/*
* Copyright (C) 2004, 2005, 2006, 2008 Nikolas Zimmermann <zimmermann@kde.org>
* Copyright (C) 2004, 2005, 2006, 2007 Rob Buis <buis@kde.org>
* Copyright (C) 2008 Eric Seidel <eric@webkit.org>
* Copyright (C) 2008 Dirk Schulze <krit@webkit.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 "SVGRadialGradientElement.h"
#include "Attribute.h"
#include "FloatConversion.h"
#include "FloatPoint.h"
#include "RadialGradientAttributes.h"
#include "RenderSVGResourceRadialGradient.h"
#include "SVGNames.h"
#include "SVGStopElement.h"
#include "SVGTransform.h"
#include "SVGTransformList.h"
#include "SVGUnitTypes.h"
namespace WebCore {
// Animated property definitions
DEFINE_ANIMATED_LENGTH(SVGRadialGradientElement, SVGNames::cxAttr, Cx, cx)
DEFINE_ANIMATED_LENGTH(SVGRadialGradientElement, SVGNames::cyAttr, Cy, cy)
DEFINE_ANIMATED_LENGTH(SVGRadialGradientElement, SVGNames::rAttr, R, r)
DEFINE_ANIMATED_LENGTH(SVGRadialGradientElement, SVGNames::fxAttr, Fx, fx)
DEFINE_ANIMATED_LENGTH(SVGRadialGradientElement, SVGNames::fyAttr, Fy, fy)
inline SVGRadialGradientElement::SVGRadialGradientElement(const QualifiedName& tagName, Document* document)
: SVGGradientElement(tagName, document)
, m_cx(LengthModeWidth, "50%")
, m_cy(LengthModeHeight, "50%")
, m_r(LengthModeOther, "50%")
, m_fx(LengthModeWidth)
, m_fy(LengthModeHeight)
{
// Spec: If the cx/cy/r attribute is not specified, the effect is as if a value of "50%" were specified.
}
PassRefPtr<SVGRadialGradientElement> SVGRadialGradientElement::create(const QualifiedName& tagName, Document* document)
{
return adoptRef(new SVGRadialGradientElement(tagName, document));
}
void SVGRadialGradientElement::parseMappedAttribute(Attribute* attr)
{
if (attr->name() == SVGNames::cxAttr)
setCxBaseValue(SVGLength(LengthModeWidth, attr->value()));
else if (attr->name() == SVGNames::cyAttr)
setCyBaseValue(SVGLength(LengthModeHeight, attr->value()));
else if (attr->name() == SVGNames::rAttr) {
setRBaseValue(SVGLength(LengthModeOther, attr->value()));
if (rBaseValue().value(this) < 0.0)
document()->accessSVGExtensions()->reportError("A negative value for radial gradient radius <r> is not allowed");
} else if (attr->name() == SVGNames::fxAttr)
setFxBaseValue(SVGLength(LengthModeWidth, attr->value()));
else if (attr->name() == SVGNames::fyAttr)
setFyBaseValue(SVGLength(LengthModeHeight, attr->value()));
else
SVGGradientElement::parseMappedAttribute(attr);
}
void SVGRadialGradientElement::svgAttributeChanged(const QualifiedName& attrName)
{
SVGGradientElement::svgAttributeChanged(attrName);
if (attrName == SVGNames::cxAttr
|| attrName == SVGNames::cyAttr
|| attrName == SVGNames::fxAttr
|| attrName == SVGNames::fyAttr
|| attrName == SVGNames::rAttr) {
updateRelativeLengthsInformation();
RenderObject* object = renderer();
if (!object)
return;
object->setNeedsLayout(true);
}
}
void SVGRadialGradientElement::synchronizeProperty(const QualifiedName& attrName)
{
SVGGradientElement::synchronizeProperty(attrName);
if (attrName == anyQName()) {
synchronizeCx();
synchronizeCy();
synchronizeFx();
synchronizeFy();
synchronizeR();
return;
}
if (attrName == SVGNames::cxAttr)
synchronizeCx();
else if (attrName == SVGNames::cyAttr)
synchronizeCy();
else if (attrName == SVGNames::fxAttr)
synchronizeFx();
else if (attrName == SVGNames::fyAttr)
synchronizeFy();
else if (attrName == SVGNames::rAttr)
synchronizeR();
}
AttributeToPropertyTypeMap& SVGRadialGradientElement::attributeToPropertyTypeMap()
{
DEFINE_STATIC_LOCAL(AttributeToPropertyTypeMap, s_attributeToPropertyTypeMap, ());
return s_attributeToPropertyTypeMap;
}
void SVGRadialGradientElement::fillAttributeToPropertyTypeMap()
{
AttributeToPropertyTypeMap& attributeToPropertyTypeMap = this->attributeToPropertyTypeMap();
SVGGradientElement::fillPassedAttributeToPropertyTypeMap(attributeToPropertyTypeMap);
attributeToPropertyTypeMap.set(SVGNames::cxAttr, AnimatedLength);
attributeToPropertyTypeMap.set(SVGNames::cyAttr, AnimatedLength);
attributeToPropertyTypeMap.set(SVGNames::rAttr, AnimatedLength);
attributeToPropertyTypeMap.set(SVGNames::fxAttr, AnimatedLength);
attributeToPropertyTypeMap.set(SVGNames::fyAttr, AnimatedLength);
}
RenderObject* SVGRadialGradientElement::createRenderer(RenderArena* arena, RenderStyle*)
{
return new (arena) RenderSVGResourceRadialGradient(this);
}
void SVGRadialGradientElement::collectGradientAttributes(RadialGradientAttributes& attributes)
{
HashSet<SVGGradientElement*> processedGradients;
bool isRadial = true;
SVGGradientElement* current = this;
while (current) {
if (!attributes.hasSpreadMethod() && current->hasAttribute(SVGNames::spreadMethodAttr))
attributes.setSpreadMethod((GradientSpreadMethod) current->spreadMethod());
if (!attributes.hasBoundingBoxMode() && current->hasAttribute(SVGNames::gradientUnitsAttr))
attributes.setBoundingBoxMode(current->gradientUnits() == SVGUnitTypes::SVG_UNIT_TYPE_OBJECTBOUNDINGBOX);
if (!attributes.hasGradientTransform() && current->hasAttribute(SVGNames::gradientTransformAttr)) {
AffineTransform transform;
current->gradientTransform().concatenate(transform);
attributes.setGradientTransform(transform);
}
if (!attributes.hasStops()) {
const Vector<Gradient::ColorStop>& stops(current->buildStops());
if (!stops.isEmpty())
attributes.setStops(stops);
}
if (isRadial) {
SVGRadialGradientElement* radial = static_cast<SVGRadialGradientElement*>(current);
if (!attributes.hasCx() && current->hasAttribute(SVGNames::cxAttr))
attributes.setCx(radial->cx());
if (!attributes.hasCy() && current->hasAttribute(SVGNames::cyAttr))
attributes.setCy(radial->cy());
if (!attributes.hasR() && current->hasAttribute(SVGNames::rAttr))
attributes.setR(radial->r());
if (!attributes.hasFx() && current->hasAttribute(SVGNames::fxAttr))
attributes.setFx(radial->fx());
if (!attributes.hasFy() && current->hasAttribute(SVGNames::fyAttr))
attributes.setFy(radial->fy());
}
processedGradients.add(current);
// Respect xlink:href, take attributes from referenced element
Node* refNode = ownerDocument()->getElementById(SVGURIReference::getTarget(current->href()));
if (refNode && (refNode->hasTagName(SVGNames::radialGradientTag) || refNode->hasTagName(SVGNames::linearGradientTag))) {
current = static_cast<SVGGradientElement*>(refNode);
// Cycle detection
if (processedGradients.contains(current)) {
current = 0;
break;
}
isRadial = current->hasTagName(SVGNames::radialGradientTag);
} else
current = 0;
}
// Handle default values for fx/fy
if (!attributes.hasFx())
attributes.setFx(attributes.cx());
if (!attributes.hasFy())
attributes.setFy(attributes.cy());
}
void SVGRadialGradientElement::calculateFocalCenterPointsAndRadius(const RadialGradientAttributes& attributes, FloatPoint& focalPoint, FloatPoint& centerPoint, float& radius)
{
// Determine gradient focal/center points and radius
if (attributes.boundingBoxMode()) {
focalPoint = FloatPoint(attributes.fx().valueAsPercentage(), attributes.fy().valueAsPercentage());
centerPoint = FloatPoint(attributes.cx().valueAsPercentage(), attributes.cy().valueAsPercentage());
radius = attributes.r().valueAsPercentage();
} else {
focalPoint = FloatPoint(attributes.fx().value(this), attributes.fy().value(this));
centerPoint = FloatPoint(attributes.cx().value(this), attributes.cy().value(this));
radius = attributes.r().value(this);
}
// Eventually adjust focal points, as described below
float deltaX = focalPoint.x() - centerPoint.x();
float deltaY = focalPoint.y() - centerPoint.y();
float radiusMax = 0.99f * radius;
// Spec: If (fx, fy) lies outside the circle defined by (cx, cy) and r, set
// (fx, fy) to the point of intersection of the line through (fx, fy) and the circle.
// We scale the radius by 0.99 to match the behavior of FireFox.
if (sqrt(deltaX * deltaX + deltaY * deltaY) > radiusMax) {
float angle = atan2f(deltaY, deltaX);
deltaX = cosf(angle) * radiusMax;
deltaY = sinf(angle) * radiusMax;
focalPoint = FloatPoint(deltaX + centerPoint.x(), deltaY + centerPoint.y());
}
}
bool SVGRadialGradientElement::selfHasRelativeLengths() const
{
return cy().isRelative()
|| cy().isRelative()
|| r().isRelative()
|| fx().isRelative()
|| fy().isRelative();
}
}
#endif // ENABLE(SVG)