Source/WebCore/rendering/svg/RenderSVGResourcePattern.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2006 Nikolas Zimmermann <zimmermann@kde.org>
  * Copyright (C) Research In Motion Limited 2010. 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)
 #include "RenderSVGResourcePattern.h"

 #include "ElementIterator.h"
 #include "FrameView.h"
 #include "GraphicsContext.h"
 #include "PatternAttributes.h"
 #include "RenderSVGRoot.h"
 #include "SVGFitToViewBox.h"
 #include "SVGRenderSupport.h"
 #include "SVGRenderingContext.h"

 namespace WebCore {

 RenderSVGResourceType RenderSVGResourcePattern::s_resourceType = PatternResourceType;

 RenderSVGResourcePattern::RenderSVGResourcePattern(SVGPatternElement& element, PassRef<RenderStyle> style)
     : RenderSVGResourceContainer(element, std::move(style))
     , m_shouldCollectPatternAttributes(true)
 {
 }

 SVGPatternElement& RenderSVGResourcePattern::patternElement() const
 {
     return toSVGPatternElement(RenderSVGResourceContainer::element());
 }

 void RenderSVGResourcePattern::removeAllClientsFromCache(bool markForInvalidation)
 {
     m_patternMap.clear();
     m_shouldCollectPatternAttributes = true;
     markAllClientsForInvalidation(markForInvalidation ? RepaintInvalidation : ParentOnlyInvalidation);
 }

 void RenderSVGResourcePattern::removeClientFromCache(RenderObject* client, bool markForInvalidation)
 {
     ASSERT(client);
     m_patternMap.remove(client);
     markClientForInvalidation(client, markForInvalidation ? RepaintInvalidation : ParentOnlyInvalidation);
 }

 PatternData* RenderSVGResourcePattern::buildPattern(RenderObject* object, unsigned short resourceMode)
 {
     PatternData* currentData = m_patternMap.get(object);
     if (currentData && currentData->pattern)
         return currentData;

     if (m_shouldCollectPatternAttributes) {
         patternElement().synchronizeAnimatedSVGAttribute(anyQName());

         m_attributes = PatternAttributes();
         patternElement().collectPatternAttributes(m_attributes);
         m_shouldCollectPatternAttributes = false;
     }

     // If we couldn't determine the pattern content element root, stop here.
     if (!m_attributes.patternContentElement())
         return 0;

     // An empty viewBox disables rendering.
     if (m_attributes.hasViewBox() && m_attributes.viewBox().isEmpty())
         return 0;

     // Compute all necessary transformations to build the tile image & the pattern.
     FloatRect tileBoundaries;
     AffineTransform tileImageTransform;
     if (!buildTileImageTransform(object, m_attributes, patternElement(), tileBoundaries, tileImageTransform))
         return 0;

     AffineTransform absoluteTransformIgnoringRotation;
     SVGRenderingContext::calculateTransformationToOutermostCoordinateSystem(object, absoluteTransformIgnoringRotation);

     // Ignore 2D rotation, as it doesn't affect the size of the tile.
     SVGRenderingContext::clear2DRotation(absoluteTransformIgnoringRotation);
     FloatRect absoluteTileBoundaries = absoluteTransformIgnoringRotation.mapRect(tileBoundaries);
     FloatRect clampedAbsoluteTileBoundaries;

     // Scale the tile size to match the scale level of the patternTransform.
     absoluteTileBoundaries.scale(static_cast<float>(m_attributes.patternTransform().xScale()),
         static_cast<float>(m_attributes.patternTransform().yScale()));

     // Build tile image.
     OwnPtr<ImageBuffer> tileImage = createTileImage(m_attributes, tileBoundaries, absoluteTileBoundaries, tileImageTransform, clampedAbsoluteTileBoundaries);
     if (!tileImage)
         return 0;

     RefPtr<Image> copiedImage = tileImage->copyImage(CopyBackingStore);
     if (!copiedImage)
         return 0;

     // Build pattern.
     OwnPtr<PatternData> patternData = adoptPtr(new PatternData);
     patternData->pattern = Pattern::create(copiedImage, true, true);

     // Compute pattern space transformation.
     const IntSize tileImageSize = tileImage->logicalSize();
     patternData->transform.translate(tileBoundaries.x(), tileBoundaries.y());
     patternData->transform.scale(tileBoundaries.width() / tileImageSize.width(), tileBoundaries.height() / tileImageSize.height());

     AffineTransform patternTransform = m_attributes.patternTransform();
     if (!patternTransform.isIdentity())
         patternData->transform = patternTransform * patternData->transform;

     // Account for text drawing resetting the context to non-scaled, see SVGInlineTextBox::paintTextWithShadows.
     if (resourceMode & ApplyToTextMode) {
         AffineTransform additionalTextTransformation;
         if (shouldTransformOnTextPainting(object, additionalTextTransformation))
             patternData->transform *= additionalTextTransformation;
     }
     patternData->pattern->setPatternSpaceTransform(patternData->transform);

     // Various calls above may trigger invalidations in some fringe cases (ImageBuffer allocation
     // failures in the SVG image cache for example). To avoid having our PatternData deleted by
     // removeAllClientsFromCache(), we only make it visible in the cache at the very end.
     return m_patternMap.set(object, patternData.release()).iterator->value.get();
 }

 bool RenderSVGResourcePattern::applyResource(RenderElement& renderer, const RenderStyle& style, GraphicsContext*& context, unsigned short resourceMode)
 {
     ASSERT(context);
     ASSERT(resourceMode != ApplyToDefaultMode);

     // Spec: When the geometry of the applicable element has no width or height and objectBoundingBox is specified,
     // then the given effect (e.g. a gradient or a filter) will be ignored.
     FloatRect objectBoundingBox = renderer.objectBoundingBox();
     if (m_attributes.patternUnits() == SVGUnitTypes::SVG_UNIT_TYPE_OBJECTBOUNDINGBOX && objectBoundingBox.isEmpty())
         return false;

     PatternData* patternData = buildPattern(&renderer, resourceMode);
     if (!patternData)
         return false;

     // Draw pattern
     context->save();

     const SVGRenderStyle* svgStyle = style.svgStyle();
     ASSERT(svgStyle);

     if (resourceMode & ApplyToFillMode) {
         context->setAlpha(svgStyle->fillOpacity());
         context->setFillPattern(patternData->pattern);
         context->setFillRule(svgStyle->fillRule());
     } else if (resourceMode & ApplyToStrokeMode) {
         if (svgStyle->vectorEffect() == VE_NON_SCALING_STROKE)
             patternData->pattern->setPatternSpaceTransform(transformOnNonScalingStroke(&renderer, patternData->transform));
         context->setAlpha(svgStyle->strokeOpacity());
         context->setStrokePattern(patternData->pattern);
         SVGRenderSupport::applyStrokeStyleToContext(context, style, renderer);
     }

     if (resourceMode & ApplyToTextMode) {
         if (resourceMode & ApplyToFillMode) {
             context->setTextDrawingMode(TextModeFill);

 #if USE(CG)
             context->applyFillPattern();
 #endif
         } else if (resourceMode & ApplyToStrokeMode) {
             context->setTextDrawingMode(TextModeStroke);

 #if USE(CG)
             context->applyStrokePattern();
 #endif
         }
     }

     return true;
 }

 void RenderSVGResourcePattern::postApplyResource(RenderElement&, GraphicsContext*& context, unsigned short resourceMode, const Path* path, const RenderSVGShape* shape)
 {
     ASSERT(context);
     ASSERT(resourceMode != ApplyToDefaultMode);

     if (resourceMode & ApplyToFillMode) {
         if (path)
             context->fillPath(*path);
         else if (shape)
             shape->fillShape(context);
     }
     if (resourceMode & ApplyToStrokeMode) {
         if (path)
             context->strokePath(*path);
         else if (shape)
             shape->strokeShape(context);
     }

     context->restore();
 }

 static inline FloatRect calculatePatternBoundaries(const PatternAttributes& attributes,
                                                    const FloatRect& objectBoundingBox,
                                                    const SVGPatternElement& patternElement)
 {
     return SVGLengthContext::resolveRectangle(&patternElement, attributes.patternUnits(), objectBoundingBox, attributes.x(), attributes.y(), attributes.width(), attributes.height());
 }

 bool RenderSVGResourcePattern::buildTileImageTransform(RenderObject* renderer,
                                                        const PatternAttributes& attributes,
                                                        const SVGPatternElement& patternElement,
                                                        FloatRect& patternBoundaries,
                                                        AffineTransform& tileImageTransform) const
 {
     ASSERT(renderer);

     FloatRect objectBoundingBox = renderer->objectBoundingBox();
     patternBoundaries = calculatePatternBoundaries(attributes, objectBoundingBox, patternElement);
     if (patternBoundaries.width() <= 0 || patternBoundaries.height() <= 0)
         return false;

     AffineTransform viewBoxCTM = SVGFitToViewBox::viewBoxToViewTransform(attributes.viewBox(), attributes.preserveAspectRatio(), patternBoundaries.width(), patternBoundaries.height());

     // Apply viewBox/objectBoundingBox transformations.
     if (!viewBoxCTM.isIdentity())
         tileImageTransform = viewBoxCTM;
     else if (attributes.patternContentUnits() == SVGUnitTypes::SVG_UNIT_TYPE_OBJECTBOUNDINGBOX)
         tileImageTransform.scale(objectBoundingBox.width(), objectBoundingBox.height());

     return true;
 }

 PassOwnPtr<ImageBuffer> RenderSVGResourcePattern::createTileImage(const PatternAttributes& attributes,
                                                                   const FloatRect& tileBoundaries,
                                                                   const FloatRect& absoluteTileBoundaries,
                                                                   const AffineTransform& tileImageTransform,
                                                                   FloatRect& clampedAbsoluteTileBoundaries) const
 {
     clampedAbsoluteTileBoundaries = SVGRenderingContext::clampedAbsoluteTargetRect(absoluteTileBoundaries);

     OwnPtr<ImageBuffer> tileImage;

     if (!SVGRenderingContext::createImageBufferForPattern(absoluteTileBoundaries, clampedAbsoluteTileBoundaries, tileImage, ColorSpaceDeviceRGB, Unaccelerated))
         return nullptr;

     GraphicsContext* tileImageContext = tileImage->context();
     ASSERT(tileImageContext);

     // The image buffer represents the final rendered size, so the content has to be scaled (to avoid pixelation).
     tileImageContext->scale(FloatSize(clampedAbsoluteTileBoundaries.width() / tileBoundaries.width(),
                                       clampedAbsoluteTileBoundaries.height() / tileBoundaries.height()));

     // Apply tile image transformations.
     if (!tileImageTransform.isIdentity())
         tileImageContext->concatCTM(tileImageTransform);

     AffineTransform contentTransformation;
     if (attributes.patternContentUnits() == SVGUnitTypes::SVG_UNIT_TYPE_OBJECTBOUNDINGBOX)
         contentTransformation = tileImageTransform;

     // Draw the content into the ImageBuffer.
     auto children = childrenOfType<SVGElement>(*attributes.patternContentElement());
     for (auto it = children.begin(), end = children.end(); it != end; ++it) {
         const SVGElement& child = *it;
         if (!child.renderer())
             continue;
         if (child.renderer()->needsLayout())
             return nullptr;
         SVGRenderingContext::renderSubtreeToImageBuffer(tileImage.get(), *child.renderer(), contentTransformation);
     }

     return tileImage.release();
 }

 }

 #endif
	/*
	* Copyright (C) 2006 Nikolas Zimmermann <zimmermann@kde.org>
	* Copyright (C) Research In Motion Limited 2010. 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)
	#include "RenderSVGResourcePattern.h"

	#include "ElementIterator.h"
	#include "FrameView.h"
	#include "GraphicsContext.h"
	#include "PatternAttributes.h"
	#include "RenderSVGRoot.h"
	#include "SVGFitToViewBox.h"
	#include "SVGRenderSupport.h"
	#include "SVGRenderingContext.h"

	namespace WebCore {

	RenderSVGResourceType RenderSVGResourcePattern::s_resourceType = PatternResourceType;

	RenderSVGResourcePattern::RenderSVGResourcePattern(SVGPatternElement& element, PassRef<RenderStyle> style)
	: RenderSVGResourceContainer(element, std::move(style))
	, m_shouldCollectPatternAttributes(true)
	{
	}

	SVGPatternElement& RenderSVGResourcePattern::patternElement() const
	{
	return toSVGPatternElement(RenderSVGResourceContainer::element());
	}

	void RenderSVGResourcePattern::removeAllClientsFromCache(bool markForInvalidation)
	{
	m_patternMap.clear();
	m_shouldCollectPatternAttributes = true;
	markAllClientsForInvalidation(markForInvalidation ? RepaintInvalidation : ParentOnlyInvalidation);
	}

	void RenderSVGResourcePattern::removeClientFromCache(RenderObject* client, bool markForInvalidation)
	{
	ASSERT(client);
	m_patternMap.remove(client);
	markClientForInvalidation(client, markForInvalidation ? RepaintInvalidation : ParentOnlyInvalidation);
	}

	PatternData* RenderSVGResourcePattern::buildPattern(RenderObject* object, unsigned short resourceMode)
	{
	PatternData* currentData = m_patternMap.get(object);
	if (currentData && currentData->pattern)
	return currentData;

	if (m_shouldCollectPatternAttributes) {
	patternElement().synchronizeAnimatedSVGAttribute(anyQName());

	m_attributes = PatternAttributes();
	patternElement().collectPatternAttributes(m_attributes);
	m_shouldCollectPatternAttributes = false;
	}

	// If we couldn't determine the pattern content element root, stop here.
	if (!m_attributes.patternContentElement())
	return 0;

	// An empty viewBox disables rendering.
	if (m_attributes.hasViewBox() && m_attributes.viewBox().isEmpty())
	return 0;

	// Compute all necessary transformations to build the tile image & the pattern.
	FloatRect tileBoundaries;
	AffineTransform tileImageTransform;
	if (!buildTileImageTransform(object, m_attributes, patternElement(), tileBoundaries, tileImageTransform))
	return 0;

	AffineTransform absoluteTransformIgnoringRotation;
	SVGRenderingContext::calculateTransformationToOutermostCoordinateSystem(object, absoluteTransformIgnoringRotation);

	// Ignore 2D rotation, as it doesn't affect the size of the tile.
	SVGRenderingContext::clear2DRotation(absoluteTransformIgnoringRotation);
	FloatRect absoluteTileBoundaries = absoluteTransformIgnoringRotation.mapRect(tileBoundaries);
	FloatRect clampedAbsoluteTileBoundaries;

	// Scale the tile size to match the scale level of the patternTransform.
	absoluteTileBoundaries.scale(static_cast<float>(m_attributes.patternTransform().xScale()),
	static_cast<float>(m_attributes.patternTransform().yScale()));

	// Build tile image.
	OwnPtr<ImageBuffer> tileImage = createTileImage(m_attributes, tileBoundaries, absoluteTileBoundaries, tileImageTransform, clampedAbsoluteTileBoundaries);
	if (!tileImage)
	return 0;

	RefPtr<Image> copiedImage = tileImage->copyImage(CopyBackingStore);
	if (!copiedImage)
	return 0;

	// Build pattern.
	OwnPtr<PatternData> patternData = adoptPtr(new PatternData);
	patternData->pattern = Pattern::create(copiedImage, true, true);

	// Compute pattern space transformation.
	const IntSize tileImageSize = tileImage->logicalSize();
	patternData->transform.translate(tileBoundaries.x(), tileBoundaries.y());
	patternData->transform.scale(tileBoundaries.width() / tileImageSize.width(), tileBoundaries.height() / tileImageSize.height());

	AffineTransform patternTransform = m_attributes.patternTransform();
	if (!patternTransform.isIdentity())
	patternData->transform = patternTransform * patternData->transform;

	// Account for text drawing resetting the context to non-scaled, see SVGInlineTextBox::paintTextWithShadows.
	if (resourceMode & ApplyToTextMode) {
	AffineTransform additionalTextTransformation;
	if (shouldTransformOnTextPainting(object, additionalTextTransformation))
	patternData->transform *= additionalTextTransformation;
	}
	patternData->pattern->setPatternSpaceTransform(patternData->transform);

	// Various calls above may trigger invalidations in some fringe cases (ImageBuffer allocation
	// failures in the SVG image cache for example). To avoid having our PatternData deleted by
	// removeAllClientsFromCache(), we only make it visible in the cache at the very end.
	return m_patternMap.set(object, patternData.release()).iterator->value.get();
	}

	bool RenderSVGResourcePattern::applyResource(RenderElement& renderer, const RenderStyle& style, GraphicsContext*& context, unsigned short resourceMode)
	{
	ASSERT(context);
	ASSERT(resourceMode != ApplyToDefaultMode);

	// Spec: When the geometry of the applicable element has no width or height and objectBoundingBox is specified,
	// then the given effect (e.g. a gradient or a filter) will be ignored.
	FloatRect objectBoundingBox = renderer.objectBoundingBox();
	if (m_attributes.patternUnits() == SVGUnitTypes::SVG_UNIT_TYPE_OBJECTBOUNDINGBOX && objectBoundingBox.isEmpty())
	return false;

	PatternData* patternData = buildPattern(&renderer, resourceMode);
	if (!patternData)
	return false;

	// Draw pattern
	context->save();

	const SVGRenderStyle* svgStyle = style.svgStyle();
	ASSERT(svgStyle);

	if (resourceMode & ApplyToFillMode) {
	context->setAlpha(svgStyle->fillOpacity());
	context->setFillPattern(patternData->pattern);
	context->setFillRule(svgStyle->fillRule());
	} else if (resourceMode & ApplyToStrokeMode) {
	if (svgStyle->vectorEffect() == VE_NON_SCALING_STROKE)
	patternData->pattern->setPatternSpaceTransform(transformOnNonScalingStroke(&renderer, patternData->transform));
	context->setAlpha(svgStyle->strokeOpacity());
	context->setStrokePattern(patternData->pattern);
	SVGRenderSupport::applyStrokeStyleToContext(context, style, renderer);
	}

	if (resourceMode & ApplyToTextMode) {
	if (resourceMode & ApplyToFillMode) {
	context->setTextDrawingMode(TextModeFill);

	#if USE(CG)
	context->applyFillPattern();
	#endif
	} else if (resourceMode & ApplyToStrokeMode) {
	context->setTextDrawingMode(TextModeStroke);

	#if USE(CG)
	context->applyStrokePattern();
	#endif
	}
	}

	return true;
	}

	void RenderSVGResourcePattern::postApplyResource(RenderElement&, GraphicsContext& context, unsigned short resourceMode, const Path path, const RenderSVGShape* shape)
	{
	ASSERT(context);
	ASSERT(resourceMode != ApplyToDefaultMode);

	if (resourceMode & ApplyToFillMode) {
	if (path)
	context->fillPath(*path);
	else if (shape)
	shape->fillShape(context);
	}
	if (resourceMode & ApplyToStrokeMode) {
	if (path)
	context->strokePath(*path);
	else if (shape)
	shape->strokeShape(context);
	}

	context->restore();
	}

	static inline FloatRect calculatePatternBoundaries(const PatternAttributes& attributes,
	const FloatRect& objectBoundingBox,
	const SVGPatternElement& patternElement)
	{
	return SVGLengthContext::resolveRectangle(&patternElement, attributes.patternUnits(), objectBoundingBox, attributes.x(), attributes.y(), attributes.width(), attributes.height());
	}

	bool RenderSVGResourcePattern::buildTileImageTransform(RenderObject* renderer,
	const PatternAttributes& attributes,
	const SVGPatternElement& patternElement,
	FloatRect& patternBoundaries,
	AffineTransform& tileImageTransform) const
	{
	ASSERT(renderer);

	FloatRect objectBoundingBox = renderer->objectBoundingBox();
	patternBoundaries = calculatePatternBoundaries(attributes, objectBoundingBox, patternElement);
	if (patternBoundaries.width() <= 0 \|\| patternBoundaries.height() <= 0)
	return false;

	AffineTransform viewBoxCTM = SVGFitToViewBox::viewBoxToViewTransform(attributes.viewBox(), attributes.preserveAspectRatio(), patternBoundaries.width(), patternBoundaries.height());

	// Apply viewBox/objectBoundingBox transformations.
	if (!viewBoxCTM.isIdentity())
	tileImageTransform = viewBoxCTM;
	else if (attributes.patternContentUnits() == SVGUnitTypes::SVG_UNIT_TYPE_OBJECTBOUNDINGBOX)
	tileImageTransform.scale(objectBoundingBox.width(), objectBoundingBox.height());

	return true;
	}

	PassOwnPtr<ImageBuffer> RenderSVGResourcePattern::createTileImage(const PatternAttributes& attributes,
	const FloatRect& tileBoundaries,
	const FloatRect& absoluteTileBoundaries,
	const AffineTransform& tileImageTransform,
	FloatRect& clampedAbsoluteTileBoundaries) const
	{
	clampedAbsoluteTileBoundaries = SVGRenderingContext::clampedAbsoluteTargetRect(absoluteTileBoundaries);

	OwnPtr<ImageBuffer> tileImage;

	if (!SVGRenderingContext::createImageBufferForPattern(absoluteTileBoundaries, clampedAbsoluteTileBoundaries, tileImage, ColorSpaceDeviceRGB, Unaccelerated))
	return nullptr;

	GraphicsContext* tileImageContext = tileImage->context();
	ASSERT(tileImageContext);

	// The image buffer represents the final rendered size, so the content has to be scaled (to avoid pixelation).
	tileImageContext->scale(FloatSize(clampedAbsoluteTileBoundaries.width() / tileBoundaries.width(),
	clampedAbsoluteTileBoundaries.height() / tileBoundaries.height()));

	// Apply tile image transformations.
	if (!tileImageTransform.isIdentity())
	tileImageContext->concatCTM(tileImageTransform);

	AffineTransform contentTransformation;
	if (attributes.patternContentUnits() == SVGUnitTypes::SVG_UNIT_TYPE_OBJECTBOUNDINGBOX)
	contentTransformation = tileImageTransform;

	// Draw the content into the ImageBuffer.
	auto children = childrenOfType<SVGElement>(*attributes.patternContentElement());
	for (auto it = children.begin(), end = children.end(); it != end; ++it) {
	const SVGElement& child = *it;
	if (!child.renderer())
	continue;
	if (child.renderer()->needsLayout())
	return nullptr;
	SVGRenderingContext::renderSubtreeToImageBuffer(tileImage.get(), *child.renderer(), contentTransformation);
	}

	return tileImage.release();
	}

	}

	#endif