PositionWithAffinity LayoutSVGInlineText::positionForPoint(const LayoutPoint& point) { if (!hasTextBoxes() || !textLength()) return createPositionWithAffinity(0); ASSERT(m_scalingFactor); float baseline = m_scaledFont.getFontMetrics().floatAscent() / m_scalingFactor; LayoutBlock* containingBlock = this->containingBlock(); ASSERT(containingBlock); // Map local point to absolute point, as the character origins stored in the text fragments use absolute coordinates. FloatPoint absolutePoint(point); absolutePoint.moveBy(containingBlock->location()); float closestDistance = std::numeric_limits<float>::max(); float closestDistancePosition = 0; const SVGTextFragment* closestDistanceFragment = nullptr; SVGInlineTextBox* closestDistanceBox = nullptr; for (InlineTextBox* box = firstTextBox(); box; box = box->nextTextBox()) { if (!box->isSVGInlineTextBox()) continue; SVGInlineTextBox* textBox = toSVGInlineTextBox(box); for (const SVGTextFragment& fragment : textBox->textFragments()) { FloatRect fragmentRect = fragment.boundingBox(baseline); float distance = 0; if (!fragmentRect.contains(absolutePoint)) distance = fragmentRect.squaredDistanceTo(absolutePoint); if (distance <= closestDistance) { closestDistance = distance; closestDistanceBox = textBox; closestDistanceFragment = &fragment; closestDistancePosition = fragmentRect.x(); } } } if (!closestDistanceFragment) return createPositionWithAffinity(0); int offset = closestDistanceBox->offsetForPositionInFragment(*closestDistanceFragment, LayoutUnit(absolutePoint.x() - closestDistancePosition), true); return createPositionWithAffinity(offset + closestDistanceBox->start(), offset > 0 ? VP_UPSTREAM_IF_POSSIBLE : TextAffinity::Downstream); }