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/*
* (C) 1999 Lars Knoll (knoll@kde.org)
* (C) 2000 Dirk Mueller (mueller@kde.org)
* Copyright (C) 2004-2017 Apple Inc. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*
*/
#include "config.h"
#include "InlineTextBox.h"
#include "BreakLines.h"
#include "DashArray.h"
#include "Document.h"
#include "DocumentMarkerController.h"
#include "Editor.h"
#include "EllipsisBox.h"
#include "EventRegion.h"
#include "Frame.h"
#include "GraphicsContext.h"
#include "HitTestResult.h"
#include "ImageBuffer.h"
#include "InlineTextBoxStyle.h"
#include "MarkedText.h"
#include "Page.h"
#include "PaintInfo.h"
#include "RenderBlock.h"
#include "RenderCombineText.h"
#include "RenderLineBreak.h"
#include "RenderRubyRun.h"
#include "RenderRubyText.h"
#include "RenderTheme.h"
#include "RenderView.h"
#include "RenderedDocumentMarker.h"
#include "Text.h"
#include "TextDecorationPainter.h"
#include "TextPaintStyle.h"
#include "TextPainter.h"
#include <stdio.h>
#include <wtf/IsoMallocInlines.h>
#include <wtf/text/CString.h>
#include <wtf/text/TextStream.h>
namespace WebCore {
WTF_MAKE_ISO_ALLOCATED_IMPL(InlineTextBox);
struct SameSizeAsInlineTextBox : public InlineBox {
unsigned variables[1];
unsigned short variables2[2];
void* pointers[2];
};
COMPILE_ASSERT(sizeof(InlineTextBox) == sizeof(SameSizeAsInlineTextBox), InlineTextBox_should_stay_small);
typedef WTF::HashMap<const InlineTextBox*, LayoutRect> InlineTextBoxOverflowMap;
static InlineTextBoxOverflowMap* gTextBoxesWithOverflow;
InlineTextBox::~InlineTextBox()
{
if (!knownToHaveNoOverflow() && gTextBoxesWithOverflow)
gTextBoxesWithOverflow->remove(this);
TextPainter::removeGlyphDisplayList(*this);
}
bool InlineTextBox::hasTextContent() const
{
if (m_len > 1)
return true;
if (auto* combinedText = this->combinedText()) {
ASSERT(m_len == 1);
return !combinedText->combinedStringForRendering().isEmpty();
}
return m_len;
}
void InlineTextBox::markDirty(bool dirty)
{
if (dirty) {
m_len = 0;
m_start = 0;
}
InlineBox::markDirty(dirty);
}
LayoutRect InlineTextBox::logicalOverflowRect() const
{
if (knownToHaveNoOverflow() || !gTextBoxesWithOverflow)
return enclosingIntRect(logicalFrameRect());
return gTextBoxesWithOverflow->get(this);
}
void InlineTextBox::setLogicalOverflowRect(const LayoutRect& rect)
{
ASSERT(!knownToHaveNoOverflow());
if (!gTextBoxesWithOverflow)
gTextBoxesWithOverflow = new InlineTextBoxOverflowMap;
gTextBoxesWithOverflow->add(this, rect);
}
int InlineTextBox::baselinePosition(FontBaseline baselineType) const
{
if (!parent())
return 0;
if (&parent()->renderer() == renderer().parent())
return parent()->baselinePosition(baselineType);
return downcast<RenderBoxModelObject>(*renderer().parent()).baselinePosition(baselineType, isFirstLine(), isHorizontal() ? HorizontalLine : VerticalLine, PositionOnContainingLine);
}
LayoutUnit InlineTextBox::lineHeight() const
{
if (!renderer().parent())
return 0;
if (&parent()->renderer() == renderer().parent())
return parent()->lineHeight();
return downcast<RenderBoxModelObject>(*renderer().parent()).lineHeight(isFirstLine(), isHorizontal() ? HorizontalLine : VerticalLine, PositionOnContainingLine);
}
LayoutUnit InlineTextBox::selectionTop() const
{
return root().selectionTop();
}
LayoutUnit InlineTextBox::selectionBottom() const
{
return root().selectionBottom();
}
LayoutUnit InlineTextBox::selectionHeight() const
{
return root().selectionHeight();
}
bool InlineTextBox::isSelected(unsigned startPosition, unsigned endPosition) const
{
return clampedOffset(startPosition) < clampedOffset(endPosition);
}
RenderObject::SelectionState InlineTextBox::selectionState()
{
RenderObject::SelectionState state = renderer().selectionState();
if (state == RenderObject::SelectionStart || state == RenderObject::SelectionEnd || state == RenderObject::SelectionBoth) {
auto& selection = renderer().view().selection();
auto startPos = selection.startPosition();
auto endPos = selection.endPosition();
// The position after a hard line break is considered to be past its end.
ASSERT(start() + len() >= (isLineBreak() ? 1 : 0));
unsigned lastSelectable = start() + len() - (isLineBreak() ? 1 : 0);
bool start = (state != RenderObject::SelectionEnd && startPos >= m_start && startPos < m_start + m_len);
bool end = (state != RenderObject::SelectionStart && endPos > m_start && endPos <= lastSelectable);
if (start && end)
state = RenderObject::SelectionBoth;
else if (start)
state = RenderObject::SelectionStart;
else if (end)
state = RenderObject::SelectionEnd;
else if ((state == RenderObject::SelectionEnd || startPos < m_start) &&
(state == RenderObject::SelectionStart || endPos > lastSelectable))
state = RenderObject::SelectionInside;
else if (state == RenderObject::SelectionBoth)
state = RenderObject::SelectionNone;
}
// If there are ellipsis following, make sure their selection is updated.
if (m_truncation != cNoTruncation && root().ellipsisBox()) {
EllipsisBox* ellipsis = root().ellipsisBox();
if (state != RenderObject::SelectionNone) {
unsigned selectionStart;
unsigned selectionEnd;
std::tie(selectionStart, selectionEnd) = selectionStartEnd();
// The ellipsis should be considered to be selected if the end of
// the selection is past the beginning of the truncation and the
// beginning of the selection is before or at the beginning of the
// truncation.
ellipsis->setSelectionState(selectionEnd >= m_truncation && selectionStart <= m_truncation ?
RenderObject::SelectionInside : RenderObject::SelectionNone);
} else
ellipsis->setSelectionState(RenderObject::SelectionNone);
}
return state;
}
inline const FontCascade& InlineTextBox::lineFont() const
{
return combinedText() ? combinedText()->textCombineFont() : lineStyle().fontCascade();
}
// FIXME: Share more code with paintMarkedTextBackground().
LayoutRect InlineTextBox::localSelectionRect(unsigned startPos, unsigned endPos) const
{
unsigned sPos = clampedOffset(startPos);
unsigned ePos = clampedOffset(endPos);
if (sPos >= ePos && !(startPos == endPos && startPos >= start() && startPos <= (start() + len())))
return { };
LayoutUnit selectionTop = this->selectionTop();
LayoutUnit selectionHeight = this->selectionHeight();
TextRun textRun = createTextRun();
LayoutRect selectionRect = LayoutRect(LayoutPoint(logicalLeft(), selectionTop), LayoutSize(logicalWidth(), selectionHeight));
// Avoid measuring the text when the entire line box is selected as an optimization.
if (sPos || ePos != textRun.length())
lineFont().adjustSelectionRectForText(textRun, selectionRect, sPos, ePos);
// FIXME: The computation of the snapped selection rect differs from the computation of this rect
// in paintMarkedTextBackground(). See <https://bugs.webkit.org/show_bug.cgi?id=138913>.
IntRect snappedSelectionRect = enclosingIntRect(selectionRect);
LayoutUnit logicalWidth = snappedSelectionRect.width();
if (snappedSelectionRect.x() > logicalRight())
logicalWidth = 0;
else if (snappedSelectionRect.maxX() > logicalRight())
logicalWidth = logicalRight() - snappedSelectionRect.x();
LayoutPoint topPoint = isHorizontal() ? LayoutPoint(snappedSelectionRect.x(), selectionTop) : LayoutPoint(selectionTop, snappedSelectionRect.x());
LayoutUnit width = isHorizontal() ? logicalWidth : selectionHeight;
LayoutUnit height = isHorizontal() ? selectionHeight : logicalWidth;
return LayoutRect(topPoint, LayoutSize(width, height));
}
void InlineTextBox::deleteLine()
{
renderer().removeTextBox(*this);
delete this;
}
void InlineTextBox::extractLine()
{
if (extracted())
return;
renderer().extractTextBox(*this);
}
void InlineTextBox::attachLine()
{
if (!extracted())
return;
renderer().attachTextBox(*this);
}
float InlineTextBox::placeEllipsisBox(bool flowIsLTR, float visibleLeftEdge, float visibleRightEdge, float ellipsisWidth, float &truncatedWidth, bool& foundBox)
{
if (foundBox) {
m_truncation = cFullTruncation;
return -1;
}
// For LTR this is the left edge of the box, for RTL, the right edge in parent coordinates.
float ellipsisX = flowIsLTR ? visibleRightEdge - ellipsisWidth : visibleLeftEdge + ellipsisWidth;
// Criteria for full truncation:
// LTR: the left edge of the ellipsis is to the left of our text run.
// RTL: the right edge of the ellipsis is to the right of our text run.
bool ltrFullTruncation = flowIsLTR && ellipsisX <= left();
bool rtlFullTruncation = !flowIsLTR && ellipsisX >= left() + logicalWidth();
if (ltrFullTruncation || rtlFullTruncation) {
// Too far. Just set full truncation, but return -1 and let the ellipsis just be placed at the edge of the box.
m_truncation = cFullTruncation;
foundBox = true;
return -1;
}
bool ltrEllipsisWithinBox = flowIsLTR && (ellipsisX < right());
bool rtlEllipsisWithinBox = !flowIsLTR && (ellipsisX > left());
if (ltrEllipsisWithinBox || rtlEllipsisWithinBox) {
foundBox = true;
// The inline box may have different directionality than it's parent. Since truncation
// behavior depends both on both the parent and the inline block's directionality, we
// must keep track of these separately.
bool ltr = isLeftToRightDirection();
if (ltr != flowIsLTR) {
// Width in pixels of the visible portion of the box, excluding the ellipsis.
int visibleBoxWidth = visibleRightEdge - visibleLeftEdge - ellipsisWidth;
ellipsisX = ltr ? left() + visibleBoxWidth : right() - visibleBoxWidth;
}
int offset = offsetForPosition(ellipsisX, false);
if (offset == 0) {
// No characters should be rendered. Set ourselves to full truncation and place the ellipsis at the min of our start
// and the ellipsis edge.
m_truncation = cFullTruncation;
truncatedWidth += ellipsisWidth;
return flowIsLTR ? std::min(ellipsisX, x()) : std::max(ellipsisX, right() - ellipsisWidth);
}
// Set the truncation index on the text run.
m_truncation = offset;
// If we got here that means that we were only partially truncated and we need to return the pixel offset at which
// to place the ellipsis.
float widthOfVisibleText = renderer().width(m_start, offset, textPos(), isFirstLine());
// The ellipsis needs to be placed just after the last visible character.
// Where "after" is defined by the flow directionality, not the inline
// box directionality.
// e.g. In the case of an LTR inline box truncated in an RTL flow then we can
// have a situation such as |Hello| -> |...He|
truncatedWidth += widthOfVisibleText + ellipsisWidth;
if (flowIsLTR)
return left() + widthOfVisibleText;
else
return right() - widthOfVisibleText - ellipsisWidth;
}
truncatedWidth += logicalWidth();
return -1;
}
bool InlineTextBox::isLineBreak() const
{
return renderer().style().preserveNewline() && len() == 1 && renderer().text()[start()] == '\n';
}
bool InlineTextBox::nodeAtPoint(const HitTestRequest& request, HitTestResult& result, const HitTestLocation& locationInContainer, const LayoutPoint& accumulatedOffset, LayoutUnit /* lineTop */, LayoutUnit /*lineBottom*/,
HitTestAction /*hitTestAction*/)
{
if (!visibleToHitTesting())
return false;
if (isLineBreak())
return false;
if (m_truncation == cFullTruncation)
return false;
FloatRect rect(locationIncludingFlipping(), size());
// Make sure truncated text is ignored while hittesting.
if (m_truncation != cNoTruncation) {
LayoutUnit widthOfVisibleText = renderer().width(m_start, m_truncation, textPos(), isFirstLine());
if (isHorizontal())
renderer().style().isLeftToRightDirection() ? rect.setWidth(widthOfVisibleText) : rect.shiftXEdgeTo(right() - widthOfVisibleText);
else
rect.setHeight(widthOfVisibleText);
}
rect.moveBy(accumulatedOffset);
if (locationInContainer.intersects(rect)) {
renderer().updateHitTestResult(result, flipForWritingMode(locationInContainer.point() - toLayoutSize(accumulatedOffset)));
if (result.addNodeToListBasedTestResult(renderer().textNode(), request, locationInContainer, rect) == HitTestProgress::Stop)
return true;
}
return false;
}
Optional<bool> InlineTextBox::emphasisMarkExistsAndIsAbove(const RenderStyle& style) const
{
// This function returns true if there are text emphasis marks and they are suppressed by ruby text.
if (style.textEmphasisMark() == TextEmphasisMark::None)
return WTF::nullopt;
const OptionSet<TextEmphasisPosition> horizontalMask { TextEmphasisPosition::Left, TextEmphasisPosition::Right };
auto emphasisPosition = style.textEmphasisPosition();
auto emphasisPositionHorizontalValue = emphasisPosition & horizontalMask;
ASSERT(!((emphasisPosition & TextEmphasisPosition::Over) && (emphasisPosition & TextEmphasisPosition::Under)));
ASSERT(emphasisPositionHorizontalValue != horizontalMask);
bool isAbove = false;
if (!emphasisPositionHorizontalValue)
isAbove = emphasisPosition.contains(TextEmphasisPosition::Over);
else if (style.isHorizontalWritingMode())
isAbove = emphasisPosition.contains(TextEmphasisPosition::Over);
else
isAbove = emphasisPositionHorizontalValue == TextEmphasisPosition::Right;
if ((style.isHorizontalWritingMode() && (emphasisPosition & TextEmphasisPosition::Under))
|| (!style.isHorizontalWritingMode() && (emphasisPosition & TextEmphasisPosition::Left)))
return isAbove; // Ruby text is always over, so it cannot suppress emphasis marks under.
RenderBlock* containingBlock = renderer().containingBlock();
if (!containingBlock->isRubyBase())
return isAbove; // This text is not inside a ruby base, so it does not have ruby text over it.
if (!is<RenderRubyRun>(*containingBlock->parent()))
return isAbove; // Cannot get the ruby text.
RenderRubyText* rubyText = downcast<RenderRubyRun>(*containingBlock->parent()).rubyText();
// The emphasis marks over are suppressed only if there is a ruby text box and it not empty.
if (rubyText && rubyText->hasLines())
return WTF::nullopt;
return isAbove;
}
struct InlineTextBox::MarkedTextStyle {
static bool areBackgroundMarkedTextStylesEqual(const MarkedTextStyle& a, const MarkedTextStyle& b)
{
return a.backgroundColor == b.backgroundColor;
}
static bool areForegroundMarkedTextStylesEqual(const MarkedTextStyle& a, const MarkedTextStyle& b)
{
return a.textStyles == b.textStyles && a.textShadow == b.textShadow && a.alpha == b.alpha;
}
static bool areDecorationMarkedTextStylesEqual(const MarkedTextStyle& a, const MarkedTextStyle& b)
{
return a.textDecorationStyles == b.textDecorationStyles && a.textShadow == b.textShadow && a.alpha == b.alpha;
}
Color backgroundColor;
TextPaintStyle textStyles;
TextDecorationPainter::Styles textDecorationStyles;
Optional<ShadowData> textShadow;
float alpha;
};
struct InlineTextBox::StyledMarkedText : MarkedText {
StyledMarkedText(const MarkedText& marker)
: MarkedText { marker }
{
}
MarkedTextStyle style;
};
static MarkedText createMarkedTextFromSelectionInBox(const InlineTextBox& box)
{
unsigned selectionStart;
unsigned selectionEnd;
std::tie(selectionStart, selectionEnd) = box.selectionStartEnd();
if (selectionStart < selectionEnd)
return { selectionStart, selectionEnd, MarkedText::Selection };
return { };
}
void InlineTextBox::paint(PaintInfo& paintInfo, const LayoutPoint& paintOffset, LayoutUnit /*lineTop*/, LayoutUnit /*lineBottom*/)
{
if (isLineBreak() || !paintInfo.shouldPaintWithinRoot(renderer()) || renderer().style().visibility() != Visibility::Visible
|| m_truncation == cFullTruncation || paintInfo.phase == PaintPhase::Outline || !hasTextContent())
return;
ASSERT(paintInfo.phase != PaintPhase::SelfOutline && paintInfo.phase != PaintPhase::ChildOutlines);
LayoutUnit logicalLeftSide = logicalLeftVisualOverflow();
LayoutUnit logicalRightSide = logicalRightVisualOverflow();
LayoutUnit logicalStart = logicalLeftSide + (isHorizontal() ? paintOffset.x() : paintOffset.y());
LayoutUnit logicalExtent = logicalRightSide - logicalLeftSide;
LayoutUnit paintEnd = isHorizontal() ? paintInfo.rect.maxX() : paintInfo.rect.maxY();
LayoutUnit paintStart = isHorizontal() ? paintInfo.rect.x() : paintInfo.rect.y();
FloatPoint localPaintOffset(paintOffset);
if (logicalStart >= paintEnd || logicalStart + logicalExtent <= paintStart)
return;
bool isPrinting = renderer().document().printing();
// Determine whether or not we're selected.
bool haveSelection = !isPrinting && paintInfo.phase != PaintPhase::TextClip && selectionState() != RenderObject::SelectionNone;
if (!haveSelection && paintInfo.phase == PaintPhase::Selection) {
// When only painting the selection, don't bother to paint if there is none.
return;
}
if (m_truncation != cNoTruncation) {
if (renderer().containingBlock()->style().isLeftToRightDirection() != isLeftToRightDirection()) {
// Make the visible fragment of text hug the edge closest to the rest of the run by moving the origin
// at which we start drawing text.
// e.g. In the case of LTR text truncated in an RTL Context, the correct behavior is:
// |Hello|CBA| -> |...He|CBA|
// In order to draw the fragment "He" aligned to the right edge of it's box, we need to start drawing
// farther to the right.
// NOTE: WebKit's behavior differs from that of IE which appears to just overlay the ellipsis on top of the
// truncated string i.e. |Hello|CBA| -> |...lo|CBA|
LayoutUnit widthOfVisibleText = renderer().width(m_start, m_truncation, textPos(), isFirstLine());
LayoutUnit widthOfHiddenText = logicalWidth() - widthOfVisibleText;
LayoutSize truncationOffset(isLeftToRightDirection() ? widthOfHiddenText : -widthOfHiddenText, 0_lu);
localPaintOffset.move(isHorizontal() ? truncationOffset : truncationOffset.transposedSize());
}
}
GraphicsContext& context = paintInfo.context();
const RenderStyle& lineStyle = this->lineStyle();
localPaintOffset.move(0, lineStyle.isHorizontalWritingMode() ? 0 : -logicalHeight());
FloatPoint boxOrigin = locationIncludingFlipping();
boxOrigin.moveBy(localPaintOffset);
FloatRect boxRect(boxOrigin, FloatSize(logicalWidth(), logicalHeight()));
if (paintInfo.phase == PaintPhase::EventRegion) {
if (visibleToHitTesting())
paintInfo.eventRegionContext->unite(enclosingIntRect(boxRect), renderer().style());
return;
}
auto* combinedText = this->combinedText();
bool shouldRotate = !isHorizontal() && !combinedText;
if (shouldRotate)
context.concatCTM(rotation(boxRect, Clockwise));
// Determine whether or not we have composition underlines to draw.
bool containsComposition = renderer().textNode() && renderer().frame().editor().compositionNode() == renderer().textNode();
bool useCustomUnderlines = containsComposition && renderer().frame().editor().compositionUsesCustomUnderlines();
MarkedTextStyle unmarkedStyle = computeStyleForUnmarkedMarkedText(paintInfo);
// 1. Paint backgrounds behind text if needed. Examples of such backgrounds include selection
// and composition underlines.
if (paintInfo.phase != PaintPhase::Selection && paintInfo.phase != PaintPhase::TextClip && !isPrinting) {
if (containsComposition && !useCustomUnderlines)
paintCompositionBackground(paintInfo, boxOrigin);
Vector<MarkedText> markedTexts = collectMarkedTextsForDocumentMarkers(TextPaintPhase::Background);
#if ENABLE(TEXT_SELECTION)
if (haveSelection && !useCustomUnderlines && !context.paintingDisabled()) {
auto selectionMarkedText = createMarkedTextFromSelectionInBox(*this);
if (!selectionMarkedText.isEmpty())
markedTexts.append(WTFMove(selectionMarkedText));
}
#endif
auto styledMarkedTexts = subdivideAndResolveStyle(markedTexts, unmarkedStyle, paintInfo);
// Coalesce styles of adjacent marked texts to minimize the number of drawing commands.
auto coalescedStyledMarkedTexts = coalesceAdjacentMarkedTexts(styledMarkedTexts, &MarkedTextStyle::areBackgroundMarkedTextStylesEqual);
paintMarkedTexts(paintInfo, TextPaintPhase::Background, boxRect, coalescedStyledMarkedTexts);
}
// FIXME: Right now, InlineTextBoxes never call addRelevantUnpaintedObject() even though they might
// legitimately be unpainted if they are waiting on a slow-loading web font. We should fix that, and
// when we do, we will have to account for the fact the InlineTextBoxes do not always have unique
// renderers and Page currently relies on each unpainted object having a unique renderer.
if (paintInfo.phase == PaintPhase::Foreground)
renderer().page().addRelevantRepaintedObject(&renderer(), IntRect(boxOrigin.x(), boxOrigin.y(), logicalWidth(), logicalHeight()));
if (paintInfo.phase == PaintPhase::Foreground)
paintPlatformDocumentMarkers(context, boxOrigin);
// 2. Now paint the foreground, including text and decorations like underline/overline (in quirks mode only).
bool shouldPaintSelectionForeground = haveSelection && !useCustomUnderlines;
Vector<MarkedText> markedTexts;
if (paintInfo.phase != PaintPhase::Selection) {
// The marked texts for the gaps between document markers and selection are implicitly created by subdividing the entire line.
markedTexts.append({ clampedOffset(m_start), clampedOffset(end() + 1), MarkedText::Unmarked });
if (!isPrinting) {
markedTexts.appendVector(collectMarkedTextsForDocumentMarkers(TextPaintPhase::Foreground));
bool shouldPaintDraggedContent = !(paintInfo.paintBehavior.contains(PaintBehavior::ExcludeSelection));
if (shouldPaintDraggedContent) {
auto markedTextsForDraggedContent = collectMarkedTextsForDraggedContent();
if (!markedTextsForDraggedContent.isEmpty()) {
shouldPaintSelectionForeground = false;
markedTexts.appendVector(markedTextsForDraggedContent);
}
}
}
}
// The selection marked text acts as a placeholder when computing the marked texts for the gaps...
if (shouldPaintSelectionForeground) {
ASSERT(!isPrinting);
auto selectionMarkedText = createMarkedTextFromSelectionInBox(*this);
if (!selectionMarkedText.isEmpty())
markedTexts.append(WTFMove(selectionMarkedText));
}
auto styledMarkedTexts = subdivideAndResolveStyle(markedTexts, unmarkedStyle, paintInfo);
// ... now remove the selection marked text if we are excluding selection.
if (!isPrinting && paintInfo.paintBehavior.contains(PaintBehavior::ExcludeSelection))
styledMarkedTexts.removeAllMatching([] (const StyledMarkedText& markedText) { return markedText.type == MarkedText::Selection; });
// Coalesce styles of adjacent marked texts to minimize the number of drawing commands.
auto coalescedStyledMarkedTexts = coalesceAdjacentMarkedTexts(styledMarkedTexts, &MarkedTextStyle::areForegroundMarkedTextStylesEqual);
paintMarkedTexts(paintInfo, TextPaintPhase::Foreground, boxRect, coalescedStyledMarkedTexts);
// Paint decorations
auto textDecorations = lineStyle.textDecorationsInEffect();
if (!textDecorations.isEmpty() && paintInfo.phase != PaintPhase::Selection) {
TextRun textRun = createTextRun();
unsigned length = textRun.length();
if (m_truncation != cNoTruncation)
length = m_truncation;
unsigned selectionStart = 0;
unsigned selectionEnd = 0;
if (haveSelection)
std::tie(selectionStart, selectionEnd) = selectionStartEnd();
FloatRect textDecorationSelectionClipOutRect;
if ((paintInfo.paintBehavior.contains(PaintBehavior::ExcludeSelection)) && selectionStart < selectionEnd && selectionEnd <= length) {
textDecorationSelectionClipOutRect = logicalOverflowRect();
textDecorationSelectionClipOutRect.moveBy(localPaintOffset);
float logicalWidthBeforeRange;
float logicalWidthAfterRange;
float logicalSelectionWidth = lineFont().widthOfTextRange(textRun, selectionStart, selectionEnd, nullptr, &logicalWidthBeforeRange, &logicalWidthAfterRange);
// FIXME: Do we need to handle vertical bottom to top text?
if (!isHorizontal()) {
textDecorationSelectionClipOutRect.move(0, logicalWidthBeforeRange);
textDecorationSelectionClipOutRect.setHeight(logicalSelectionWidth);
} else if (direction() == TextDirection::RTL) {
textDecorationSelectionClipOutRect.move(logicalWidthAfterRange, 0);
textDecorationSelectionClipOutRect.setWidth(logicalSelectionWidth);
} else {
textDecorationSelectionClipOutRect.move(logicalWidthBeforeRange, 0);
textDecorationSelectionClipOutRect.setWidth(logicalSelectionWidth);
}
}
// Coalesce styles of adjacent marked texts to minimize the number of drawing commands.
auto coalescedStyledMarkedTexts = coalesceAdjacentMarkedTexts(styledMarkedTexts, &MarkedTextStyle::areDecorationMarkedTextStylesEqual);
paintMarkedTexts(paintInfo, TextPaintPhase::Decoration, boxRect, coalescedStyledMarkedTexts, textDecorationSelectionClipOutRect);
}
// 3. Paint fancy decorations, including composition underlines and platform-specific underlines for spelling errors, grammar errors, et cetera.
if (paintInfo.phase == PaintPhase::Foreground && useCustomUnderlines)
paintCompositionUnderlines(paintInfo, boxOrigin);
if (shouldRotate)
context.concatCTM(rotation(boxRect, Counterclockwise));
}
unsigned InlineTextBox::clampedOffset(unsigned x) const
{
unsigned offset = std::max(std::min(x, m_start + m_len), m_start) - m_start;
if (m_truncation == cFullTruncation)
return offset;
if (m_truncation != cNoTruncation)
offset = std::min<unsigned>(offset, m_truncation);
else if (offset == m_len) {
// Fix up the offset if we are combined text or have a hyphen because we manage these embellishments.
// That is, they are not reflected in renderer().text(). We treat combined text as a single unit.
// We also treat the last codepoint in this box and the hyphen as a single unit.
if (auto* combinedText = this->combinedText())
offset = combinedText->combinedStringForRendering().length();
else if (hasHyphen())
offset += lineStyle().hyphenString().length();
}
return offset;
}
std::pair<unsigned, unsigned> InlineTextBox::selectionStartEnd() const
{
auto selectionState = renderer().selectionState();
if (selectionState == RenderObject::SelectionInside)
return { 0, clampedOffset(m_start + m_len) };
auto start = renderer().view().selection().startPosition();
auto end = renderer().view().selection().endPosition();
if (selectionState == RenderObject::SelectionStart)
end = renderer().text().length();
else if (selectionState == RenderObject::SelectionEnd)
start = 0;
return { clampedOffset(start), clampedOffset(end) };
}
bool InlineTextBox::hasMarkers() const
{
return collectMarkedTextsForDocumentMarkers(TextPaintPhase::Decoration).size();
}
void InlineTextBox::paintPlatformDocumentMarkers(GraphicsContext& context, const FloatPoint& boxOrigin)
{
// This must match calculateUnionOfAllDocumentMarkerBounds().
for (auto& markedText : subdivide(collectMarkedTextsForDocumentMarkers(TextPaintPhase::Decoration), OverlapStrategy::Frontmost))
paintPlatformDocumentMarker(context, boxOrigin, markedText);
}
FloatRect InlineTextBox::calculateUnionOfAllDocumentMarkerBounds() const
{
// This must match paintPlatformDocumentMarkers().
FloatRect result;
for (auto& markedText : subdivide(collectMarkedTextsForDocumentMarkers(TextPaintPhase::Decoration), OverlapStrategy::Frontmost))
result = unionRect(result, calculateDocumentMarkerBounds(markedText));
return result;
}
FloatRect InlineTextBox::calculateDocumentMarkerBounds(const MarkedText& markedText) const
{
auto& font = lineFont();
auto ascent = font.fontMetrics().ascent();
auto fontSize = std::min(std::max(font.size(), 10.0f), 40.0f);
auto y = ascent + 0.11035 * fontSize;
auto height = 0.13247 * fontSize;
// Avoid measuring the text when the entire line box is selected as an optimization.
if (markedText.startOffset || markedText.endOffset != clampedOffset(end() + 1)) {
TextRun run = createTextRun();
LayoutRect selectionRect = LayoutRect(0, y, 0, height);
lineFont().adjustSelectionRectForText(run, selectionRect, markedText.startOffset, markedText.endOffset);
return selectionRect;
}
return FloatRect(0, y, logicalWidth(), height);
}
void InlineTextBox::paintPlatformDocumentMarker(GraphicsContext& context, const FloatPoint& boxOrigin, const MarkedText& markedText)
{
// Never print spelling/grammar markers (5327887)
if (renderer().document().printing())
return;
if (m_truncation == cFullTruncation)
return;
auto bounds = calculateDocumentMarkerBounds(markedText);
auto lineStyleForMarkedTextType = [&]() -> DocumentMarkerLineStyle {
bool shouldUseDarkAppearance = renderer().useDarkAppearance();
switch (markedText.type) {
case MarkedText::SpellingError:
return { DocumentMarkerLineStyle::Mode::Spelling, shouldUseDarkAppearance };
case MarkedText::GrammarError:
return { DocumentMarkerLineStyle::Mode::Grammar, shouldUseDarkAppearance };
case MarkedText::Correction:
return { DocumentMarkerLineStyle::Mode::AutocorrectionReplacement, shouldUseDarkAppearance };
case MarkedText::DictationAlternatives:
return { DocumentMarkerLineStyle::Mode::DictationAlternatives, shouldUseDarkAppearance };
#if PLATFORM(IOS_FAMILY)
case MarkedText::DictationPhraseWithAlternatives:
// FIXME: Rename DocumentMarkerLineStyle::TextCheckingDictationPhraseWithAlternatives and remove the PLATFORM(IOS_FAMILY)-guard.
return { DocumentMarkerLineStyle::Mode::TextCheckingDictationPhraseWithAlternatives, shouldUseDarkAppearance };
#endif
default:
ASSERT_NOT_REACHED();
return { DocumentMarkerLineStyle::Mode::Spelling, shouldUseDarkAppearance };
}
};
bounds.moveBy(boxOrigin);
context.drawDotsForDocumentMarker(bounds, lineStyleForMarkedTextType());
}
auto InlineTextBox::computeStyleForUnmarkedMarkedText(const PaintInfo& paintInfo) const -> MarkedTextStyle
{
auto& lineStyle = this->lineStyle();
MarkedTextStyle style;
style.textDecorationStyles = TextDecorationPainter::stylesForRenderer(renderer(), lineStyle.textDecorationsInEffect(), isFirstLine());
style.textStyles = computeTextPaintStyle(renderer().frame(), lineStyle, paintInfo);
style.textShadow = ShadowData::clone(paintInfo.forceTextColor() ? nullptr : lineStyle.textShadow());
style.alpha = 1;
return style;
}
auto InlineTextBox::resolveStyleForMarkedText(const MarkedText& markedText, const MarkedTextStyle& baseStyle, const PaintInfo& paintInfo) -> StyledMarkedText
{
MarkedTextStyle style = baseStyle;
switch (markedText.type) {
case MarkedText::Correction:
case MarkedText::DictationAlternatives:
#if PLATFORM(IOS_FAMILY)
// FIXME: See <rdar://problem/8933352>. Also, remove the PLATFORM(IOS_FAMILY)-guard.
case MarkedText::DictationPhraseWithAlternatives:
#endif
case MarkedText::GrammarError:
case MarkedText::SpellingError:
case MarkedText::Unmarked:
break;
case MarkedText::DraggedContent:
style.alpha = 0.25;
break;
case MarkedText::Selection: {
style.textStyles = computeTextSelectionPaintStyle(style.textStyles, renderer(), lineStyle(), paintInfo, style.textShadow);
Color selectionBackgroundColor = renderer().selectionBackgroundColor();
style.backgroundColor = selectionBackgroundColor;
if (selectionBackgroundColor.isValid() && selectionBackgroundColor.alpha() && style.textStyles.fillColor == selectionBackgroundColor)
style.backgroundColor = { 0xff - selectionBackgroundColor.red(), 0xff - selectionBackgroundColor.green(), 0xff - selectionBackgroundColor.blue() };
break;
}
case MarkedText::TextMatch: {
// Text matches always use the light system appearance.
OptionSet<StyleColor::Options> styleColorOptions = { StyleColor::Options::UseSystemAppearance };
#if PLATFORM(MAC)
style.textStyles.fillColor = renderer().theme().systemColor(CSSValueAppleSystemLabel, styleColorOptions);
#endif
style.backgroundColor = markedText.marker->isActiveMatch() ? renderer().theme().activeTextSearchHighlightColor(styleColorOptions) : renderer().theme().inactiveTextSearchHighlightColor(styleColorOptions);
break;
}
}
StyledMarkedText styledMarkedText = markedText;
styledMarkedText.style = WTFMove(style);
return styledMarkedText;
}
auto InlineTextBox::subdivideAndResolveStyle(const Vector<MarkedText>& textsToSubdivide, const MarkedTextStyle& baseStyle, const PaintInfo& paintInfo) -> Vector<StyledMarkedText>
{
if (textsToSubdivide.isEmpty())
return { };
auto markedTexts = subdivide(textsToSubdivide);
ASSERT(!markedTexts.isEmpty());
if (UNLIKELY(markedTexts.isEmpty()))
return { };
// Compute frontmost overlapping styled marked texts.
Vector<StyledMarkedText> frontmostMarkedTexts;
frontmostMarkedTexts.reserveInitialCapacity(markedTexts.size());
frontmostMarkedTexts.uncheckedAppend(resolveStyleForMarkedText(markedTexts[0], baseStyle, paintInfo));
for (auto it = markedTexts.begin() + 1, end = markedTexts.end(); it != end; ++it) {
StyledMarkedText& previousStyledMarkedText = frontmostMarkedTexts.last();
if (previousStyledMarkedText.startOffset == it->startOffset && previousStyledMarkedText.endOffset == it->endOffset) {
// Marked texts completely cover each other.
previousStyledMarkedText = resolveStyleForMarkedText(*it, previousStyledMarkedText.style, paintInfo);
continue;
}
frontmostMarkedTexts.uncheckedAppend(resolveStyleForMarkedText(*it, baseStyle, paintInfo));
}
return frontmostMarkedTexts;
}
auto InlineTextBox::coalesceAdjacentMarkedTexts(const Vector<StyledMarkedText>& textsToCoalesce, MarkedTextStylesEqualityFunction areMarkedTextStylesEqual) -> Vector<StyledMarkedText>
{
if (textsToCoalesce.isEmpty())
return { };
auto areAdjacentMarkedTextsWithSameStyle = [&] (const StyledMarkedText& a, const StyledMarkedText& b) {
return a.endOffset == b.startOffset && areMarkedTextStylesEqual(a.style, b.style);
};
Vector<StyledMarkedText> styledMarkedTexts;
styledMarkedTexts.reserveInitialCapacity(textsToCoalesce.size());
styledMarkedTexts.uncheckedAppend(textsToCoalesce[0]);
for (auto it = textsToCoalesce.begin() + 1, end = textsToCoalesce.end(); it != end; ++it) {
StyledMarkedText& previousStyledMarkedText = styledMarkedTexts.last();
if (areAdjacentMarkedTextsWithSameStyle(previousStyledMarkedText, *it)) {
previousStyledMarkedText.endOffset = it->endOffset;
continue;
}
styledMarkedTexts.uncheckedAppend(*it);
}
return styledMarkedTexts;
}
Vector<MarkedText> InlineTextBox::collectMarkedTextsForDraggedContent()
{
using DraggendContentRange = std::pair<unsigned, unsigned>;
auto draggedContentRanges = renderer().draggedContentRangesBetweenOffsets(m_start, m_start + m_len);
Vector<MarkedText> result = draggedContentRanges.map([this] (const DraggendContentRange& range) -> MarkedText {
return { clampedOffset(range.first), clampedOffset(range.second), MarkedText::DraggedContent };
});
return result;
}
Vector<MarkedText> InlineTextBox::collectMarkedTextsForDocumentMarkers(TextPaintPhase phase) const
{
ASSERT_ARG(phase, phase == TextPaintPhase::Background || phase == TextPaintPhase::Foreground || phase == TextPaintPhase::Decoration);
if (!renderer().textNode())
return { };
Vector<RenderedDocumentMarker*> markers = renderer().document().markers().markersFor(*renderer().textNode());
auto markedTextTypeForMarkerType = [] (DocumentMarker::MarkerType type) {
switch (type) {
case DocumentMarker::Spelling:
return MarkedText::SpellingError;
case DocumentMarker::Grammar:
return MarkedText::GrammarError;
case DocumentMarker::CorrectionIndicator:
return MarkedText::Correction;
case DocumentMarker::TextMatch:
return MarkedText::TextMatch;
case DocumentMarker::DictationAlternatives:
return MarkedText::DictationAlternatives;
#if PLATFORM(IOS_FAMILY)
case DocumentMarker::DictationPhraseWithAlternatives:
return MarkedText::DictationPhraseWithAlternatives;
#endif
default:
return MarkedText::Unmarked;
}
};
Vector<MarkedText> markedTexts;
markedTexts.reserveInitialCapacity(markers.size());
// Give any document markers that touch this run a chance to draw before the text has been drawn.
// Note end() points at the last char, not one past it like endOffset and ranges do.
for (auto* marker : markers) {
// Collect either the background markers or the foreground markers, but not both
switch (marker->type()) {
case DocumentMarker::Grammar:
case DocumentMarker::Spelling:
case DocumentMarker::CorrectionIndicator:
case DocumentMarker::Replacement:
case DocumentMarker::DictationAlternatives:
#if PLATFORM(IOS_FAMILY)
// FIXME: Remove the PLATFORM(IOS_FAMILY)-guard.
case DocumentMarker::DictationPhraseWithAlternatives:
#endif
if (phase != TextPaintPhase::Decoration)
continue;
break;
case DocumentMarker::TextMatch:
if (!renderer().frame().editor().markedTextMatchesAreHighlighted())
continue;
if (phase == TextPaintPhase::Decoration)
continue;
break;
#if ENABLE(TELEPHONE_NUMBER_DETECTION)
case DocumentMarker::TelephoneNumber:
if (!renderer().frame().editor().markedTextMatchesAreHighlighted())
continue;
if (phase != TextPaintPhase::Background)
continue;
break;
#endif
default:
continue;
}
if (marker->endOffset() <= start()) {
// Marker is completely before this run. This might be a marker that sits before the
// first run we draw, or markers that were within runs we skipped due to truncation.
continue;
}
if (marker->startOffset() > end()) {
// Marker is completely after this run, bail. A later run will paint it.
break;
}
// Marker intersects this run. Collect it.
switch (marker->type()) {
case DocumentMarker::Spelling:
case DocumentMarker::CorrectionIndicator:
case DocumentMarker::DictationAlternatives:
case DocumentMarker::Grammar:
#if PLATFORM(IOS_FAMILY)
// FIXME: See <rdar://problem/8933352>. Also, remove the PLATFORM(IOS_FAMILY)-guard.
case DocumentMarker::DictationPhraseWithAlternatives:
#endif
case DocumentMarker::TextMatch:
markedTexts.uncheckedAppend({ clampedOffset(marker->startOffset()), clampedOffset(marker->endOffset()), markedTextTypeForMarkerType(marker->type()), marker });
break;
case DocumentMarker::Replacement:
break;
#if ENABLE(TELEPHONE_NUMBER_DETECTION)
case DocumentMarker::TelephoneNumber:
break;
#endif
default:
ASSERT_NOT_REACHED();
}
}
return markedTexts;
}
FloatPoint InlineTextBox::textOriginFromBoxRect(const FloatRect& boxRect) const
{
FloatPoint textOrigin { boxRect.x(), boxRect.y() + lineFont().fontMetrics().ascent() };
if (auto* combinedText = this->combinedText()) {
if (auto newOrigin = combinedText->computeTextOrigin(boxRect))
textOrigin = newOrigin.value();
}
if (isHorizontal())
textOrigin.setY(roundToDevicePixel(LayoutUnit { textOrigin.y() }, renderer().document().deviceScaleFactor()));
else
textOrigin.setX(roundToDevicePixel(LayoutUnit { textOrigin.x() }, renderer().document().deviceScaleFactor()));
return textOrigin;
}
void InlineTextBox::paintMarkedTexts(PaintInfo& paintInfo, TextPaintPhase phase, const FloatRect& boxRect, const Vector<StyledMarkedText>& markedTexts, const FloatRect& decorationClipOutRect)
{
switch (phase) {
case TextPaintPhase::Background:
for (auto& markedText : markedTexts)
paintMarkedTextBackground(paintInfo, boxRect.location(), markedText.style.backgroundColor, markedText.startOffset, markedText.endOffset);
return;
case TextPaintPhase::Foreground:
for (auto& markedText : markedTexts)
paintMarkedTextForeground(paintInfo, boxRect, markedText);
return;
case TextPaintPhase::Decoration:
for (auto& markedText : markedTexts)
paintMarkedTextDecoration(paintInfo, boxRect, decorationClipOutRect, markedText);
return;
}
}
void InlineTextBox::paintMarkedTextBackground(PaintInfo& paintInfo, const FloatPoint& boxOrigin, const Color& color, unsigned clampedStartOffset, unsigned clampedEndOffset)
{
if (clampedStartOffset >= clampedEndOffset)
return;
GraphicsContext& context = paintInfo.context();
GraphicsContextStateSaver stateSaver { context };
updateGraphicsContext(context, TextPaintStyle { color }); // Don't draw text at all!
// Note that if the text is truncated, we let the thing being painted in the truncation
// draw its own highlight.
TextRun textRun = createTextRun();
const RootInlineBox& rootBox = root();
LayoutUnit selectionBottom = rootBox.selectionBottom();
LayoutUnit selectionTop = rootBox.selectionTopAdjustedForPrecedingBlock();
// Use same y positioning and height as for selection, so that when the selection and this subrange are on
// the same word there are no pieces sticking out.
LayoutUnit deltaY = renderer().style().isFlippedLinesWritingMode() ? selectionBottom - logicalBottom() : logicalTop() - selectionTop;
LayoutUnit selectionHeight = std::max<LayoutUnit>(0, selectionBottom - selectionTop);
LayoutRect selectionRect = LayoutRect(boxOrigin.x(), boxOrigin.y() - deltaY, logicalWidth(), selectionHeight);
lineFont().adjustSelectionRectForText(textRun, selectionRect, clampedStartOffset, clampedEndOffset);
// FIXME: Support painting combined text. See <https://bugs.webkit.org/show_bug.cgi?id=180993>.
context.fillRect(snapRectToDevicePixelsWithWritingDirection(selectionRect, renderer().document().deviceScaleFactor(), textRun.ltr()), color);
}
void InlineTextBox::paintMarkedTextForeground(PaintInfo& paintInfo, const FloatRect& boxRect, const StyledMarkedText& markedText)
{
if (markedText.startOffset >= markedText.endOffset)
return;
GraphicsContext& context = paintInfo.context();
const FontCascade& font = lineFont();
const RenderStyle& lineStyle = this->lineStyle();
float emphasisMarkOffset = 0;
Optional<bool> markExistsAndIsAbove = emphasisMarkExistsAndIsAbove(lineStyle);
const AtomicString& emphasisMark = markExistsAndIsAbove ? lineStyle.textEmphasisMarkString() : nullAtom();
if (!emphasisMark.isEmpty())
emphasisMarkOffset = *markExistsAndIsAbove ? -font.fontMetrics().ascent() - font.emphasisMarkDescent(emphasisMark) : font.fontMetrics().descent() + font.emphasisMarkAscent(emphasisMark);
TextPainter textPainter { context };
textPainter.setFont(font);
textPainter.setStyle(markedText.style.textStyles);
textPainter.setIsHorizontal(isHorizontal());
if (markedText.style.textShadow) {
textPainter.setShadow(&markedText.style.textShadow.value());
if (lineStyle.hasAppleColorFilter())
textPainter.setShadowColorFilter(&lineStyle.appleColorFilter());
}
textPainter.setEmphasisMark(emphasisMark, emphasisMarkOffset, combinedText());
TextRun textRun = createTextRun();
textPainter.setGlyphDisplayListIfNeeded(*this, paintInfo, font, context, textRun);
GraphicsContextStateSaver stateSaver { context, false };
if (markedText.type == MarkedText::DraggedContent) {
stateSaver.save();
context.setAlpha(markedText.style.alpha);
}
// TextPainter wants the box rectangle and text origin of the entire line box.
textPainter.paintRange(textRun, boxRect, textOriginFromBoxRect(boxRect), markedText.startOffset, markedText.endOffset);
}
void InlineTextBox::paintMarkedTextDecoration(PaintInfo& paintInfo, const FloatRect& boxRect, const FloatRect& clipOutRect, const StyledMarkedText& markedText)
{
if (m_truncation == cFullTruncation)
return;
GraphicsContext& context = paintInfo.context();
updateGraphicsContext(context, markedText.style.textStyles);
bool isCombinedText = combinedText();
if (isCombinedText)
context.concatCTM(rotation(boxRect, Clockwise));
// 1. Compute text selection
unsigned startOffset = markedText.startOffset;
unsigned endOffset = markedText.endOffset;
if (startOffset >= endOffset)
return;
// Note that if the text is truncated, we let the thing being painted in the truncation
// draw its own decoration.
TextRun textRun = createTextRun();
// Avoid measuring the text when the entire line box is selected as an optimization.
FloatRect snappedSelectionRect = boxRect;
if (startOffset || endOffset != textRun.length()) {
LayoutRect selectionRect = { boxRect.x(), boxRect.y(), boxRect.width(), boxRect.height() };
lineFont().adjustSelectionRectForText(textRun, selectionRect, startOffset, endOffset);
snappedSelectionRect = snapRectToDevicePixelsWithWritingDirection(selectionRect, renderer().document().deviceScaleFactor(), textRun.ltr());
}
// 2. Paint
TextDecorationPainter decorationPainter { context, lineStyle().textDecorationsInEffect(), renderer(), isFirstLine(), lineFont(), markedText.style.textDecorationStyles };
decorationPainter.setInlineTextBox(this);
decorationPainter.setWidth(snappedSelectionRect.width());
decorationPainter.setIsHorizontal(isHorizontal());
if (markedText.style.textShadow) {
decorationPainter.setTextShadow(&markedText.style.textShadow.value());
if (lineStyle().hasAppleColorFilter())
decorationPainter.setShadowColorFilter(&lineStyle().appleColorFilter());
}
{
GraphicsContextStateSaver stateSaver { context, false };
bool isDraggedContent = markedText.type == MarkedText::DraggedContent;
if (isDraggedContent || !clipOutRect.isEmpty()) {
stateSaver.save();
if (isDraggedContent)
context.setAlpha(markedText.style.alpha);
if (!clipOutRect.isEmpty())
context.clipOut(clipOutRect);
}
decorationPainter.paintTextDecoration(textRun.subRun(startOffset, endOffset - startOffset), textOriginFromBoxRect(snappedSelectionRect), snappedSelectionRect.location());
}
if (isCombinedText)
context.concatCTM(rotation(boxRect, Counterclockwise));
}
void InlineTextBox::paintCompositionBackground(PaintInfo& paintInfo, const FloatPoint& boxOrigin)
{
paintMarkedTextBackground(paintInfo, boxOrigin, Color::compositionFill, clampedOffset(renderer().frame().editor().compositionStart()), clampedOffset(renderer().frame().editor().compositionEnd()));
}
void InlineTextBox::paintCompositionUnderlines(PaintInfo& paintInfo, const FloatPoint& boxOrigin) const
{
if (m_truncation == cFullTruncation)
return;
for (auto& underline : renderer().frame().editor().customCompositionUnderlines()) {
if (underline.endOffset <= m_start) {
// Underline is completely before this run. This might be an underline that sits
// before the first run we draw, or underlines that were within runs we skipped
// due to truncation.
continue;
}
if (underline.startOffset > end())
break; // Underline is completely after this run, bail. A later run will paint it.
// Underline intersects this run. Paint it.
paintCompositionUnderline(paintInfo, boxOrigin, underline);
if (underline.endOffset > end() + 1)
break; // Underline also runs into the next run. Bail now, no more marker advancement.
}
}
static inline void mirrorRTLSegment(float logicalWidth, TextDirection direction, float& start, float width)
{
if (direction == TextDirection::LTR)
return;
start = logicalWidth - width - start;
}
void InlineTextBox::paintCompositionUnderline(PaintInfo& paintInfo, const FloatPoint& boxOrigin, const CompositionUnderline& underline) const
{
if (m_truncation == cFullTruncation)
return;
float start = 0; // start of line to draw, relative to tx
float width = logicalWidth(); // how much line to draw
bool useWholeWidth = true;
unsigned paintStart = m_start;
unsigned paintEnd = end() + 1; // end points at the last char, not past it
if (paintStart <= underline.startOffset) {
paintStart = underline.startOffset;
useWholeWidth = false;
start = renderer().width(m_start, paintStart - m_start, textPos(), isFirstLine());
}
if (paintEnd != underline.endOffset) { // end points at the last char, not past it
paintEnd = std::min(paintEnd, (unsigned)underline.endOffset);
useWholeWidth = false;
}
if (m_truncation != cNoTruncation) {
paintEnd = std::min(paintEnd, (unsigned)m_start + m_truncation);
useWholeWidth = false;
}
if (!useWholeWidth) {
width = renderer().width(paintStart, paintEnd - paintStart, textPos() + start, isFirstLine());
mirrorRTLSegment(logicalWidth(), direction(), start, width);
}
// Thick marked text underlines are 2px thick as long as there is room for the 2px line under the baseline.
// All other marked text underlines are 1px thick.
// If there's not enough space the underline will touch or overlap characters.
int lineThickness = 1;
int baseline = lineStyle().fontMetrics().ascent();
if (underline.thick && logicalHeight() - baseline >= 2)
lineThickness = 2;
// We need to have some space between underlines of subsequent clauses, because some input methods do not use different underline styles for those.
// We make each line shorter, which has a harmless side effect of shortening the first and last clauses, too.
start += 1;
width -= 2;
GraphicsContext& context = paintInfo.context();
Color underlineColor = underline.compositionUnderlineColor == CompositionUnderlineColor::TextColor ? renderer().style().visitedDependentColorWithColorFilter(CSSPropertyWebkitTextFillColor) : renderer().style().colorByApplyingColorFilter(underline.color);
context.setStrokeColor(underlineColor);
context.setStrokeThickness(lineThickness);
context.drawLineForText(FloatRect(boxOrigin.x() + start, boxOrigin.y() + logicalHeight() - lineThickness, width, lineThickness), renderer().document().printing());
}
int InlineTextBox::caretMinOffset() const
{
return m_start;
}
int InlineTextBox::caretMaxOffset() const
{
return m_start + m_len;
}
float InlineTextBox::textPos() const
{
// When computing the width of a text run, RenderBlock::computeInlineDirectionPositionsForLine() doesn't include the actual offset
// from the containing block edge in its measurement. textPos() should be consistent so the text are rendered in the same width.
if (logicalLeft() == 0)
return 0;
return logicalLeft() - root().logicalLeft();
}
int InlineTextBox::offsetForPosition(float lineOffset, bool includePartialGlyphs) const
{
if (isLineBreak())
return 0;
if (lineOffset - logicalLeft() > logicalWidth())
return isLeftToRightDirection() ? len() : 0;
if (lineOffset - logicalLeft() < 0)
return isLeftToRightDirection() ? 0 : len();
bool ignoreCombinedText = true;
bool ignoreHyphen = true;
return lineFont().offsetForPosition(createTextRun(ignoreCombinedText, ignoreHyphen), lineOffset - logicalLeft(), includePartialGlyphs);
}
float InlineTextBox::positionForOffset(unsigned offset) const
{
ASSERT(offset >= m_start);
ASSERT(offset <= m_start + len());
if (isLineBreak())
return logicalLeft();
unsigned startOffset;
unsigned endOffset;
if (isLeftToRightDirection()) {
startOffset = 0;
endOffset = clampedOffset(offset);
} else {
startOffset = clampedOffset(offset);
endOffset = m_len;
}
// FIXME: Do we need to add rightBearing here?
LayoutRect selectionRect = LayoutRect(logicalLeft(), 0, 0, 0);
bool ignoreCombinedText = true;
bool ignoreHyphen = true;
TextRun textRun = createTextRun(ignoreCombinedText, ignoreHyphen);
lineFont().adjustSelectionRectForText(textRun, selectionRect, startOffset, endOffset);
return snapRectToDevicePixelsWithWritingDirection(selectionRect, renderer().document().deviceScaleFactor(), textRun.ltr()).maxX();
}
TextRun InlineTextBox::createTextRun(bool ignoreCombinedText, bool ignoreHyphen) const
{
const auto& style = lineStyle();
TextRun textRun { text(ignoreCombinedText, ignoreHyphen), textPos(), expansion(), expansionBehavior(), direction(), dirOverride() || style.rtlOrdering() == Order::Visual, !renderer().canUseSimpleFontCodePath() };
textRun.setTabSize(!style.collapseWhiteSpace(), style.tabSize());
return textRun;
}
String InlineTextBox::text(bool ignoreCombinedText, bool ignoreHyphen) const
{
if (auto* combinedText = this->combinedText()) {
if (ignoreCombinedText)
return renderer().text().substring(m_start, m_len);
return combinedText->combinedStringForRendering();
}
if (hasHyphen()) {
if (ignoreHyphen)
return renderer().text().substring(m_start, m_len);
return makeString(StringView(renderer().text()).substring(m_start, m_len), lineStyle().hyphenString());
}
return renderer().text().substring(m_start, m_len);
}
inline const RenderCombineText* InlineTextBox::combinedText() const
{
return lineStyle().hasTextCombine() && is<RenderCombineText>(renderer()) && downcast<RenderCombineText>(renderer()).isCombined() ? &downcast<RenderCombineText>(renderer()) : nullptr;
}
ExpansionBehavior InlineTextBox::expansionBehavior() const
{
ExpansionBehavior leadingBehavior;
if (forceLeadingExpansion())
leadingBehavior = ForceLeadingExpansion;
else if (canHaveLeadingExpansion())
leadingBehavior = AllowLeadingExpansion;
else
leadingBehavior = ForbidLeadingExpansion;
ExpansionBehavior trailingBehavior;
if (forceTrailingExpansion())
trailingBehavior = ForceTrailingExpansion;
else if (expansion() && nextLeafChild() && !nextLeafChild()->isLineBreak())
trailingBehavior = AllowTrailingExpansion;
else
trailingBehavior = ForbidTrailingExpansion;
return leadingBehavior | trailingBehavior;
}
#if ENABLE(TREE_DEBUGGING)
const char* InlineTextBox::boxName() const
{
return "InlineTextBox";
}
void InlineTextBox::outputLineBox(TextStream& stream, bool mark, int depth) const
{
stream << "-------- " << (isDirty() ? "D" : "-") << "-";
int printedCharacters = 0;
if (mark) {
stream << "*";
++printedCharacters;
}
while (++printedCharacters <= depth * 2)
stream << " ";
String value = renderer().text();
value = value.substring(start(), len());
value.replaceWithLiteral('\\', "\\\\");
value.replaceWithLiteral('\n', "\\n");
stream << boxName() << " " << FloatRect(x(), y(), width(), height()) << " (" << this << ") renderer->(" << &renderer() << ") run(" << start() << ", " << start() + len() << ") \"" << value.utf8().data() << "\"";
stream.nextLine();
}
#endif
} // namespace WebCore