Source/WebCore/svg/SVGFontFaceElement.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2007 Eric Seidel <eric@webkit.org>
  * Copyright (C) 2007, 2008 Nikolas Zimmermann <zimmermann@kde.org>
  * Copyright (C) 2008 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"

 #if ENABLE(SVG_FONTS)
 #include "SVGFontFaceElement.h"

 #include "CSSFontFaceSrcValue.h"
 #include "CSSParser.h"
 #include "CSSPropertyNames.h"
 #include "CSSStyleSheet.h"
 #include "CSSValueKeywords.h"
 #include "CSSValueList.h"
 #include "Document.h"
 #include "ElementIterator.h"
 #include "FontCascade.h"
 #include "Logging.h"
 #include "SVGDocumentExtensions.h"
 #include "SVGFontElement.h"
 #include "SVGFontFaceSrcElement.h"
 #include "SVGGlyphElement.h"
 #include "SVGNames.h"
 #include "StyleProperties.h"
 #include "StyleResolver.h"
 #include "StyleRule.h"
 #include "StyleScope.h"
 #include <math.h>
 #include <wtf/IsoMallocInlines.h>

 namespace WebCore {

 WTF_MAKE_ISO_ALLOCATED_IMPL(SVGFontFaceElement);

 using namespace SVGNames;

 inline SVGFontFaceElement::SVGFontFaceElement(const QualifiedName& tagName, Document& document)
     : SVGElement(tagName, document)
     , m_fontFaceRule(StyleRuleFontFace::create(MutableStyleProperties::create(HTMLStandardMode)))
     , m_fontElement(nullptr)
 {
     LOG(Fonts, "SVGFontFaceElement %p ctor", this);
     ASSERT(hasTagName(font_faceTag));
 }

 SVGFontFaceElement::~SVGFontFaceElement()
 {
     LOG(Fonts, "SVGFontFaceElement %p dtor", this);
 }

 Ref<SVGFontFaceElement> SVGFontFaceElement::create(const QualifiedName& tagName, Document& document)
 {
     return adoptRef(*new SVGFontFaceElement(tagName, document));
 }

 void SVGFontFaceElement::parseAttribute(const QualifiedName& name, const AtomString& value)
 {
     CSSPropertyID propertyId = cssPropertyIdForSVGAttributeName(name);
     if (propertyId > 0) {
         // FIXME: Parse using the @font-face descriptor grammars, not the property grammars.
         auto& properties = m_fontFaceRule->mutableProperties();
         bool valueChanged = properties.setProperty(propertyId, value);

         if (valueChanged) {
             // The above parser is designed for the font-face properties, not descriptors, and the properties accept the global keywords, but descriptors don't.
             // Rather than invasively modifying the parser for the properties to have a special mode, we can simply detect the error condition after-the-fact and
             // avoid it explicitly.
             if (auto parsedValue = properties.getPropertyCSSValue(propertyId)) {
                 if (parsedValue->isGlobalKeyword())
                     properties.removeProperty(propertyId);
             }
         }

         rebuildFontFace();
         return;
     }

     SVGElement::parseAttribute(name, value);
 }

 unsigned SVGFontFaceElement::unitsPerEm() const
 {
     const AtomString& valueString = attributeWithoutSynchronization(units_per_emAttr);
     if (valueString.isEmpty())
         return FontMetrics::defaultUnitsPerEm;

     auto value = static_cast<unsigned>(ceilf(valueString.toFloat()));
     if (!value)
         return FontMetrics::defaultUnitsPerEm;

     return value;
 }

 int SVGFontFaceElement::xHeight() const
 {
     return static_cast<int>(ceilf(attributeWithoutSynchronization(x_heightAttr).toFloat()));
 }

 int SVGFontFaceElement::capHeight() const
 {
     return static_cast<int>(ceilf(attributeWithoutSynchronization(cap_heightAttr).toFloat()));
 }

 float SVGFontFaceElement::horizontalOriginX() const
 {
     if (!m_fontElement)
         return 0.0f;

     // Spec: The X-coordinate in the font coordinate system of the origin of a glyph to be used when
     // drawing horizontally oriented text. (Note that the origin applies to all glyphs in the font.)
     // If the attribute is not specified, the effect is as if a value of "0" were specified.
     return m_fontElement->attributeWithoutSynchronization(horiz_origin_xAttr).toFloat();
 }

 float SVGFontFaceElement::horizontalOriginY() const
 {
     if (!m_fontElement)
         return 0.0f;

     // Spec: The Y-coordinate in the font coordinate system of the origin of a glyph to be used when
     // drawing horizontally oriented text. (Note that the origin applies to all glyphs in the font.)
     // If the attribute is not specified, the effect is as if a value of "0" were specified.
     return m_fontElement->attributeWithoutSynchronization(horiz_origin_yAttr).toFloat();
 }

 float SVGFontFaceElement::horizontalAdvanceX() const
 {
     if (!m_fontElement)
         return 0.0f;

     // Spec: The default horizontal advance after rendering a glyph in horizontal orientation. Glyph
     // widths are required to be non-negative, even if the glyph is typically rendered right-to-left,
     // as in Hebrew and Arabic scripts.
     return m_fontElement->attributeWithoutSynchronization(horiz_adv_xAttr).toFloat();
 }

 float SVGFontFaceElement::verticalOriginX() const
 {
     if (!m_fontElement)
         return 0.0f;

     // Spec: The default X-coordinate in the font coordinate system of the origin of a glyph to be used when
     // drawing vertically oriented text. If the attribute is not specified, the effect is as if the attribute
     // were set to half of the effective value of attribute horiz-adv-x.
     const AtomString& value = m_fontElement->attributeWithoutSynchronization(vert_origin_xAttr);
     if (value.isEmpty())
         return horizontalAdvanceX() / 2.0f;

     return value.toFloat();
 }

 float SVGFontFaceElement::verticalOriginY() const
 {
     if (!m_fontElement)
         return 0.0f;

     // Spec: The default Y-coordinate in the font coordinate system of the origin of a glyph to be used when
     // drawing vertically oriented text. If the attribute is not specified, the effect is as if the attribute
     // were set to the position specified by the font's ascent attribute.
     const AtomString& value = m_fontElement->attributeWithoutSynchronization(vert_origin_yAttr);
     if (value.isEmpty())
         return ascent();

     return value.toFloat();
 }

 float SVGFontFaceElement::verticalAdvanceY() const
 {
     if (!m_fontElement)
         return 0.0f;

     // Spec: The default vertical advance after rendering a glyph in vertical orientation. If the attribute is
     // not specified, the effect is as if a value equivalent of one em were specified (see units-per-em).
     const AtomString& value = m_fontElement->attributeWithoutSynchronization(vert_adv_yAttr);
        if (value.isEmpty())
         return 1.0f;

     return value.toFloat();
 }

 int SVGFontFaceElement::ascent() const
 {
     // Spec: Same syntax and semantics as the 'ascent' descriptor within an @font-face rule. The maximum
     // unaccented height of the font within the font coordinate system. If the attribute is not specified,
     // the effect is as if the attribute were set to the difference between the units-per-em value and the
     // vert-origin-y value for the corresponding font.
     const AtomString& ascentValue = attributeWithoutSynchronization(ascentAttr);
     if (!ascentValue.isEmpty())
         return static_cast<int>(ceilf(ascentValue.toFloat()));

     if (m_fontElement) {
         const AtomString& vertOriginY = m_fontElement->attributeWithoutSynchronization(vert_origin_yAttr);
         if (!vertOriginY.isEmpty())
             return static_cast<int>(unitsPerEm()) - static_cast<int>(ceilf(vertOriginY.toFloat()));
     }

     // Match Batiks default value
     return static_cast<int>(ceilf(unitsPerEm() * 0.8f));
 }

 int SVGFontFaceElement::descent() const
 {
     // Spec: Same syntax and semantics as the 'descent' descriptor within an @font-face rule. The maximum
     // unaccented depth of the font within the font coordinate system. If the attribute is not specified,
     // the effect is as if the attribute were set to the vert-origin-y value for the corresponding font.
     const AtomString& descentValue = attributeWithoutSynchronization(descentAttr);
     if (!descentValue.isEmpty()) {
         // 14 different W3C SVG 1.1 testcases use a negative descent value,
         // where a positive was meant to be used  Including:
         // animate-elem-24-t.svg, fonts-elem-01-t.svg, fonts-elem-02-t.svg (and 11 others)
         int descent = static_cast<int>(ceilf(descentValue.toFloat()));
         return descent < 0 ? -descent : descent;
     }

     if (m_fontElement) {
         const AtomString& vertOriginY = m_fontElement->attributeWithoutSynchronization(vert_origin_yAttr);
         if (!vertOriginY.isEmpty())
             return static_cast<int>(ceilf(vertOriginY.toFloat()));
     }

     // Match Batiks default value
     return static_cast<int>(ceilf(unitsPerEm() * 0.2f));
 }

 String SVGFontFaceElement::fontFamily() const
 {
     return m_fontFaceRule->properties().getPropertyValue(CSSPropertyFontFamily);
 }

 SVGFontElement* SVGFontFaceElement::associatedFontElement() const
 {
     ASSERT(parentNode() == m_fontElement);
     ASSERT(!parentNode() || is<SVGFontElement>(*parentNode()));
     return m_fontElement;
 }

 void SVGFontFaceElement::rebuildFontFace()
 {
     if (!isConnected()) {
         ASSERT(!m_fontElement);
         return;
     }

     // we currently ignore all but the first src element, alternatively we could concat them
     auto srcElement = childrenOfType<SVGFontFaceSrcElement>(*this).first();

     bool describesParentFont = is<SVGFontElement>(*parentNode());
     RefPtr<CSSValueList> list;

     if (describesParentFont) {
         m_fontElement = downcast<SVGFontElement>(parentNode());

         list = CSSValueList::createCommaSeparated();
         list->append(CSSFontFaceSrcValue::createLocal(fontFamily()));
     } else {
         m_fontElement = nullptr;
         if (srcElement)
             list = srcElement->srcValue();
     }

     if (!list || !list->length())
         return;

     // Parse in-memory CSS rules
     m_fontFaceRule->mutableProperties().addParsedProperty(CSSProperty(CSSPropertySrc, list));

     if (describesParentFont) {
         // Traverse parsed CSS values and associate CSSFontFaceSrcValue elements with ourselves.
         RefPtr<CSSValue> src = m_fontFaceRule->properties().getPropertyCSSValue(CSSPropertySrc);
         CSSValueList* srcList = downcast<CSSValueList>(src.get());

         unsigned srcLength = srcList ? srcList->length() : 0;
         for (unsigned i = 0; i < srcLength; ++i) {
             if (auto item = makeRefPtr(downcast<CSSFontFaceSrcValue>(srcList->itemWithoutBoundsCheck(i))))
                 item->setSVGFontFaceElement(this);
         }
     }

     document().styleScope().didChangeStyleSheetEnvironment();
 }

 Node::InsertedIntoAncestorResult SVGFontFaceElement::insertedIntoAncestor(InsertionType insertionType, ContainerNode& parentOfInsertedTree)
 {
     SVGElement::insertedIntoAncestor(insertionType, parentOfInsertedTree);
     if (!insertionType.connectedToDocument) {
         ASSERT(!m_fontElement);
         return InsertedIntoAncestorResult::Done;
     }
     document().accessSVGExtensions().registerSVGFontFaceElement(*this);

     rebuildFontFace();
     return InsertedIntoAncestorResult::Done;
 }

 void SVGFontFaceElement::removedFromAncestor(RemovalType removalType, ContainerNode& oldParentOfRemovedTree)
 {
     SVGElement::removedFromAncestor(removalType, oldParentOfRemovedTree);

     if (removalType.disconnectedFromDocument) {
         m_fontElement = nullptr;
         document().accessSVGExtensions().unregisterSVGFontFaceElement(*this);
         m_fontFaceRule->mutableProperties().clear();

         document().styleScope().didChangeStyleSheetEnvironment();
     } else
         ASSERT(!m_fontElement);
 }

 void SVGFontFaceElement::childrenChanged(const ChildChange& change)
 {
     SVGElement::childrenChanged(change);
     rebuildFontFace();
 }

 } // namespace WebCore

 #endif // ENABLE(SVG_FONTS)
	/*
	* Copyright (C) 2007 Eric Seidel <eric@webkit.org>
	* Copyright (C) 2007, 2008 Nikolas Zimmermann <zimmermann@kde.org>
	* Copyright (C) 2008 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"

	#if ENABLE(SVG_FONTS)
	#include "SVGFontFaceElement.h"

	#include "CSSFontFaceSrcValue.h"
	#include "CSSParser.h"
	#include "CSSPropertyNames.h"
	#include "CSSStyleSheet.h"
	#include "CSSValueKeywords.h"
	#include "CSSValueList.h"
	#include "Document.h"
	#include "ElementIterator.h"
	#include "FontCascade.h"
	#include "Logging.h"
	#include "SVGDocumentExtensions.h"
	#include "SVGFontElement.h"
	#include "SVGFontFaceSrcElement.h"
	#include "SVGGlyphElement.h"
	#include "SVGNames.h"
	#include "StyleProperties.h"
	#include "StyleResolver.h"
	#include "StyleRule.h"
	#include "StyleScope.h"
	#include <math.h>
	#include <wtf/IsoMallocInlines.h>

	namespace WebCore {

	WTF_MAKE_ISO_ALLOCATED_IMPL(SVGFontFaceElement);

	using namespace SVGNames;

	inline SVGFontFaceElement::SVGFontFaceElement(const QualifiedName& tagName, Document& document)
	: SVGElement(tagName, document)
	, m_fontFaceRule(StyleRuleFontFace::create(MutableStyleProperties::create(HTMLStandardMode)))
	, m_fontElement(nullptr)
	{
	LOG(Fonts, "SVGFontFaceElement %p ctor", this);
	ASSERT(hasTagName(font_faceTag));
	}

	SVGFontFaceElement::~SVGFontFaceElement()
	{
	LOG(Fonts, "SVGFontFaceElement %p dtor", this);
	}

	Ref<SVGFontFaceElement> SVGFontFaceElement::create(const QualifiedName& tagName, Document& document)
	{
	return adoptRef(*new SVGFontFaceElement(tagName, document));
	}

	void SVGFontFaceElement::parseAttribute(const QualifiedName& name, const AtomString& value)
	{
	CSSPropertyID propertyId = cssPropertyIdForSVGAttributeName(name);
	if (propertyId > 0) {
	// FIXME: Parse using the @font-face descriptor grammars, not the property grammars.
	auto& properties = m_fontFaceRule->mutableProperties();
	bool valueChanged = properties.setProperty(propertyId, value);

	if (valueChanged) {
	// The above parser is designed for the font-face properties, not descriptors, and the properties accept the global keywords, but descriptors don't.
	// Rather than invasively modifying the parser for the properties to have a special mode, we can simply detect the error condition after-the-fact and
	// avoid it explicitly.
	if (auto parsedValue = properties.getPropertyCSSValue(propertyId)) {
	if (parsedValue->isGlobalKeyword())
	properties.removeProperty(propertyId);
	}
	}

	rebuildFontFace();
	return;
	}

	SVGElement::parseAttribute(name, value);
	}

	unsigned SVGFontFaceElement::unitsPerEm() const
	{
	const AtomString& valueString = attributeWithoutSynchronization(units_per_emAttr);
	if (valueString.isEmpty())
	return FontMetrics::defaultUnitsPerEm;

	auto value = static_cast<unsigned>(ceilf(valueString.toFloat()));
	if (!value)
	return FontMetrics::defaultUnitsPerEm;

	return value;
	}

	int SVGFontFaceElement::xHeight() const
	{
	return static_cast<int>(ceilf(attributeWithoutSynchronization(x_heightAttr).toFloat()));
	}

	int SVGFontFaceElement::capHeight() const
	{
	return static_cast<int>(ceilf(attributeWithoutSynchronization(cap_heightAttr).toFloat()));
	}

	float SVGFontFaceElement::horizontalOriginX() const
	{
	if (!m_fontElement)
	return 0.0f;

	// Spec: The X-coordinate in the font coordinate system of the origin of a glyph to be used when
	// drawing horizontally oriented text. (Note that the origin applies to all glyphs in the font.)
	// If the attribute is not specified, the effect is as if a value of "0" were specified.
	return m_fontElement->attributeWithoutSynchronization(horiz_origin_xAttr).toFloat();
	}

	float SVGFontFaceElement::horizontalOriginY() const
	{
	if (!m_fontElement)
	return 0.0f;

	// Spec: The Y-coordinate in the font coordinate system of the origin of a glyph to be used when
	// drawing horizontally oriented text. (Note that the origin applies to all glyphs in the font.)
	// If the attribute is not specified, the effect is as if a value of "0" were specified.
	return m_fontElement->attributeWithoutSynchronization(horiz_origin_yAttr).toFloat();
	}

	float SVGFontFaceElement::horizontalAdvanceX() const
	{
	if (!m_fontElement)
	return 0.0f;

	// Spec: The default horizontal advance after rendering a glyph in horizontal orientation. Glyph
	// widths are required to be non-negative, even if the glyph is typically rendered right-to-left,
	// as in Hebrew and Arabic scripts.
	return m_fontElement->attributeWithoutSynchronization(horiz_adv_xAttr).toFloat();
	}

	float SVGFontFaceElement::verticalOriginX() const
	{
	if (!m_fontElement)
	return 0.0f;

	// Spec: The default X-coordinate in the font coordinate system of the origin of a glyph to be used when
	// drawing vertically oriented text. If the attribute is not specified, the effect is as if the attribute
	// were set to half of the effective value of attribute horiz-adv-x.
	const AtomString& value = m_fontElement->attributeWithoutSynchronization(vert_origin_xAttr);
	if (value.isEmpty())
	return horizontalAdvanceX() / 2.0f;

	return value.toFloat();
	}

	float SVGFontFaceElement::verticalOriginY() const
	{
	if (!m_fontElement)
	return 0.0f;

	// Spec: The default Y-coordinate in the font coordinate system of the origin of a glyph to be used when
	// drawing vertically oriented text. If the attribute is not specified, the effect is as if the attribute
	// were set to the position specified by the font's ascent attribute.
	const AtomString& value = m_fontElement->attributeWithoutSynchronization(vert_origin_yAttr);
	if (value.isEmpty())
	return ascent();

	return value.toFloat();
	}

	float SVGFontFaceElement::verticalAdvanceY() const
	{
	if (!m_fontElement)
	return 0.0f;

	// Spec: The default vertical advance after rendering a glyph in vertical orientation. If the attribute is
	// not specified, the effect is as if a value equivalent of one em were specified (see units-per-em).
	const AtomString& value = m_fontElement->attributeWithoutSynchronization(vert_adv_yAttr);
	if (value.isEmpty())
	return 1.0f;

	return value.toFloat();
	}

	int SVGFontFaceElement::ascent() const
	{
	// Spec: Same syntax and semantics as the 'ascent' descriptor within an @font-face rule. The maximum
	// unaccented height of the font within the font coordinate system. If the attribute is not specified,
	// the effect is as if the attribute were set to the difference between the units-per-em value and the
	// vert-origin-y value for the corresponding font.
	const AtomString& ascentValue = attributeWithoutSynchronization(ascentAttr);
	if (!ascentValue.isEmpty())
	return static_cast<int>(ceilf(ascentValue.toFloat()));

	if (m_fontElement) {
	const AtomString& vertOriginY = m_fontElement->attributeWithoutSynchronization(vert_origin_yAttr);
	if (!vertOriginY.isEmpty())
	return static_cast<int>(unitsPerEm()) - static_cast<int>(ceilf(vertOriginY.toFloat()));
	}

	// Match Batiks default value
	return static_cast<int>(ceilf(unitsPerEm() * 0.8f));
	}

	int SVGFontFaceElement::descent() const
	{
	// Spec: Same syntax and semantics as the 'descent' descriptor within an @font-face rule. The maximum
	// unaccented depth of the font within the font coordinate system. If the attribute is not specified,
	// the effect is as if the attribute were set to the vert-origin-y value for the corresponding font.
	const AtomString& descentValue = attributeWithoutSynchronization(descentAttr);
	if (!descentValue.isEmpty()) {
	// 14 different W3C SVG 1.1 testcases use a negative descent value,
	// where a positive was meant to be used Including:
	// animate-elem-24-t.svg, fonts-elem-01-t.svg, fonts-elem-02-t.svg (and 11 others)
	int descent = static_cast<int>(ceilf(descentValue.toFloat()));
	return descent < 0 ? -descent : descent;
	}

	if (m_fontElement) {
	const AtomString& vertOriginY = m_fontElement->attributeWithoutSynchronization(vert_origin_yAttr);
	if (!vertOriginY.isEmpty())
	return static_cast<int>(ceilf(vertOriginY.toFloat()));
	}

	// Match Batiks default value
	return static_cast<int>(ceilf(unitsPerEm() * 0.2f));
	}

	String SVGFontFaceElement::fontFamily() const
	{
	return m_fontFaceRule->properties().getPropertyValue(CSSPropertyFontFamily);
	}

	SVGFontElement* SVGFontFaceElement::associatedFontElement() const
	{
	ASSERT(parentNode() == m_fontElement);
	ASSERT(!parentNode() \|\| is<SVGFontElement>(*parentNode()));
	return m_fontElement;
	}

	void SVGFontFaceElement::rebuildFontFace()
	{
	if (!isConnected()) {
	ASSERT(!m_fontElement);
	return;
	}

	// we currently ignore all but the first src element, alternatively we could concat them
	auto srcElement = childrenOfType<SVGFontFaceSrcElement>(*this).first();

	bool describesParentFont = is<SVGFontElement>(*parentNode());
	RefPtr<CSSValueList> list;

	if (describesParentFont) {
	m_fontElement = downcast<SVGFontElement>(parentNode());

	list = CSSValueList::createCommaSeparated();
	list->append(CSSFontFaceSrcValue::createLocal(fontFamily()));
	} else {
	m_fontElement = nullptr;
	if (srcElement)
	list = srcElement->srcValue();
	}

	if (!list \|\| !list->length())
	return;

	// Parse in-memory CSS rules
	m_fontFaceRule->mutableProperties().addParsedProperty(CSSProperty(CSSPropertySrc, list));

	if (describesParentFont) {
	// Traverse parsed CSS values and associate CSSFontFaceSrcValue elements with ourselves.
	RefPtr<CSSValue> src = m_fontFaceRule->properties().getPropertyCSSValue(CSSPropertySrc);
	CSSValueList* srcList = downcast<CSSValueList>(src.get());

	unsigned srcLength = srcList ? srcList->length() : 0;
	for (unsigned i = 0; i < srcLength; ++i) {
	if (auto item = makeRefPtr(downcast<CSSFontFaceSrcValue>(srcList->itemWithoutBoundsCheck(i))))
	item->setSVGFontFaceElement(this);
	}
	}

	document().styleScope().didChangeStyleSheetEnvironment();
	}

	Node::InsertedIntoAncestorResult SVGFontFaceElement::insertedIntoAncestor(InsertionType insertionType, ContainerNode& parentOfInsertedTree)
	{
	SVGElement::insertedIntoAncestor(insertionType, parentOfInsertedTree);
	if (!insertionType.connectedToDocument) {
	ASSERT(!m_fontElement);
	return InsertedIntoAncestorResult::Done;
	}
	document().accessSVGExtensions().registerSVGFontFaceElement(*this);

	rebuildFontFace();
	return InsertedIntoAncestorResult::Done;
	}

	void SVGFontFaceElement::removedFromAncestor(RemovalType removalType, ContainerNode& oldParentOfRemovedTree)
	{
	SVGElement::removedFromAncestor(removalType, oldParentOfRemovedTree);

	if (removalType.disconnectedFromDocument) {
	m_fontElement = nullptr;
	document().accessSVGExtensions().unregisterSVGFontFaceElement(*this);
	m_fontFaceRule->mutableProperties().clear();

	document().styleScope().didChangeStyleSheetEnvironment();
	} else
	ASSERT(!m_fontElement);
	}

	void SVGFontFaceElement::childrenChanged(const ChildChange& change)
	{
	SVGElement::childrenChanged(change);
	rebuildFontFace();
	}

	} // namespace WebCore

	#endif // ENABLE(SVG_FONTS)