contents_dim(); if (left) { int const x = pi_.base.bv->leftMargin() - lwid; pi_.pain.line(x, yo_ - cdim.ascent(), x, yo_ + cdim.descent(), Color_scroll, Painter::line_onoffdash, lwid); } if (right) { int const x = pi_.base.bv->workWidth() - pi_.base.bv->rightMargin(); pi_.pain.line(x, yo_ - cdim.ascent(), x, yo_ + cdim.descent(), Color_scroll, Painter::line_onoffdash, lwid); } } void RowPainter::paintFirst() const { Layout const & layout = par_.layout(); // start of appendix? if (par_.params().startOfAppendix()) paintAppendixStart(yo_ - row_.ascent() + 2 * defaultRowHeight()); bool const is_first = text_.isFirstInSequence(row_.pit()) || !layout.isParagraphGroup(); //lyxerr << "paintFirst: " << par_.id() << " is_seq: " << is_seq << endl; if (layout.labelIsInline() && (layout.labeltype != LABEL_STATIC || is_first)) paintLabel(); else if (is_first && layout.labelIsAbove()) paintTopLevelLabel(); } void RowPainter::paintLabel() const { docstring const & str = par_.labelString(); if (str.empty()) return; // different font for label separation and string Layout const & layout = par_.layout(); FontInfo const font = labelFont(false); FontMetrics const & fm = theFontMetrics(font); FontInfo lfont = font; // bullet? if (layout.labeltype == LABEL_ITEMIZE && par_.itemdepth < 4) { // get label font size from document properties lfont.setSize(pi_.base.bv->buffer().params().user_defined_bullet(par_.itemdepth).getFontSize()); // realize to avoid assertion lfont.realize(sane_font); } FontMetrics const & lfm = theFontMetrics(lfont); int const x = row_.isRTL() ? row_.width() + fm.width(layout.labelsep) : row_.left_margin - fm.width(layout.labelsep) - lfm.width(str); pi_.pain.text(int(xo_) + x, yo_, str, lfont); } void RowPainter::paintTopLevelLabel() const { BufferParams const & bparams = pi_.base.bv->buffer().params(); ParagraphParameters const & pparams = par_.params(); Layout const & layout = par_.layout(); FontInfo const font = labelFont(false); docstring const str = par_.labelString(); if (str.empty()) return; double spacing_val = 1.0; if (!pparams.spacing().isDefault()) spacing_val = pparams.spacing().getValue(); else spacing_val = bparams.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) { // The 'size + 1' is weird, but it makes sure that we get the // left margin of non-first row. int leftm = tm_.leftMargin(row_.pit(), par_.size() + 1); int rightm = tm_.rightMargin(row_.pit()); if (row_.isRTL()) swap(leftm, rightm); /* Currently, x points at row_.left_margin (which contains the * indent). First remove that, and then center the title with * respect to the left and right margins. */ x += leftm - row_.left_margin + (tm_.width() - leftm -rightm) / 2 - fm.width(str) / 2; } else if (row_.isRTL()) { x = xo_ + tm_.width() - row_.right_margin - fm.width(str); } pi_.pain.text(int(x), yo_ - maxdesc - labeladdon, str, font); } void RowPainter::paintLast() const { int const endlabel = text_.getEndLabel(row_.pit()); switch (endlabel) { case END_LABEL_BOX: case END_LABEL_FILLED_BOX: { FontInfo font = labelFont(true); if (font.realColor() != Color_selectiontext) font.setPaintColor(Color_eolmarker); FontMetrics const & fm = theFontMetrics(font); int const size = int(0.75 * fm.maxAscent()); int const y = yo_ - size; // If needed, move the box a bit to avoid overlapping with text. int x = 0; if (row_.isRTL()) { int const normal_x = nestMargin() + changebarMargin(); x = min(normal_x, row_.left_margin - size - Inset::textOffset(pi_.base.bv)); } else { int const normal_x = tm_.width() - row_.right_margin - size - Inset::textOffset(pi_.base.bv); x = max(normal_x, row_.width()); } if (endlabel == END_LABEL_BOX) pi_.pain.rectangle(int(xo_) + x, y, size, size, font.realColor()); else pi_.pain.fillRectangle(int(xo_) + x, y, size, size, font.realColor()); break; } case END_LABEL_STATIC: { FontInfo const font = labelFont(true); FontMetrics const & fm = theFontMetrics(font); docstring const & str = par_.layout().endlabelstring(); double const x = row_.isRTL() ? row_.left_margin - fm.width(str) : row_.width(); pi_.pain.text(xo_ + x, yo_, str, font); break; } case END_LABEL_NO_LABEL: break; } } void RowPainter::paintOnlyInsets() { for (Row::Element const & e : row_) { if (e.type == Row::INSET) { paintInset(e); // The markings of foreign languages // and of text ignored for spellchecking paintLanguageMarkings(e); // change tracking (not for insets that handle it themselves) if (!e.inset->canPaintChange(*pi_.base.bv)) paintChange(e); } x_ += e.full_width(); } } void RowPainter::paintText() { for (Row::Element const & e : row_) { switch (e.type) { case Row::STRING: case Row::VIRTUAL: paintStringAndSel(e); // Paint the spelling marks if enabled. if (lyxrc.spellcheck_continuously && pi_.do_spellcheck && !pi_.pain.isNull()) paintMisspelledMark(e); break; case Row::INSET: paintInset(e); break; case Row::SPACE: case Row::MARGINSPACE: paintTextDecoration(e); } // The markings of foreign languages // and of text ignored for spellchecking paintLanguageMarkings(e); // change tracking (not for insets that handle it themselves) if (e.type != Row::INSET || ! e.inset->canPaintChange(*pi_.base.bv)) paintChange(e); x_ += e.full_width(); } } void RowPainter::paintSelection() const { if (!row_.selection()) return; int const y1 = yo_ - row_.contents_dim().asc; int const y2 = yo_ + row_.contents_dim().des; // The top selection if (row_.begin_margin_sel) pi_.pain.fillRectangle(int(xo_), yo_ - row_.ascent(), tm_.width(), row_.ascent() - row_.contents_dim().asc, Color_selection); // The left margin selection if (row_.isRTL() ? row_.end_margin_sel : row_.begin_margin_sel) pi_.pain.fillRectangle(int(xo_), y1, row_.left_margin, y2 - y1, Color_selection); // go through row and draw from RTL boundary to RTL boundary double x = xo_ + row_.left_margin; for (auto const & e : row_) { // These are the same tests as in paintStringAndSel, except // that all_sel has an additional clause that triggers for end // of paragraph markers. The clause was not used in // paintStringAndSel to avoid changing the drawing color. // at least part of text selected? bool const some_sel = (e.endpos >= row_.sel_beg && e.pos < row_.sel_end) || pi_.selected; // all the text selected? bool const all_sel = (e.pos >= row_.sel_beg && e.endpos < row_.sel_end) || (e.isVirtual() && e.pos == row_.endpos() && row_.end_margin_sel) || pi_.selected; if (all_sel) { // the 3rd argument is written like that to avoid rounding issues pi_.pain.fillRectangle(int(x), y1, int(x + e.full_width()) - int(x), y2 - y1, Color_selection); } else if (some_sel) { pos_type const from = min(max(row_.sel_beg, e.pos), e.endpos); pos_type const to = max(min(row_.sel_end, e.endpos), e.pos); double x1 = e.pos2x(from); double x2 = e.pos2x(to); if (x1 > x2) swap(x1, x2); // the 3rd argument is written like that to avoid rounding issues pi_.pain.fillRectangle(int(x + x1), y1, int(x2 + x) - int(x1 + x), y2 - y1, Color_selection); } x += e.full_width(); } // the right margin selection if (row_.isRTL() ? row_.begin_margin_sel : row_.end_margin_sel) pi_.pain.fillRectangle(int(x), y1, int(xo_ + tm_.width()) - int(x), y2 - y1, Color_selection); // The bottom selection if (row_.end_margin_sel) pi_.pain.fillRectangle(int(xo_), yo_ + row_.contents_dim().des, tm_.width(), row_.descent() - row_.contents_dim().des, Color_selection); } void RowPainter::paintBookmark(int num) const { BufferView const * bv = pi_.base.bv; FontInfo fi = bv->buffer().params().getFont().fontInfo(); FontMetrics const & fm = theFontMetrics(fi); fi.setColor(Color_bookmark); // ❶ U+2776 DINGBAT NEGATIVE CIRCLED DIGIT ONE char_type const ch = 0x2775 + num; int const x = row_.isRTL() ? bv->workWidth() - bv->rightMargin() + (bv->defaultMargin() - fm.width(ch)) / 2 : bv->leftMargin() - (bv->defaultMargin() + fm.width(ch)) / 2; pi_.pain.text(x, yo_, ch, fi); } } // namespace lyx