/* * Copyright (C) 2004, 2005 Nikolas Zimmermann * Copyright (C) 2004, 2005, 2006, 2007 Rob Buis * Copyright (C) 2007 Eric Seidel * Copyright (C) 2008 Apple Inc. All rights reserved. * Copyright (C) 2009 Cameron McCormack * 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_ANIMATION) #include "SVGAnimationElement.h" #include "Attribute.h" #include "CSSComputedStyleDeclaration.h" #include "CSSParser.h" #include "CSSPropertyNames.h" #include "Color.h" #include "Document.h" #include "Event.h" #include "EventListener.h" #include "FloatConversion.h" #include "HTMLNames.h" #include "PlatformString.h" #include "RenderObject.h" #include "SVGElementInstance.h" #include "SVGNames.h" #include "SVGParserUtilities.h" #include "SVGURIReference.h" #include "SVGUseElement.h" #include "XLinkNames.h" #include #include using namespace std; namespace WebCore { SVGAnimationElement::SVGAnimationElement(const QualifiedName& tagName, Document* doc) : SVGSMILElement(tagName, doc) , SVGTests() , SVGExternalResourcesRequired() , m_animationValid(false) { } SVGAnimationElement::~SVGAnimationElement() { } static void parseKeyTimes(const String& parse, Vector& result, bool verifyOrder) { result.clear(); Vector parseList; parse.split(';', parseList); for (unsigned n = 0; n < parseList.size(); ++n) { String timeString = parseList[n]; bool ok; float time = timeString.toFloat(&ok); if (!ok || time < 0 || time > 1.f) goto fail; if (verifyOrder) { if (!n) { if (time != 0) goto fail; } else if (time < result.last()) goto fail; } result.append(time); } return; fail: result.clear(); } static void parseKeySplines(const String& parse, Vector& result) { result.clear(); if (parse.isEmpty()) return; const UChar* cur = parse.characters(); const UChar* end = cur + parse.length(); skipOptionalSpaces(cur, end); bool delimParsed = false; while (cur < end) { delimParsed = false; float posA = 0.0f; if (!parseNumber(cur, end, posA)) { result.clear(); return; } float posB = 0.0f; if (!parseNumber(cur, end, posB)) { result.clear(); return; } float posC = 0.0f; if (!parseNumber(cur, end, posC)) { result.clear(); return; } float posD = 0.0f; if (!parseNumber(cur, end, posD, false)) { result.clear(); return; } skipOptionalSpaces(cur, end); if (cur < end && *cur == ';') { delimParsed = true; cur++; } skipOptionalSpaces(cur, end); result.append(UnitBezier(posA, posB, posC, posD)); } if (!(cur == end && !delimParsed)) result.clear(); } void SVGAnimationElement::parseMappedAttribute(Attribute* attr) { if (attr->name() == SVGNames::valuesAttr) attr->value().string().split(';', m_values); else if (attr->name() == SVGNames::keyTimesAttr) parseKeyTimes(attr->value(), m_keyTimes, true); else if (attr->name() == SVGNames::keyPointsAttr && hasTagName(SVGNames::animateMotionTag)) { // This is specified to be an animateMotion attribute only but it is simpler to put it here // where the other timing calculatations are. parseKeyTimes(attr->value(), m_keyPoints, false); } else if (attr->name() == SVGNames::keySplinesAttr) parseKeySplines(attr->value(), m_keySplines); else { if (SVGTests::parseMappedAttribute(attr)) return; if (SVGExternalResourcesRequired::parseMappedAttribute(attr)) return; SVGSMILElement::parseMappedAttribute(attr); } } void SVGAnimationElement::attributeChanged(Attribute* attr, bool preserveDecls) { // Assumptions may not hold after an attribute change. m_animationValid = false; SVGSMILElement::attributeChanged(attr, preserveDecls); } void SVGAnimationElement::synchronizeProperty(const QualifiedName& attrName) { SVGSMILElement::synchronizeProperty(attrName); if (attrName == anyQName() || SVGExternalResourcesRequired::isKnownAttribute(attrName)) synchronizeExternalResourcesRequired(); } float SVGAnimationElement::getStartTime() const { return narrowPrecisionToFloat(intervalBegin().value()); } float SVGAnimationElement::getCurrentTime() const { return narrowPrecisionToFloat(elapsed().value()); } float SVGAnimationElement::getSimpleDuration(ExceptionCode&) const { return narrowPrecisionToFloat(simpleDuration().value()); } void SVGAnimationElement::beginElement() { beginElementAt(0); } void SVGAnimationElement::beginElementAt(float offset) { addBeginTime(elapsed() + offset); } void SVGAnimationElement::endElement() { endElementAt(0); } void SVGAnimationElement::endElementAt(float offset) { addEndTime(elapsed() + offset); } SVGAnimationElement::AnimationMode SVGAnimationElement::animationMode() const { // http://www.w3.org/TR/2001/REC-smil-animation-20010904/#AnimFuncValues if (hasTagName(SVGNames::setTag)) return ToAnimation; if (!animationPath().isEmpty()) return PathAnimation; if (hasAttribute(SVGNames::valuesAttr)) return ValuesAnimation; if (!toValue().isEmpty()) return fromValue().isEmpty() ? ToAnimation : FromToAnimation; if (!byValue().isEmpty()) return fromValue().isEmpty() ? ByAnimation : FromByAnimation; return NoAnimation; } SVGAnimationElement::CalcMode SVGAnimationElement::calcMode() const { DEFINE_STATIC_LOCAL(const AtomicString, discrete, ("discrete")); DEFINE_STATIC_LOCAL(const AtomicString, linear, ("linear")); DEFINE_STATIC_LOCAL(const AtomicString, paced, ("paced")); DEFINE_STATIC_LOCAL(const AtomicString, spline, ("spline")); const AtomicString& value = getAttribute(SVGNames::calcModeAttr); if (value == discrete) return CalcModeDiscrete; if (value == linear) return CalcModeLinear; if (value == paced) return CalcModePaced; if (value == spline) return CalcModeSpline; return hasTagName(SVGNames::animateMotionTag) ? CalcModePaced : CalcModeLinear; } SVGAnimationElement::AttributeType SVGAnimationElement::attributeType() const { DEFINE_STATIC_LOCAL(const AtomicString, css, ("CSS")); DEFINE_STATIC_LOCAL(const AtomicString, xml, ("XML")); const AtomicString& value = getAttribute(SVGNames::attributeTypeAttr); if (value == css) return AttributeTypeCSS; if (value == xml) return AttributeTypeXML; return AttributeTypeAuto; } String SVGAnimationElement::toValue() const { return getAttribute(SVGNames::toAttr); } String SVGAnimationElement::byValue() const { return getAttribute(SVGNames::byAttr); } String SVGAnimationElement::fromValue() const { return getAttribute(SVGNames::fromAttr); } bool SVGAnimationElement::isAdditive() const { DEFINE_STATIC_LOCAL(const AtomicString, sum, ("sum")); const AtomicString& value = getAttribute(SVGNames::additiveAttr); return value == sum || animationMode() == ByAnimation; } bool SVGAnimationElement::isAccumulated() const { DEFINE_STATIC_LOCAL(const AtomicString, sum, ("sum")); const AtomicString& value = getAttribute(SVGNames::accumulateAttr); return value == sum && animationMode() != ToAnimation; } bool SVGAnimationElement::hasValidTarget() const { return targetElement(); } bool SVGAnimationElement::attributeIsCSS(const String& attributeName) { // FIXME: We should have a map of all SVG properties and their attribute types so we // could validate animations better. The spec is very vague about this. unsigned id = cssPropertyID(attributeName); // SVG range if (id >= CSSPropertyClipPath && id <= CSSPropertyWritingMode) return true; // Regular CSS properties also in SVG return id == CSSPropertyColor || id == CSSPropertyDisplay || id == CSSPropertyOpacity || (id >= CSSPropertyFont && id <= CSSPropertyFontWeight) || id == CSSPropertyOverflow || id == CSSPropertyVisibility; } bool SVGAnimationElement::targetAttributeIsCSS() const { AttributeType type = attributeType(); if (type == AttributeTypeCSS) return true; if (type == AttributeTypeXML) return false; return attributeIsCSS(attributeName()); } void SVGAnimationElement::setTargetAttributeAnimatedValue(const String& value) { if (!hasValidTarget()) return; SVGElement* target = targetElement(); String attributeName = this->attributeName(); if (!target || attributeName.isEmpty() || value.isNull()) return; // We don't want the instance tree to get rebuild. Instances are updated in the loop below. if (target->isStyled()) static_cast(target)->setInstanceUpdatesBlocked(true); ExceptionCode ec; bool isCSS = targetAttributeIsCSS(); if (isCSS) { // FIXME: This should set the override style, not the inline style. // Sadly override styles are not yet implemented. target->style()->setProperty(attributeName, value, "", ec); } else { // FIXME: This should set the 'presentation' value, not the actual // attribute value. Whatever that means in practice. target->setAttribute(attributeName, value, ec); } if (target->isStyled()) static_cast(target)->setInstanceUpdatesBlocked(false); // If the target element is used in an instance tree, update that as well. const HashSet& instances = target->instancesForElement(); const HashSet::const_iterator end = instances.end(); for (HashSet::const_iterator it = instances.begin(); it != end; ++it) { SVGElement* shadowTreeElement = (*it)->shadowTreeElement(); ASSERT(shadowTreeElement); if (isCSS) shadowTreeElement->style()->setProperty(attributeName, value, "", ec); else shadowTreeElement->setAttribute(attributeName, value, ec); (*it)->correspondingUseElement()->setNeedsStyleRecalc(); } } void SVGAnimationElement::calculateKeyTimesForCalcModePaced() { ASSERT(calcMode() == CalcModePaced); ASSERT(animationMode() == ValuesAnimation); unsigned valuesCount = m_values.size(); ASSERT(valuesCount > 1); Vector keyTimesForPaced; float totalDistance = 0; keyTimesForPaced.append(0); for (unsigned n = 0; n < valuesCount - 1; ++n) { // Distance in any units float distance = calculateDistance(m_values[n], m_values[n + 1]); if (distance < 0) return; totalDistance += distance; keyTimesForPaced.append(distance); } if (!totalDistance) return; // Normalize. for (unsigned n = 1; n < keyTimesForPaced.size() - 1; ++n) keyTimesForPaced[n] = keyTimesForPaced[n - 1] + keyTimesForPaced[n] / totalDistance; keyTimesForPaced[keyTimesForPaced.size() - 1] = 1.f; // Use key times calculated based on pacing instead of the user provided ones. m_keyTimes.swap(keyTimesForPaced); } static inline double solveEpsilon(double duration) { return 1. / (200. * duration); } float SVGAnimationElement::calculatePercentForSpline(float percent, unsigned splineIndex) const { ASSERT(calcMode() == CalcModeSpline); ASSERT(splineIndex < m_keySplines.size()); UnitBezier bezier = m_keySplines[splineIndex]; SMILTime duration = simpleDuration(); if (!duration.isFinite()) duration = 100.0; return narrowPrecisionToFloat(bezier.solve(percent, solveEpsilon(duration.value()))); } float SVGAnimationElement::calculatePercentFromKeyPoints(float percent) const { ASSERT(!m_keyPoints.isEmpty()); ASSERT(calcMode() != CalcModePaced); unsigned keyTimesCount = m_keyTimes.size(); ASSERT(keyTimesCount > 1); ASSERT(m_keyPoints.size() == keyTimesCount); unsigned index; for (index = 1; index < keyTimesCount; ++index) { if (m_keyTimes[index] >= percent) break; } --index; float fromPercent = m_keyTimes[index]; float toPercent = m_keyTimes[index + 1]; float fromKeyPoint = m_keyPoints[index]; float toKeyPoint = m_keyPoints[index + 1]; if (calcMode() == CalcModeDiscrete) return percent == 1.0f ? toKeyPoint : fromKeyPoint; float keyPointPercent = percent == 1.0f ? 1.0f : (percent - fromPercent) / (toPercent - fromPercent); if (calcMode() == CalcModeSpline) { ASSERT(m_keySplines.size() == m_keyPoints.size() - 1); keyPointPercent = calculatePercentForSpline(keyPointPercent, index); } return (toKeyPoint - fromKeyPoint) * keyPointPercent + fromKeyPoint; } void SVGAnimationElement::currentValuesFromKeyPoints(float percent, float& effectivePercent, String& from, String& to) const { ASSERT(!m_keyPoints.isEmpty()); ASSERT(m_keyPoints.size() == m_keyTimes.size()); ASSERT(calcMode() != CalcModePaced); effectivePercent = calculatePercentFromKeyPoints(percent); unsigned index = effectivePercent == 1.0f ? m_values.size() - 2 : static_cast(effectivePercent * (m_values.size() - 1)); from = m_values[index]; to = m_values[index + 1]; } void SVGAnimationElement::currentValuesForValuesAnimation(float percent, float& effectivePercent, String& from, String& to) const { unsigned valuesCount = m_values.size(); ASSERT(m_animationValid); ASSERT(valuesCount > 1); CalcMode calcMode = this->calcMode(); if (!m_keyPoints.isEmpty() && calcMode != CalcModePaced) return currentValuesFromKeyPoints(percent, effectivePercent, from, to); unsigned keyTimesCount = m_keyTimes.size(); ASSERT(!keyTimesCount || valuesCount == keyTimesCount); ASSERT(!keyTimesCount || (keyTimesCount > 1 && m_keyTimes[0] == 0)); unsigned index; for (index = 1; index < keyTimesCount; ++index) { if (m_keyTimes[index] >= percent) break; } --index; if (calcMode == CalcModeDiscrete) { if (!keyTimesCount) index = percent == 1.0f ? valuesCount - 1 : static_cast(percent * valuesCount); from = m_values[index]; to = m_values[index]; effectivePercent = 0.0f; return; } float fromPercent; float toPercent; if (keyTimesCount) { fromPercent = m_keyTimes[index]; toPercent = m_keyTimes[index + 1]; } else { index = static_cast(percent * (valuesCount - 1)); fromPercent = static_cast(index) / (valuesCount - 1); toPercent = static_cast(index + 1) / (valuesCount - 1); } if (index == valuesCount - 1) --index; from = m_values[index]; to = m_values[index + 1]; ASSERT(toPercent > fromPercent); effectivePercent = percent == 1.0f ? 1.0f : (percent - fromPercent) / (toPercent - fromPercent); if (calcMode == CalcModeSpline) { ASSERT(m_keySplines.size() == m_values.size() - 1); effectivePercent = calculatePercentForSpline(effectivePercent, index); } } static inline void adjustForCurrentColor(String& value, SVGElement* target) { if (!target || !target->isStyled() || value != "currentColor") return; if (RenderObject* targetRenderer = target->renderer()) value = targetRenderer->style()->visitedDependentColor(CSSPropertyColor).name(); } void SVGAnimationElement::startedActiveInterval() { m_animationValid = false; if (!hasValidTarget()) return; // These validations are appropriate for all animation modes. if (hasAttribute(SVGNames::keyPointsAttr) && m_keyPoints.size() != m_keyTimes.size()) return; CalcMode calcMode = this->calcMode(); if (calcMode == CalcModeSpline) { unsigned num = m_keySplines.size() + 1; if ((hasAttribute(SVGNames::keyPointsAttr) && m_keyPoints.size() != num) || m_values.size() != num) return; } String from = fromValue(); String to = toValue(); String by = byValue(); SVGElement* target = targetElement(); AnimationMode animationMode = this->animationMode(); if (animationMode == NoAnimation) return; if (animationMode == FromToAnimation) { adjustForCurrentColor(from, target); adjustForCurrentColor(to, target); m_animationValid = calculateFromAndToValues(from, to); } else if (animationMode == ToAnimation) { // For to-animations the from value is the current accumulated value from lower priority animations. // The value is not static and is determined during the animation. adjustForCurrentColor(to, target); m_animationValid = calculateFromAndToValues(String(), to); } else if (animationMode == FromByAnimation) { adjustForCurrentColor(from, target); adjustForCurrentColor(by, target); m_animationValid = calculateFromAndByValues(from, by); } else if (animationMode == ByAnimation) { adjustForCurrentColor(by, target); m_animationValid = calculateFromAndByValues(String(), by); } else if (animationMode == ValuesAnimation) { m_animationValid = m_values.size() > 1 && (calcMode == CalcModePaced || !hasAttribute(SVGNames::keyTimesAttr) || hasAttribute(SVGNames::keyPointsAttr) || (m_values.size() == m_keyTimes.size())) && (calcMode == CalcModeDiscrete || !m_keyTimes.size() || m_keyTimes.last() == 1.0) && (calcMode != CalcModeSpline || ((m_keySplines.size() && (m_keySplines.size() == m_values.size() - 1)) || m_keySplines.size() == m_keyPoints.size() - 1)) && (!hasAttribute(SVGNames::keyPointsAttr) || (m_keyTimes.size() > 1 && m_keyTimes.size() == m_keyPoints.size())); if (calcMode == CalcModePaced && m_animationValid) calculateKeyTimesForCalcModePaced(); } else if (animationMode == PathAnimation) m_animationValid = calcMode == CalcModePaced || !hasAttribute(SVGNames::keyPointsAttr) || (m_keyTimes.size() > 1 && m_keyTimes.size() == m_keyPoints.size()); } void SVGAnimationElement::updateAnimation(float percent, unsigned repeat, SVGSMILElement* resultElement) { if (!m_animationValid) return; float effectivePercent; if (animationMode() == ValuesAnimation) { String from; String to; currentValuesForValuesAnimation(percent, effectivePercent, from, to); if (from != m_lastValuesAnimationFrom || to != m_lastValuesAnimationTo ) { m_animationValid = calculateFromAndToValues(from, to); if (!m_animationValid) return; m_lastValuesAnimationFrom = from; m_lastValuesAnimationTo = to; } } else if (!m_keyPoints.isEmpty() && calcMode() != CalcModePaced) effectivePercent = calculatePercentFromKeyPoints(percent); else effectivePercent = percent; calculateAnimatedValue(effectivePercent, repeat, resultElement); } void SVGAnimationElement::endedActiveInterval() { } } // vim:ts=4:noet #endif // ENABLE(SVG_ANIMATION)