/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/dom/SVGElement.h" #include "mozilla/dom/MutationEventBinding.h" #include "mozilla/dom/SVGAnimatedEnumeration.h" #include "mozilla/dom/SVGElementBinding.h" #include "mozilla/dom/SVGGeometryElement.h" #include "mozilla/dom/SVGLengthBinding.h" #include "mozilla/dom/SVGSVGElement.h" #include "mozilla/dom/SVGTests.h" #include "mozilla/dom/SVGUnitTypesBinding.h" #include "mozilla/ArrayUtils.h" #include "mozilla/DebugOnly.h" #include "mozilla/DeclarationBlock.h" #include "mozilla/EventListenerManager.h" #include "mozilla/InternalMutationEvent.h" #include "mozilla/RestyleManager.h" #include "mozilla/SMILAnimationController.h" #include "mozilla/SVGContentUtils.h" #include "mozilla/Unused.h" #include "mozAutoDocUpdate.h" #include "nsAttrValueOrString.h" #include "nsCSSProps.h" #include "nsContentUtils.h" #include "nsICSSDeclaration.h" #include "nsIContentInlines.h" #include "mozilla/dom/Document.h" #include "nsError.h" #include "nsGkAtoms.h" #include "nsIPresShell.h" #include "nsIFrame.h" #include "nsQueryObject.h" #include "nsLayoutUtils.h" #include "SVGAnimatedNumberList.h" #include "SVGAnimatedLengthList.h" #include "SVGAnimatedPointList.h" #include "SVGAnimatedPathSegList.h" #include "SVGAnimatedTransformList.h" #include "SVGBoolean.h" #include "SVGEnum.h" #include "SVGInteger.h" #include "SVGIntegerPair.h" #include "nsSVGLength2.h" #include "SVGMotionSMILAttr.h" #include "nsSVGNumber2.h" #include "SVGNumberPair.h" #include "SVGOrient.h" #include "SVGString.h" #include "SVGViewBox.h" #include // This is needed to ensure correct handling of calls to the // vararg-list methods in this file: // SVGElement::GetAnimated{Length,Number,Integer}Values // See bug 547964 for details: static_assert(sizeof(void*) == sizeof(nullptr), "nullptr should be the correct size"); nsresult NS_NewSVGElement( Element** aResult, already_AddRefed&& aNodeInfo) { RefPtr it = new mozilla::dom::SVGElement(std::move(aNodeInfo)); nsresult rv = it->Init(); if (NS_FAILED(rv)) { return rv; } it.forget(aResult); return rv; } namespace mozilla { namespace dom { using namespace SVGUnitTypes_Binding; NS_IMPL_ELEMENT_CLONE_WITH_INIT(SVGElement) SVGEnumMapping SVGElement::sSVGUnitTypesMap[] = { {nsGkAtoms::userSpaceOnUse, SVG_UNIT_TYPE_USERSPACEONUSE}, {nsGkAtoms::objectBoundingBox, SVG_UNIT_TYPE_OBJECTBOUNDINGBOX}, {nullptr, 0}}; SVGElement::SVGElement(already_AddRefed&& aNodeInfo) : SVGElementBase(std::move(aNodeInfo)) {} SVGElement::~SVGElement() { OwnerDoc()->UnscheduleSVGForPresAttrEvaluation(this); } JSObject* SVGElement::WrapNode(JSContext* aCx, JS::Handle aGivenProto) { return SVGElement_Binding::Wrap(aCx, this, aGivenProto); } //---------------------------------------------------------------------- // SVGElement methods void SVGElement::DidAnimateClass() { // For Servo, snapshot the element before we change it. nsIPresShell* shell = OwnerDoc()->GetShell(); if (shell) { nsPresContext* presContext = shell->GetPresContext(); if (presContext) { presContext->RestyleManager()->ClassAttributeWillBeChangedBySMIL(this); } } nsAutoString src; mClassAttribute.GetAnimValue(src, this); if (!mClassAnimAttr) { mClassAnimAttr = new nsAttrValue(); } mClassAnimAttr->ParseAtomArray(src); if (shell) { shell->RestyleForAnimation(this, eRestyle_Self); } } nsresult SVGElement::Init() { // Set up length attributes - can't do this in the constructor // because we can't do a virtual call at that point LengthAttributesInfo lengthInfo = GetLengthInfo(); uint32_t i; for (i = 0; i < lengthInfo.mLengthCount; i++) { lengthInfo.Reset(i); } NumberAttributesInfo numberInfo = GetNumberInfo(); for (i = 0; i < numberInfo.mNumberCount; i++) { numberInfo.Reset(i); } NumberPairAttributesInfo numberPairInfo = GetNumberPairInfo(); for (i = 0; i < numberPairInfo.mNumberPairCount; i++) { numberPairInfo.Reset(i); } IntegerAttributesInfo integerInfo = GetIntegerInfo(); for (i = 0; i < integerInfo.mIntegerCount; i++) { integerInfo.Reset(i); } IntegerPairAttributesInfo integerPairInfo = GetIntegerPairInfo(); for (i = 0; i < integerPairInfo.mIntegerPairCount; i++) { integerPairInfo.Reset(i); } BooleanAttributesInfo booleanInfo = GetBooleanInfo(); for (i = 0; i < booleanInfo.mBooleanCount; i++) { booleanInfo.Reset(i); } EnumAttributesInfo enumInfo = GetEnumInfo(); for (i = 0; i < enumInfo.mEnumCount; i++) { enumInfo.Reset(i); } SVGOrient* orient = GetOrient(); if (orient) { orient->Init(); } SVGViewBox* viewBox = GetViewBox(); if (viewBox) { viewBox->Init(); } SVGAnimatedPreserveAspectRatio* preserveAspectRatio = GetPreserveAspectRatio(); if (preserveAspectRatio) { preserveAspectRatio->Init(); } LengthListAttributesInfo lengthListInfo = GetLengthListInfo(); for (i = 0; i < lengthListInfo.mLengthListCount; i++) { lengthListInfo.Reset(i); } NumberListAttributesInfo numberListInfo = GetNumberListInfo(); for (i = 0; i < numberListInfo.mNumberListCount; i++) { numberListInfo.Reset(i); } // No need to reset SVGPointList since the default value is always the same // (an empty list). // No need to reset SVGPathData since the default value is always the same // (an empty list). StringAttributesInfo stringInfo = GetStringInfo(); for (i = 0; i < stringInfo.mStringCount; i++) { stringInfo.Reset(i); } return NS_OK; } //---------------------------------------------------------------------- // Implementation //---------------------------------------------------------------------- // nsIContent methods nsresult SVGElement::BindToTree(Document* aDocument, nsIContent* aParent, nsIContent* aBindingParent) { nsresult rv = SVGElementBase::BindToTree(aDocument, aParent, aBindingParent); NS_ENSURE_SUCCESS(rv, rv); if (!MayHaveStyle()) { return NS_OK; } const nsAttrValue* oldVal = mAttrs.GetAttr(nsGkAtoms::style); if (oldVal && oldVal->Type() == nsAttrValue::eCSSDeclaration) { // we need to force a reparse because the baseURI of the document // may have changed, and in particular because we may be clones of // XBL anonymous content now being bound to the document we should // render in and due to the hacky way in which we implement the // interaction of XBL and SVG resources. Once we have a sane // ownerDocument on XBL anonymous content, this can all go away. nsAttrValue attrValue; nsAutoString stringValue; oldVal->ToString(stringValue); // Force in data doc, since we already have a style rule ParseStyleAttribute(stringValue, nullptr, attrValue, true); // Don't bother going through SetInlineStyleDeclaration; we don't // want to fire off mutation events or document notifications anyway bool oldValueSet; rv = mAttrs.SetAndSwapAttr(nsGkAtoms::style, attrValue, &oldValueSet); NS_ENSURE_SUCCESS(rv, rv); } return NS_OK; } nsresult SVGElement::AfterSetAttr(int32_t aNamespaceID, nsAtom* aName, const nsAttrValue* aValue, const nsAttrValue* aOldValue, nsIPrincipal* aSubjectPrincipal, bool aNotify) { // We don't currently use nsMappedAttributes within SVG. If this changes, we // need to be very careful because some nsAttrValues used by SVG point to // member data of SVG elements and if an nsAttrValue outlives the SVG element // whose data it points to (by virtue of being stored in // mAttrs->mMappedAttributes, meaning it's shared between // elements), the pointer will dangle. See bug 724680. MOZ_ASSERT(!mAttrs.HasMappedAttrs(), "Unexpected use of nsMappedAttributes within SVG"); // If this is an svg presentation attribute we need to map it into // the content declaration block. // XXX For some reason incremental mapping doesn't work, so for now // just delete the style rule and lazily reconstruct it as needed). if (aNamespaceID == kNameSpaceID_None && IsAttributeMapped(aName)) { mContentDeclarationBlock = nullptr; OwnerDoc()->ScheduleSVGForPresAttrEvaluation(this); } if (IsEventAttributeName(aName) && aValue) { MOZ_ASSERT(aValue->Type() == nsAttrValue::eString, "Expected string value for script body"); nsresult rv = SetEventHandler(GetEventNameForAttr(aName), aValue->GetStringValue()); NS_ENSURE_SUCCESS(rv, rv); } return SVGElementBase::AfterSetAttr(aNamespaceID, aName, aValue, aOldValue, aSubjectPrincipal, aNotify); } bool SVGElement::ParseAttribute(int32_t aNamespaceID, nsAtom* aAttribute, const nsAString& aValue, nsIPrincipal* aMaybeScriptedPrincipal, nsAttrValue& aResult) { nsresult rv = NS_OK; bool foundMatch = false; bool didSetResult = false; if (aNamespaceID == kNameSpaceID_None) { // Check for nsSVGLength2 attribute LengthAttributesInfo lengthInfo = GetLengthInfo(); uint32_t i; for (i = 0; i < lengthInfo.mLengthCount; i++) { if (aAttribute == lengthInfo.mLengthInfo[i].mName) { rv = lengthInfo.mLengths[i].SetBaseValueString(aValue, this, false); if (NS_FAILED(rv)) { lengthInfo.Reset(i); } else { aResult.SetTo(lengthInfo.mLengths[i], &aValue); didSetResult = true; } foundMatch = true; break; } } if (!foundMatch) { // Check for SVGAnimatedLengthList attribute LengthListAttributesInfo lengthListInfo = GetLengthListInfo(); for (i = 0; i < lengthListInfo.mLengthListCount; i++) { if (aAttribute == lengthListInfo.mLengthListInfo[i].mName) { rv = lengthListInfo.mLengthLists[i].SetBaseValueString(aValue); if (NS_FAILED(rv)) { lengthListInfo.Reset(i); } else { aResult.SetTo(lengthListInfo.mLengthLists[i].GetBaseValue(), &aValue); didSetResult = true; } foundMatch = true; break; } } } if (!foundMatch) { // Check for SVGAnimatedNumberList attribute NumberListAttributesInfo numberListInfo = GetNumberListInfo(); for (i = 0; i < numberListInfo.mNumberListCount; i++) { if (aAttribute == numberListInfo.mNumberListInfo[i].mName) { rv = numberListInfo.mNumberLists[i].SetBaseValueString(aValue); if (NS_FAILED(rv)) { numberListInfo.Reset(i); } else { aResult.SetTo(numberListInfo.mNumberLists[i].GetBaseValue(), &aValue); didSetResult = true; } foundMatch = true; break; } } } if (!foundMatch) { // Check for SVGAnimatedPointList attribute if (GetPointListAttrName() == aAttribute) { SVGAnimatedPointList* pointList = GetAnimatedPointList(); if (pointList) { pointList->SetBaseValueString(aValue); // The spec says we parse everything up to the failure, so we DON'T // need to check the result of SetBaseValueString or call // pointList->ClearBaseValue() if it fails aResult.SetTo(pointList->GetBaseValue(), &aValue); didSetResult = true; foundMatch = true; } } } if (!foundMatch) { // Check for SVGAnimatedPathSegList attribute if (GetPathDataAttrName() == aAttribute) { SVGAnimatedPathSegList* segList = GetAnimPathSegList(); if (segList) { segList->SetBaseValueString(aValue); // The spec says we parse everything up to the failure, so we DON'T // need to check the result of SetBaseValueString or call // segList->ClearBaseValue() if it fails aResult.SetTo(segList->GetBaseValue(), &aValue); didSetResult = true; foundMatch = true; } } } if (!foundMatch) { // Check for nsSVGNumber2 attribute NumberAttributesInfo numberInfo = GetNumberInfo(); for (i = 0; i < numberInfo.mNumberCount; i++) { if (aAttribute == numberInfo.mNumberInfo[i].mName) { rv = numberInfo.mNumbers[i].SetBaseValueString(aValue, this); if (NS_FAILED(rv)) { numberInfo.Reset(i); } else { aResult.SetTo(numberInfo.mNumbers[i].GetBaseValue(), &aValue); didSetResult = true; } foundMatch = true; break; } } } if (!foundMatch) { // Check for SVGNumberPair attribute NumberPairAttributesInfo numberPairInfo = GetNumberPairInfo(); for (i = 0; i < numberPairInfo.mNumberPairCount; i++) { if (aAttribute == numberPairInfo.mNumberPairInfo[i].mName) { rv = numberPairInfo.mNumberPairs[i].SetBaseValueString(aValue, this); if (NS_FAILED(rv)) { numberPairInfo.Reset(i); } else { aResult.SetTo(numberPairInfo.mNumberPairs[i], &aValue); didSetResult = true; } foundMatch = true; break; } } } if (!foundMatch) { // Check for SVGInteger attribute IntegerAttributesInfo integerInfo = GetIntegerInfo(); for (i = 0; i < integerInfo.mIntegerCount; i++) { if (aAttribute == integerInfo.mIntegerInfo[i].mName) { rv = integerInfo.mIntegers[i].SetBaseValueString(aValue, this); if (NS_FAILED(rv)) { integerInfo.Reset(i); } else { aResult.SetTo(integerInfo.mIntegers[i].GetBaseValue(), &aValue); didSetResult = true; } foundMatch = true; break; } } } if (!foundMatch) { // Check for SVGIntegerPair attribute IntegerPairAttributesInfo integerPairInfo = GetIntegerPairInfo(); for (i = 0; i < integerPairInfo.mIntegerPairCount; i++) { if (aAttribute == integerPairInfo.mIntegerPairInfo[i].mName) { rv = integerPairInfo.mIntegerPairs[i].SetBaseValueString(aValue, this); if (NS_FAILED(rv)) { integerPairInfo.Reset(i); } else { aResult.SetTo(integerPairInfo.mIntegerPairs[i], &aValue); didSetResult = true; } foundMatch = true; break; } } } if (!foundMatch) { // Check for SVGBoolean attribute BooleanAttributesInfo booleanInfo = GetBooleanInfo(); for (i = 0; i < booleanInfo.mBooleanCount; i++) { if (aAttribute == booleanInfo.mBooleanInfo[i].mName) { nsAtom* valAtom = NS_GetStaticAtom(aValue); rv = valAtom ? booleanInfo.mBooleans[i].SetBaseValueAtom(valAtom, this) : NS_ERROR_DOM_SYNTAX_ERR; if (NS_FAILED(rv)) { booleanInfo.Reset(i); } else { aResult.SetTo(valAtom); didSetResult = true; } foundMatch = true; break; } } } if (!foundMatch) { // Check for SVGEnum attribute EnumAttributesInfo enumInfo = GetEnumInfo(); for (i = 0; i < enumInfo.mEnumCount; i++) { if (aAttribute == enumInfo.mEnumInfo[i].mName) { RefPtr valAtom = NS_Atomize(aValue); rv = enumInfo.mEnums[i].SetBaseValueAtom(valAtom, this); if (NS_FAILED(rv)) { enumInfo.SetUnknownValue(i); } else { aResult.SetTo(valAtom); didSetResult = true; } foundMatch = true; break; } } } if (!foundMatch) { // Check for conditional processing attributes nsCOMPtr tests = do_QueryObject(this); if (tests && tests->ParseConditionalProcessingAttribute( aAttribute, aValue, aResult)) { foundMatch = true; } } if (!foundMatch) { // Check for StringList attribute StringListAttributesInfo stringListInfo = GetStringListInfo(); for (i = 0; i < stringListInfo.mStringListCount; i++) { if (aAttribute == stringListInfo.mStringListInfo[i].mName) { rv = stringListInfo.mStringLists[i].SetValue(aValue); if (NS_FAILED(rv)) { stringListInfo.Reset(i); } else { aResult.SetTo(stringListInfo.mStringLists[i], &aValue); didSetResult = true; } foundMatch = true; break; } } } if (!foundMatch) { // Check for orient attribute if (aAttribute == nsGkAtoms::orient) { SVGOrient* orient = GetOrient(); if (orient) { rv = orient->SetBaseValueString(aValue, this, false); if (NS_FAILED(rv)) { orient->Init(); } else { aResult.SetTo(*orient, &aValue); didSetResult = true; } foundMatch = true; } // Check for SVGViewBox attribute } else if (aAttribute == nsGkAtoms::viewBox) { SVGViewBox* viewBox = GetViewBox(); if (viewBox) { rv = viewBox->SetBaseValueString(aValue, this, false); if (NS_FAILED(rv)) { viewBox->Init(); } else { aResult.SetTo(*viewBox, &aValue); didSetResult = true; } foundMatch = true; } // Check for SVGAnimatedPreserveAspectRatio attribute } else if (aAttribute == nsGkAtoms::preserveAspectRatio) { SVGAnimatedPreserveAspectRatio* preserveAspectRatio = GetPreserveAspectRatio(); if (preserveAspectRatio) { rv = preserveAspectRatio->SetBaseValueString(aValue, this, false); if (NS_FAILED(rv)) { preserveAspectRatio->Init(); } else { aResult.SetTo(*preserveAspectRatio, &aValue); didSetResult = true; } foundMatch = true; } // Check for SVGAnimatedTransformList attribute } else if (GetTransformListAttrName() == aAttribute) { // The transform attribute is being set, so we must ensure that the // SVGAnimatedTransformList is/has been allocated: SVGAnimatedTransformList* transformList = GetAnimatedTransformList(DO_ALLOCATE); rv = transformList->SetBaseValueString(aValue, this); if (NS_FAILED(rv)) { transformList->ClearBaseValue(); } else { aResult.SetTo(transformList->GetBaseValue(), &aValue); didSetResult = true; } foundMatch = true; } else if (aAttribute == nsGkAtoms::tabindex) { didSetResult = aResult.ParseIntValue(aValue); foundMatch = true; } } if (aAttribute == nsGkAtoms::_class) { mClassAttribute.SetBaseValue(aValue, this, false); aResult.ParseAtomArray(aValue); return true; } if (aAttribute == nsGkAtoms::rel) { aResult.ParseAtomArray(aValue); return true; } } if (!foundMatch) { // Check for SVGString attribute StringAttributesInfo stringInfo = GetStringInfo(); for (uint32_t i = 0; i < stringInfo.mStringCount; i++) { if (aNamespaceID == stringInfo.mStringInfo[i].mNamespaceID && aAttribute == stringInfo.mStringInfo[i].mName) { stringInfo.mStrings[i].SetBaseValue(aValue, this, false); foundMatch = true; break; } } } if (foundMatch) { if (NS_FAILED(rv)) { ReportAttributeParseFailure(OwnerDoc(), aAttribute, aValue); return false; } if (!didSetResult) { aResult.SetTo(aValue); } return true; } return SVGElementBase::ParseAttribute(aNamespaceID, aAttribute, aValue, aMaybeScriptedPrincipal, aResult); } void SVGElement::UnsetAttrInternal(int32_t aNamespaceID, nsAtom* aName, bool aNotify) { // XXXbz there's a bunch of redundancy here with AfterSetAttr. // Maybe consolidate? if (aNamespaceID == kNameSpaceID_None) { // If this is an svg presentation attribute, remove declaration block to // force an update if (IsAttributeMapped(aName)) { mContentDeclarationBlock = nullptr; } if (IsEventAttributeName(aName)) { EventListenerManager* manager = GetExistingListenerManager(); if (manager) { nsAtom* eventName = GetEventNameForAttr(aName); manager->RemoveEventHandler(eventName); } return; } // Check if this is a length attribute going away LengthAttributesInfo lenInfo = GetLengthInfo(); for (uint32_t i = 0; i < lenInfo.mLengthCount; i++) { if (aName == lenInfo.mLengthInfo[i].mName) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); lenInfo.Reset(i); return; } } // Check if this is a length list attribute going away LengthListAttributesInfo lengthListInfo = GetLengthListInfo(); for (uint32_t i = 0; i < lengthListInfo.mLengthListCount; i++) { if (aName == lengthListInfo.mLengthListInfo[i].mName) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); lengthListInfo.Reset(i); return; } } // Check if this is a number list attribute going away NumberListAttributesInfo numberListInfo = GetNumberListInfo(); for (uint32_t i = 0; i < numberListInfo.mNumberListCount; i++) { if (aName == numberListInfo.mNumberListInfo[i].mName) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); numberListInfo.Reset(i); return; } } // Check if this is a point list attribute going away if (GetPointListAttrName() == aName) { SVGAnimatedPointList* pointList = GetAnimatedPointList(); if (pointList) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); pointList->ClearBaseValue(); return; } } // Check if this is a path segment list attribute going away if (GetPathDataAttrName() == aName) { SVGAnimatedPathSegList* segList = GetAnimPathSegList(); if (segList) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); segList->ClearBaseValue(); return; } } // Check if this is a number attribute going away NumberAttributesInfo numInfo = GetNumberInfo(); for (uint32_t i = 0; i < numInfo.mNumberCount; i++) { if (aName == numInfo.mNumberInfo[i].mName) { numInfo.Reset(i); return; } } // Check if this is a number pair attribute going away NumberPairAttributesInfo numPairInfo = GetNumberPairInfo(); for (uint32_t i = 0; i < numPairInfo.mNumberPairCount; i++) { if (aName == numPairInfo.mNumberPairInfo[i].mName) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); numPairInfo.Reset(i); return; } } // Check if this is an integer attribute going away IntegerAttributesInfo intInfo = GetIntegerInfo(); for (uint32_t i = 0; i < intInfo.mIntegerCount; i++) { if (aName == intInfo.mIntegerInfo[i].mName) { intInfo.Reset(i); return; } } // Check if this is an integer pair attribute going away IntegerPairAttributesInfo intPairInfo = GetIntegerPairInfo(); for (uint32_t i = 0; i < intPairInfo.mIntegerPairCount; i++) { if (aName == intPairInfo.mIntegerPairInfo[i].mName) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); intPairInfo.Reset(i); return; } } // Check if this is a boolean attribute going away BooleanAttributesInfo boolInfo = GetBooleanInfo(); for (uint32_t i = 0; i < boolInfo.mBooleanCount; i++) { if (aName == boolInfo.mBooleanInfo[i].mName) { boolInfo.Reset(i); return; } } // Check if this is an enum attribute going away EnumAttributesInfo enumInfo = GetEnumInfo(); for (uint32_t i = 0; i < enumInfo.mEnumCount; i++) { if (aName == enumInfo.mEnumInfo[i].mName) { enumInfo.Reset(i); return; } } // Check if this is an orient attribute going away if (aName == nsGkAtoms::orient) { SVGOrient* orient = GetOrient(); if (orient) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); orient->Init(); return; } } // Check if this is a viewBox attribute going away if (aName == nsGkAtoms::viewBox) { SVGViewBox* viewBox = GetViewBox(); if (viewBox) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); viewBox->Init(); return; } } // Check if this is a preserveAspectRatio attribute going away if (aName == nsGkAtoms::preserveAspectRatio) { SVGAnimatedPreserveAspectRatio* preserveAspectRatio = GetPreserveAspectRatio(); if (preserveAspectRatio) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); preserveAspectRatio->Init(); return; } } // Check if this is a transform list attribute going away if (GetTransformListAttrName() == aName) { SVGAnimatedTransformList* transformList = GetAnimatedTransformList(); if (transformList) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); transformList->ClearBaseValue(); return; } } // Check for conditional processing attributes nsCOMPtr tests = do_QueryObject(this); if (tests && tests->IsConditionalProcessingAttribute(aName)) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); tests->UnsetAttr(aName); return; } // Check if this is a string list attribute going away StringListAttributesInfo stringListInfo = GetStringListInfo(); for (uint32_t i = 0; i < stringListInfo.mStringListCount; i++) { if (aName == stringListInfo.mStringListInfo[i].mName) { MaybeSerializeAttrBeforeRemoval(aName, aNotify); stringListInfo.Reset(i); return; } } if (aName == nsGkAtoms::_class) { mClassAttribute.Init(); return; } } // Check if this is a string attribute going away StringAttributesInfo stringInfo = GetStringInfo(); for (uint32_t i = 0; i < stringInfo.mStringCount; i++) { if (aNamespaceID == stringInfo.mStringInfo[i].mNamespaceID && aName == stringInfo.mStringInfo[i].mName) { stringInfo.Reset(i); return; } } } nsresult SVGElement::BeforeSetAttr(int32_t aNamespaceID, nsAtom* aName, const nsAttrValueOrString* aValue, bool aNotify) { if (!aValue) { UnsetAttrInternal(aNamespaceID, aName, aNotify); } return SVGElementBase::BeforeSetAttr(aNamespaceID, aName, aValue, aNotify); } nsChangeHint SVGElement::GetAttributeChangeHint(const nsAtom* aAttribute, int32_t aModType) const { nsChangeHint retval = SVGElementBase::GetAttributeChangeHint(aAttribute, aModType); nsCOMPtr tests = do_QueryObject(const_cast(this)); if (tests && tests->IsConditionalProcessingAttribute(aAttribute)) { // It would be nice to only reconstruct the frame if the value returned by // SVGTests::PassesConditionalProcessingTests has changed, but we don't // know that retval |= nsChangeHint_ReconstructFrame; } return retval; } bool SVGElement::IsNodeOfType(uint32_t aFlags) const { return false; } void SVGElement::NodeInfoChanged(Document* aOldDoc) { SVGElementBase::NodeInfoChanged(aOldDoc); aOldDoc->UnscheduleSVGForPresAttrEvaluation(this); mContentDeclarationBlock = nullptr; OwnerDoc()->ScheduleSVGForPresAttrEvaluation(this); } NS_IMETHODIMP_(bool) SVGElement::IsAttributeMapped(const nsAtom* name) const { if (name == nsGkAtoms::lang) { return true; } return SVGElementBase::IsAttributeMapped(name); } // PresentationAttributes-FillStroke /* static */ const Element::MappedAttributeEntry SVGElement::sFillStrokeMap[] = {{nsGkAtoms::fill}, {nsGkAtoms::fill_opacity}, {nsGkAtoms::fill_rule}, {nsGkAtoms::paint_order}, {nsGkAtoms::stroke}, {nsGkAtoms::stroke_dasharray}, {nsGkAtoms::stroke_dashoffset}, {nsGkAtoms::stroke_linecap}, {nsGkAtoms::stroke_linejoin}, {nsGkAtoms::stroke_miterlimit}, {nsGkAtoms::stroke_opacity}, {nsGkAtoms::stroke_width}, {nsGkAtoms::vector_effect}, {nullptr}}; // PresentationAttributes-Graphics /* static */ const Element::MappedAttributeEntry SVGElement::sGraphicsMap[] = { {nsGkAtoms::clip_path}, {nsGkAtoms::clip_rule}, {nsGkAtoms::colorInterpolation}, {nsGkAtoms::cursor}, {nsGkAtoms::display}, {nsGkAtoms::filter}, {nsGkAtoms::image_rendering}, {nsGkAtoms::mask}, {nsGkAtoms::opacity}, {nsGkAtoms::pointer_events}, {nsGkAtoms::shape_rendering}, {nsGkAtoms::text_rendering}, {nsGkAtoms::visibility}, {nullptr}}; // PresentationAttributes-TextContentElements /* static */ const Element::MappedAttributeEntry SVGElement::sTextContentElementsMap[] = { // Properties that we don't support are commented out. // { nsGkAtoms::alignment_baseline }, // { nsGkAtoms::baseline_shift }, {nsGkAtoms::direction}, {nsGkAtoms::dominant_baseline}, {nsGkAtoms::letter_spacing}, {nsGkAtoms::text_anchor}, {nsGkAtoms::text_decoration}, {nsGkAtoms::unicode_bidi}, {nsGkAtoms::word_spacing}, {nsGkAtoms::writing_mode}, {nullptr}}; // PresentationAttributes-FontSpecification /* static */ const Element::MappedAttributeEntry SVGElement::sFontSpecificationMap[] = { {nsGkAtoms::font_family}, {nsGkAtoms::font_size}, {nsGkAtoms::font_size_adjust}, {nsGkAtoms::font_stretch}, {nsGkAtoms::font_style}, {nsGkAtoms::font_variant}, {nsGkAtoms::fontWeight}, {nullptr}}; // PresentationAttributes-GradientStop /* static */ const Element::MappedAttributeEntry SVGElement::sGradientStopMap[] = { {nsGkAtoms::stop_color}, {nsGkAtoms::stop_opacity}, {nullptr}}; // PresentationAttributes-Viewports /* static */ const Element::MappedAttributeEntry SVGElement::sViewportsMap[] = { {nsGkAtoms::overflow}, {nsGkAtoms::clip}, {nullptr}}; // PresentationAttributes-Makers /* static */ const Element::MappedAttributeEntry SVGElement::sMarkersMap[] = { {nsGkAtoms::marker_end}, {nsGkAtoms::marker_mid}, {nsGkAtoms::marker_start}, {nullptr}}; // PresentationAttributes-Color /* static */ const Element::MappedAttributeEntry SVGElement::sColorMap[] = { {nsGkAtoms::color}, {nullptr}}; // PresentationAttributes-Filters /* static */ const Element::MappedAttributeEntry SVGElement::sFiltersMap[] = { {nsGkAtoms::colorInterpolationFilters}, {nullptr}}; // PresentationAttributes-feFlood /* static */ const Element::MappedAttributeEntry SVGElement::sFEFloodMap[] = { {nsGkAtoms::flood_color}, {nsGkAtoms::flood_opacity}, {nullptr}}; // PresentationAttributes-LightingEffects /* static */ const Element::MappedAttributeEntry SVGElement::sLightingEffectsMap[] = {{nsGkAtoms::lighting_color}, {nullptr}}; // PresentationAttributes-mask /* static */ const Element::MappedAttributeEntry SVGElement::sMaskMap[] = { {nsGkAtoms::mask_type}, {nullptr}}; //---------------------------------------------------------------------- // Element methods // forwarded to Element implementations //---------------------------------------------------------------------- SVGSVGElement* SVGElement::GetOwnerSVGElement() { nsIContent* ancestor = GetFlattenedTreeParent(); while (ancestor && ancestor->IsSVGElement()) { if (ancestor->IsSVGElement(nsGkAtoms::foreignObject)) { return nullptr; } if (ancestor->IsSVGElement(nsGkAtoms::svg)) { return static_cast(ancestor); } ancestor = ancestor->GetFlattenedTreeParent(); } // we don't have an ancestor element... return nullptr; } SVGElement* SVGElement::GetViewportElement() { return SVGContentUtils::GetNearestViewportElement(this); } already_AddRefed SVGElement::ClassName() { return mClassAttribute.ToDOMAnimatedString(this); } //------------------------------------------------------------------------ // Helper class: MappedAttrParser, for parsing values of mapped attributes namespace { class MOZ_STACK_CLASS MappedAttrParser { public: MappedAttrParser(css::Loader* aLoader, nsIURI* aDocURI, already_AddRefed aBaseURI, SVGElement* aElement); ~MappedAttrParser(); // Parses a mapped attribute value. void ParseMappedAttrValue(nsAtom* aMappedAttrName, const nsAString& aMappedAttrValue); // If we've parsed any values for mapped attributes, this method returns the // already_AddRefed css::Declaration that incorporates the parsed // values. Otherwise, this method returns null. already_AddRefed GetDeclarationBlock(); private: // MEMBER DATA // ----------- css::Loader* mLoader; // Arguments for nsCSSParser::ParseProperty nsIURI* mDocURI; nsCOMPtr mBaseURI; // Declaration for storing parsed values (lazily initialized) RefPtr mDecl; // For reporting use counters SVGElement* mElement; }; MappedAttrParser::MappedAttrParser(css::Loader* aLoader, nsIURI* aDocURI, already_AddRefed aBaseURI, SVGElement* aElement) : mLoader(aLoader), mDocURI(aDocURI), mBaseURI(aBaseURI), mElement(aElement) {} MappedAttrParser::~MappedAttrParser() { MOZ_ASSERT(!mDecl, "If mDecl was initialized, it should have been returned via " "GetDeclarationBlock (and had its pointer cleared)"); } void MappedAttrParser::ParseMappedAttrValue(nsAtom* aMappedAttrName, const nsAString& aMappedAttrValue) { if (!mDecl) { mDecl = new DeclarationBlock(); } // Get the nsCSSPropertyID ID for our mapped attribute. nsCSSPropertyID propertyID = nsCSSProps::LookupProperty(nsDependentAtomString(aMappedAttrName)); if (propertyID != eCSSProperty_UNKNOWN) { bool changed = false; // outparam for ParseProperty. NS_ConvertUTF16toUTF8 value(aMappedAttrValue); // FIXME (bug 1343964): Figure out a better solution for sending the base // uri to servo RefPtr data = new URLExtraData(mBaseURI, mDocURI, mElement->NodePrincipal(), mElement->OwnerDoc()->GetReferrerPolicy()); changed = Servo_DeclarationBlock_SetPropertyById( mDecl->Raw(), propertyID, &value, false, data, ParsingMode::AllowUnitlessLength, mElement->OwnerDoc()->GetCompatibilityMode(), mLoader, {}); if (changed) { // The normal reporting of use counters by the nsCSSParser won't happen // since it doesn't have a sheet. if (nsCSSProps::IsShorthand(propertyID)) { CSSPROPS_FOR_SHORTHAND_SUBPROPERTIES(subprop, propertyID, CSSEnabledState::eForAllContent) { UseCounter useCounter = nsCSSProps::UseCounterFor(*subprop); if (useCounter != eUseCounter_UNKNOWN) { mElement->OwnerDoc()->SetDocumentAndPageUseCounter(useCounter); } } } else { UseCounter useCounter = nsCSSProps::UseCounterFor(propertyID); if (useCounter != eUseCounter_UNKNOWN) { mElement->OwnerDoc()->SetDocumentAndPageUseCounter(useCounter); } } } return; } MOZ_ASSERT(aMappedAttrName == nsGkAtoms::lang, "Only 'lang' should be unrecognized!"); // nsCSSParser doesn't know about 'lang', so we need to handle it specially. if (aMappedAttrName == nsGkAtoms::lang) { propertyID = eCSSProperty__x_lang; RefPtr atom = NS_Atomize(aMappedAttrValue); Servo_DeclarationBlock_SetIdentStringValue(mDecl->Raw(), propertyID, atom); } } already_AddRefed MappedAttrParser::GetDeclarationBlock() { return mDecl.forget(); } } // namespace //---------------------------------------------------------------------- // Implementation Helpers: void SVGElement::UpdateContentDeclarationBlock() { NS_ASSERTION(!mContentDeclarationBlock, "we already have a content declaration block"); uint32_t attrCount = mAttrs.AttrCount(); if (!attrCount) { // nothing to do return; } Document* doc = OwnerDoc(); MappedAttrParser mappedAttrParser(doc->CSSLoader(), doc->GetDocumentURI(), GetBaseURI(), this); for (uint32_t i = 0; i < attrCount; ++i) { const nsAttrName* attrName = mAttrs.AttrNameAt(i); if (!attrName->IsAtom() || !IsAttributeMapped(attrName->Atom())) continue; if (attrName->NamespaceID() != kNameSpaceID_None && !attrName->Equals(nsGkAtoms::lang, kNameSpaceID_XML)) { continue; } if (attrName->Equals(nsGkAtoms::lang, kNameSpaceID_None) && HasAttr(kNameSpaceID_XML, nsGkAtoms::lang)) { continue; // xml:lang has precedence } if (IsSVGElement(nsGkAtoms::svg)) { // Special case: we don't want 'width'/'height' mapped into style // if the attribute value isn't a valid according to SVG (which // only supports a subset of the CSS values). We don't enforce // this by checking the attribute value in SVGSVGElement:: // IsAttributeMapped since we don't want that method to depend on the // value of the attribute that is being checked. Rather we just prevent // the actual mapping here, as necessary. if (attrName->Atom() == nsGkAtoms::width && !GetAnimatedLength(nsGkAtoms::width)->HasBaseVal()) { continue; } if (attrName->Atom() == nsGkAtoms::height && !GetAnimatedLength(nsGkAtoms::height)->HasBaseVal()) { continue; } } nsAutoString value; mAttrs.AttrAt(i)->ToString(value); mappedAttrParser.ParseMappedAttrValue(attrName->Atom(), value); } mContentDeclarationBlock = mappedAttrParser.GetDeclarationBlock(); } const DeclarationBlock* SVGElement::GetContentDeclarationBlock() const { return mContentDeclarationBlock; } /** * Helper methods for the type-specific WillChangeXXX methods. * * This method sends out appropriate pre-change notifications so that selector * restyles (e.g. due to changes that cause |elem[attr="val"]| to start/stop * matching) work, and it returns an nsAttrValue that _may_ contain the * attribute's pre-change value. * * The nsAttrValue returned by this method depends on whether there are * mutation event listeners listening for changes to this element's attributes. * If not, then the object returned is empty. If there are, then the * nsAttrValue returned contains a serialized copy of the attribute's value * prior to the change, and this object should be passed to the corresponding * DidChangeXXX method call (assuming a WillChangeXXX call is required for the * SVG type - see comment below). This is necessary so that the 'prevValue' * property of the mutation event that is dispatched will correctly contain the * old value. * * The reason we need to serialize the old value if there are mutation * event listeners is because the underlying nsAttrValue for the attribute * points directly to a parsed representation of the attribute (e.g. an * SVGAnimatedLengthList*) that is a member of the SVG element. That object * will have changed by the time DidChangeXXX has been called, so without the * serialization of the old attribute value that we provide, DidChangeXXX * would have no way to get the old value to pass to SetAttrAndNotify. * * We only return the old value when there are mutation event listeners because * it's not needed otherwise, and because it's expensive to serialize the old * value. This is especially true for list type attributes, which may be built * up via the SVG DOM resulting in a large number of Will/DidModifyXXX calls * before the script finally finishes setting the attribute. * * Note that unlike using SetParsedAttr, using Will/DidChangeXXX does NOT check * and filter out redundant changes. Before calling WillChangeXXX, the caller * should check whether the new and old values are actually the same, and skip * calling Will/DidChangeXXX if they are. * * Also note that not all SVG types use this scheme. For types that can be * represented by an nsAttrValue without pointing back to an SVG object (e.g. * enums, booleans, integers) we can simply use SetParsedAttr which will do all * of the above for us. For such types there is no matching WillChangeXXX * method, only DidChangeXXX which calls SetParsedAttr. */ nsAttrValue SVGElement::WillChangeValue(nsAtom* aName) { // We need an empty attr value: // a) to pass to BeforeSetAttr when GetParsedAttr returns nullptr // b) to store the old value in the case we have mutation listeners // // We can use the same value for both purposes, because if GetParsedAttr // returns non-null its return value is what will get passed to BeforeSetAttr, // not matter what our mutation listener situation is. // // Also, we should be careful to always return this value to benefit from // return value optimization. nsAttrValue emptyOrOldAttrValue; const nsAttrValue* attrValue = GetParsedAttr(aName); // We only need to set the old value if we have listeners since otherwise it // isn't used. if (attrValue && nsContentUtils::HasMutationListeners( this, NS_EVENT_BITS_MUTATION_ATTRMODIFIED, this)) { emptyOrOldAttrValue.SetToSerialized(*attrValue); } uint8_t modType = attrValue ? static_cast(MutationEvent_Binding::MODIFICATION) : static_cast(MutationEvent_Binding::ADDITION); nsNodeUtils::AttributeWillChange(this, kNameSpaceID_None, aName, modType); // This is not strictly correct--the attribute value parameter for // BeforeSetAttr should reflect the value that *will* be set but that implies // allocating, e.g. an extra nsSVGLength2, and isn't necessary at the moment // since no SVG elements overload BeforeSetAttr. For now we just pass the // current value. nsAttrValueOrString attrStringOrValue(attrValue ? *attrValue : emptyOrOldAttrValue); DebugOnly rv = BeforeSetAttr( kNameSpaceID_None, aName, &attrStringOrValue, kNotifyDocumentObservers); // SVG elements aren't expected to overload BeforeSetAttr in such a way that // it may fail. So long as this is the case we don't need to check and pass on // the return value which simplifies the calling code significantly. MOZ_ASSERT(NS_SUCCEEDED(rv), "Unexpected failure from BeforeSetAttr"); return emptyOrOldAttrValue; } /** * Helper methods for the type-specific DidChangeXXX methods. * * aEmptyOrOldValue will normally be the object returned from the corresponding * WillChangeXXX call. This is because: * a) WillChangeXXX will ensure the object is set when we have mutation * listeners, and * b) WillChangeXXX will ensure the object represents a serialized version of * the old attribute value so that the value doesn't change when the * underlying SVG type is updated. * * aNewValue is replaced with the old value. */ void SVGElement::DidChangeValue(nsAtom* aName, const nsAttrValue& aEmptyOrOldValue, nsAttrValue& aNewValue) { bool hasListeners = nsContentUtils::HasMutationListeners( this, NS_EVENT_BITS_MUTATION_ATTRMODIFIED, this); uint8_t modType = HasAttr(kNameSpaceID_None, aName) ? static_cast(MutationEvent_Binding::MODIFICATION) : static_cast(MutationEvent_Binding::ADDITION); Document* document = GetComposedDoc(); mozAutoDocUpdate updateBatch(document, kNotifyDocumentObservers); // XXX Really, the fourth argument to SetAttrAndNotify should be null if // aEmptyOrOldValue does not represent the actual previous value of the // attribute, but currently SVG elements do not even use the old attribute // value in |AfterSetAttr|, so this should be ok. SetAttrAndNotify(kNameSpaceID_None, aName, nullptr, &aEmptyOrOldValue, aNewValue, nullptr, modType, hasListeners, kNotifyDocumentObservers, kCallAfterSetAttr, document, updateBatch); } void SVGElement::MaybeSerializeAttrBeforeRemoval(nsAtom* aName, bool aNotify) { if (!aNotify || !nsContentUtils::HasMutationListeners( this, NS_EVENT_BITS_MUTATION_ATTRMODIFIED, this)) { return; } const nsAttrValue* attrValue = mAttrs.GetAttr(aName); if (!attrValue) return; nsAutoString serializedValue; attrValue->ToString(serializedValue); nsAttrValue oldAttrValue(serializedValue); bool oldValueSet; mAttrs.SetAndSwapAttr(aName, oldAttrValue, &oldValueSet); } /* static */ nsAtom* SVGElement::GetEventNameForAttr(nsAtom* aAttr) { if (aAttr == nsGkAtoms::onload) return nsGkAtoms::onSVGLoad; if (aAttr == nsGkAtoms::onunload) return nsGkAtoms::onSVGUnload; if (aAttr == nsGkAtoms::onresize) return nsGkAtoms::onSVGResize; if (aAttr == nsGkAtoms::onscroll) return nsGkAtoms::onSVGScroll; if (aAttr == nsGkAtoms::onzoom) return nsGkAtoms::onSVGZoom; if (aAttr == nsGkAtoms::onbegin) return nsGkAtoms::onbeginEvent; if (aAttr == nsGkAtoms::onrepeat) return nsGkAtoms::onrepeatEvent; if (aAttr == nsGkAtoms::onend) return nsGkAtoms::onendEvent; return aAttr; } SVGViewportElement* SVGElement::GetCtx() const { return SVGContentUtils::GetNearestViewportElement(this); } /* virtual */ gfxMatrix SVGElement::PrependLocalTransformsTo( const gfxMatrix& aMatrix, SVGTransformTypes aWhich) const { return aMatrix; } SVGElement::LengthAttributesInfo SVGElement::GetLengthInfo() { return LengthAttributesInfo(nullptr, nullptr, 0); } void SVGElement::LengthAttributesInfo::Reset(uint8_t aAttrEnum) { mLengths[aAttrEnum].Init(mLengthInfo[aAttrEnum].mCtxType, aAttrEnum, mLengthInfo[aAttrEnum].mDefaultValue, mLengthInfo[aAttrEnum].mDefaultUnitType); } void SVGElement::SetLength(nsAtom* aName, const nsSVGLength2& aLength) { LengthAttributesInfo lengthInfo = GetLengthInfo(); for (uint32_t i = 0; i < lengthInfo.mLengthCount; i++) { if (aName == lengthInfo.mLengthInfo[i].mName) { lengthInfo.mLengths[i] = aLength; DidAnimateLength(i); return; } } MOZ_ASSERT(false, "no length found to set"); } nsAttrValue SVGElement::WillChangeLength(uint8_t aAttrEnum) { return WillChangeValue(GetLengthInfo().mLengthInfo[aAttrEnum].mName); } void SVGElement::DidChangeLength(uint8_t aAttrEnum, const nsAttrValue& aEmptyOrOldValue) { LengthAttributesInfo info = GetLengthInfo(); NS_ASSERTION(info.mLengthCount > 0, "DidChangeLength on element with no length attribs"); NS_ASSERTION(aAttrEnum < info.mLengthCount, "aAttrEnum out of range"); nsAttrValue newValue; newValue.SetTo(info.mLengths[aAttrEnum], nullptr); DidChangeValue(info.mLengthInfo[aAttrEnum].mName, aEmptyOrOldValue, newValue); } void SVGElement::DidAnimateLength(uint8_t aAttrEnum) { ClearAnyCachedPath(); nsIFrame* frame = GetPrimaryFrame(); if (frame) { LengthAttributesInfo info = GetLengthInfo(); frame->AttributeChanged(kNameSpaceID_None, info.mLengthInfo[aAttrEnum].mName, MutationEvent_Binding::SMIL); } } nsSVGLength2* SVGElement::GetAnimatedLength(const nsAtom* aAttrName) { LengthAttributesInfo lengthInfo = GetLengthInfo(); for (uint32_t i = 0; i < lengthInfo.mLengthCount; i++) { if (aAttrName == lengthInfo.mLengthInfo[i].mName) { return &lengthInfo.mLengths[i]; } } MOZ_ASSERT(false, "no matching length found"); return nullptr; } void SVGElement::GetAnimatedLengthValues(float* aFirst, ...) { LengthAttributesInfo info = GetLengthInfo(); NS_ASSERTION(info.mLengthCount > 0, "GetAnimatedLengthValues on element with no length attribs"); SVGViewportElement* ctx = nullptr; float* f = aFirst; uint32_t i = 0; va_list args; va_start(args, aFirst); while (f && i < info.mLengthCount) { uint8_t type = info.mLengths[i].GetSpecifiedUnitType(); if (!ctx) { if (type != SVGLength_Binding::SVG_LENGTHTYPE_NUMBER && type != SVGLength_Binding::SVG_LENGTHTYPE_PX) ctx = GetCtx(); } if (type == SVGLength_Binding::SVG_LENGTHTYPE_EMS || type == SVGLength_Binding::SVG_LENGTHTYPE_EXS) *f = info.mLengths[i++].GetAnimValue(this); else *f = info.mLengths[i++].GetAnimValue(ctx); f = va_arg(args, float*); } va_end(args); } SVGElement::LengthListAttributesInfo SVGElement::GetLengthListInfo() { return LengthListAttributesInfo(nullptr, nullptr, 0); } void SVGElement::LengthListAttributesInfo::Reset(uint8_t aAttrEnum) { mLengthLists[aAttrEnum].ClearBaseValue(aAttrEnum); // caller notifies } nsAttrValue SVGElement::WillChangeLengthList(uint8_t aAttrEnum) { return WillChangeValue(GetLengthListInfo().mLengthListInfo[aAttrEnum].mName); } void SVGElement::DidChangeLengthList(uint8_t aAttrEnum, const nsAttrValue& aEmptyOrOldValue) { LengthListAttributesInfo info = GetLengthListInfo(); NS_ASSERTION(info.mLengthListCount > 0, "DidChangeLengthList on element with no length list attribs"); NS_ASSERTION(aAttrEnum < info.mLengthListCount, "aAttrEnum out of range"); nsAttrValue newValue; newValue.SetTo(info.mLengthLists[aAttrEnum].GetBaseValue(), nullptr); DidChangeValue(info.mLengthListInfo[aAttrEnum].mName, aEmptyOrOldValue, newValue); } void SVGElement::DidAnimateLengthList(uint8_t aAttrEnum) { nsIFrame* frame = GetPrimaryFrame(); if (frame) { LengthListAttributesInfo info = GetLengthListInfo(); frame->AttributeChanged(kNameSpaceID_None, info.mLengthListInfo[aAttrEnum].mName, MutationEvent_Binding::SMIL); } } void SVGElement::GetAnimatedLengthListValues(SVGUserUnitList* aFirst, ...) { LengthListAttributesInfo info = GetLengthListInfo(); NS_ASSERTION( info.mLengthListCount > 0, "GetAnimatedLengthListValues on element with no length list attribs"); SVGUserUnitList* list = aFirst; uint32_t i = 0; va_list args; va_start(args, aFirst); while (list && i < info.mLengthListCount) { list->Init(&(info.mLengthLists[i].GetAnimValue()), this, info.mLengthListInfo[i].mAxis); ++i; list = va_arg(args, SVGUserUnitList*); } va_end(args); } SVGAnimatedLengthList* SVGElement::GetAnimatedLengthList(uint8_t aAttrEnum) { LengthListAttributesInfo info = GetLengthListInfo(); if (aAttrEnum < info.mLengthListCount) { return &(info.mLengthLists[aAttrEnum]); } MOZ_ASSERT_UNREACHABLE("Bad attrEnum"); return nullptr; } SVGElement::NumberListAttributesInfo SVGElement::GetNumberListInfo() { return NumberListAttributesInfo(nullptr, nullptr, 0); } void SVGElement::NumberListAttributesInfo::Reset(uint8_t aAttrEnum) { MOZ_ASSERT(aAttrEnum < mNumberListCount, "Bad attr enum"); mNumberLists[aAttrEnum].ClearBaseValue(aAttrEnum); // caller notifies } nsAttrValue SVGElement::WillChangeNumberList(uint8_t aAttrEnum) { return WillChangeValue(GetNumberListInfo().mNumberListInfo[aAttrEnum].mName); } void SVGElement::DidChangeNumberList(uint8_t aAttrEnum, const nsAttrValue& aEmptyOrOldValue) { NumberListAttributesInfo info = GetNumberListInfo(); MOZ_ASSERT(info.mNumberListCount > 0, "DidChangeNumberList on element with no number list attribs"); MOZ_ASSERT(aAttrEnum < info.mNumberListCount, "aAttrEnum out of range"); nsAttrValue newValue; newValue.SetTo(info.mNumberLists[aAttrEnum].GetBaseValue(), nullptr); DidChangeValue(info.mNumberListInfo[aAttrEnum].mName, aEmptyOrOldValue, newValue); } void SVGElement::DidAnimateNumberList(uint8_t aAttrEnum) { nsIFrame* frame = GetPrimaryFrame(); if (frame) { NumberListAttributesInfo info = GetNumberListInfo(); MOZ_ASSERT(aAttrEnum < info.mNumberListCount, "aAttrEnum out of range"); frame->AttributeChanged(kNameSpaceID_None, info.mNumberListInfo[aAttrEnum].mName, MutationEvent_Binding::SMIL); } } SVGAnimatedNumberList* SVGElement::GetAnimatedNumberList(uint8_t aAttrEnum) { NumberListAttributesInfo info = GetNumberListInfo(); if (aAttrEnum < info.mNumberListCount) { return &(info.mNumberLists[aAttrEnum]); } MOZ_ASSERT(false, "Bad attrEnum"); return nullptr; } SVGAnimatedNumberList* SVGElement::GetAnimatedNumberList(nsAtom* aAttrName) { NumberListAttributesInfo info = GetNumberListInfo(); for (uint32_t i = 0; i < info.mNumberListCount; i++) { if (aAttrName == info.mNumberListInfo[i].mName) { return &info.mNumberLists[i]; } } MOZ_ASSERT(false, "Bad caller"); return nullptr; } nsAttrValue SVGElement::WillChangePointList() { MOZ_ASSERT(GetPointListAttrName(), "Changing non-existent point list?"); return WillChangeValue(GetPointListAttrName()); } void SVGElement::DidChangePointList(const nsAttrValue& aEmptyOrOldValue) { MOZ_ASSERT(GetPointListAttrName(), "Changing non-existent point list?"); nsAttrValue newValue; newValue.SetTo(GetAnimatedPointList()->GetBaseValue(), nullptr); DidChangeValue(GetPointListAttrName(), aEmptyOrOldValue, newValue); } void SVGElement::DidAnimatePointList() { MOZ_ASSERT(GetPointListAttrName(), "Animating non-existent path data?"); ClearAnyCachedPath(); nsIFrame* frame = GetPrimaryFrame(); if (frame) { frame->AttributeChanged(kNameSpaceID_None, GetPointListAttrName(), MutationEvent_Binding::SMIL); } } nsAttrValue SVGElement::WillChangePathSegList() { MOZ_ASSERT(GetPathDataAttrName(), "Changing non-existent path seg list?"); return WillChangeValue(GetPathDataAttrName()); } void SVGElement::DidChangePathSegList(const nsAttrValue& aEmptyOrOldValue) { MOZ_ASSERT(GetPathDataAttrName(), "Changing non-existent path seg list?"); nsAttrValue newValue; newValue.SetTo(GetAnimPathSegList()->GetBaseValue(), nullptr); DidChangeValue(GetPathDataAttrName(), aEmptyOrOldValue, newValue); } void SVGElement::DidAnimatePathSegList() { MOZ_ASSERT(GetPathDataAttrName(), "Animating non-existent path data?"); ClearAnyCachedPath(); nsIFrame* frame = GetPrimaryFrame(); if (frame) { frame->AttributeChanged(kNameSpaceID_None, GetPathDataAttrName(), MutationEvent_Binding::SMIL); } } SVGElement::NumberAttributesInfo SVGElement::GetNumberInfo() { return NumberAttributesInfo(nullptr, nullptr, 0); } void SVGElement::NumberAttributesInfo::Reset(uint8_t aAttrEnum) { mNumbers[aAttrEnum].Init(aAttrEnum, mNumberInfo[aAttrEnum].mDefaultValue); } void SVGElement::DidChangeNumber(uint8_t aAttrEnum) { NumberAttributesInfo info = GetNumberInfo(); NS_ASSERTION(info.mNumberCount > 0, "DidChangeNumber on element with no number attribs"); NS_ASSERTION(aAttrEnum < info.mNumberCount, "aAttrEnum out of range"); nsAttrValue attrValue; attrValue.SetTo(info.mNumbers[aAttrEnum].GetBaseValue(), nullptr); SetParsedAttr(kNameSpaceID_None, info.mNumberInfo[aAttrEnum].mName, nullptr, attrValue, true); } void SVGElement::DidAnimateNumber(uint8_t aAttrEnum) { nsIFrame* frame = GetPrimaryFrame(); if (frame) { NumberAttributesInfo info = GetNumberInfo(); frame->AttributeChanged(kNameSpaceID_None, info.mNumberInfo[aAttrEnum].mName, MutationEvent_Binding::SMIL); } } void SVGElement::GetAnimatedNumberValues(float* aFirst, ...) { NumberAttributesInfo info = GetNumberInfo(); NS_ASSERTION(info.mNumberCount > 0, "GetAnimatedNumberValues on element with no number attribs"); float* f = aFirst; uint32_t i = 0; va_list args; va_start(args, aFirst); while (f && i < info.mNumberCount) { *f = info.mNumbers[i++].GetAnimValue(); f = va_arg(args, float*); } va_end(args); } SVGElement::NumberPairAttributesInfo SVGElement::GetNumberPairInfo() { return NumberPairAttributesInfo(nullptr, nullptr, 0); } void SVGElement::NumberPairAttributesInfo::Reset(uint8_t aAttrEnum) { mNumberPairs[aAttrEnum].Init(aAttrEnum, mNumberPairInfo[aAttrEnum].mDefaultValue1, mNumberPairInfo[aAttrEnum].mDefaultValue2); } nsAttrValue SVGElement::WillChangeNumberPair(uint8_t aAttrEnum) { return WillChangeValue(GetNumberPairInfo().mNumberPairInfo[aAttrEnum].mName); } void SVGElement::DidChangeNumberPair(uint8_t aAttrEnum, const nsAttrValue& aEmptyOrOldValue) { NumberPairAttributesInfo info = GetNumberPairInfo(); NS_ASSERTION(info.mNumberPairCount > 0, "DidChangePairNumber on element with no number pair attribs"); NS_ASSERTION(aAttrEnum < info.mNumberPairCount, "aAttrEnum out of range"); nsAttrValue newValue; newValue.SetTo(info.mNumberPairs[aAttrEnum], nullptr); DidChangeValue(info.mNumberPairInfo[aAttrEnum].mName, aEmptyOrOldValue, newValue); } void SVGElement::DidAnimateNumberPair(uint8_t aAttrEnum) { nsIFrame* frame = GetPrimaryFrame(); if (frame) { NumberPairAttributesInfo info = GetNumberPairInfo(); frame->AttributeChanged(kNameSpaceID_None, info.mNumberPairInfo[aAttrEnum].mName, MutationEvent_Binding::SMIL); } } SVGElement::IntegerAttributesInfo SVGElement::GetIntegerInfo() { return IntegerAttributesInfo(nullptr, nullptr, 0); } void SVGElement::IntegerAttributesInfo::Reset(uint8_t aAttrEnum) { mIntegers[aAttrEnum].Init(aAttrEnum, mIntegerInfo[aAttrEnum].mDefaultValue); } void SVGElement::DidChangeInteger(uint8_t aAttrEnum) { IntegerAttributesInfo info = GetIntegerInfo(); NS_ASSERTION(info.mIntegerCount > 0, "DidChangeInteger on element with no integer attribs"); NS_ASSERTION(aAttrEnum < info.mIntegerCount, "aAttrEnum out of range"); nsAttrValue attrValue; attrValue.SetTo(info.mIntegers[aAttrEnum].GetBaseValue(), nullptr); SetParsedAttr(kNameSpaceID_None, info.mIntegerInfo[aAttrEnum].mName, nullptr, attrValue, true); } void SVGElement::DidAnimateInteger(uint8_t aAttrEnum) { nsIFrame* frame = GetPrimaryFrame(); if (frame) { IntegerAttributesInfo info = GetIntegerInfo(); frame->AttributeChanged(kNameSpaceID_None, info.mIntegerInfo[aAttrEnum].mName, MutationEvent_Binding::SMIL); } } void SVGElement::GetAnimatedIntegerValues(int32_t* aFirst, ...) { IntegerAttributesInfo info = GetIntegerInfo(); NS_ASSERTION(info.mIntegerCount > 0, "GetAnimatedIntegerValues on element with no integer attribs"); int32_t* n = aFirst; uint32_t i = 0; va_list args; va_start(args, aFirst); while (n && i < info.mIntegerCount) { *n = info.mIntegers[i++].GetAnimValue(); n = va_arg(args, int32_t*); } va_end(args); } SVGElement::IntegerPairAttributesInfo SVGElement::GetIntegerPairInfo() { return IntegerPairAttributesInfo(nullptr, nullptr, 0); } void SVGElement::IntegerPairAttributesInfo::Reset(uint8_t aAttrEnum) { mIntegerPairs[aAttrEnum].Init(aAttrEnum, mIntegerPairInfo[aAttrEnum].mDefaultValue1, mIntegerPairInfo[aAttrEnum].mDefaultValue2); } nsAttrValue SVGElement::WillChangeIntegerPair(uint8_t aAttrEnum) { return WillChangeValue( GetIntegerPairInfo().mIntegerPairInfo[aAttrEnum].mName); } void SVGElement::DidChangeIntegerPair(uint8_t aAttrEnum, const nsAttrValue& aEmptyOrOldValue) { IntegerPairAttributesInfo info = GetIntegerPairInfo(); NS_ASSERTION(info.mIntegerPairCount > 0, "DidChangeIntegerPair on element with no integer pair attribs"); NS_ASSERTION(aAttrEnum < info.mIntegerPairCount, "aAttrEnum out of range"); nsAttrValue newValue; newValue.SetTo(info.mIntegerPairs[aAttrEnum], nullptr); DidChangeValue(info.mIntegerPairInfo[aAttrEnum].mName, aEmptyOrOldValue, newValue); } void SVGElement::DidAnimateIntegerPair(uint8_t aAttrEnum) { nsIFrame* frame = GetPrimaryFrame(); if (frame) { IntegerPairAttributesInfo info = GetIntegerPairInfo(); frame->AttributeChanged(kNameSpaceID_None, info.mIntegerPairInfo[aAttrEnum].mName, MutationEvent_Binding::SMIL); } } SVGElement::BooleanAttributesInfo SVGElement::GetBooleanInfo() { return BooleanAttributesInfo(nullptr, nullptr, 0); } void SVGElement::BooleanAttributesInfo::Reset(uint8_t aAttrEnum) { mBooleans[aAttrEnum].Init(aAttrEnum, mBooleanInfo[aAttrEnum].mDefaultValue); } void SVGElement::DidChangeBoolean(uint8_t aAttrEnum) { BooleanAttributesInfo info = GetBooleanInfo(); NS_ASSERTION(info.mBooleanCount > 0, "DidChangeBoolean on element with no boolean attribs"); NS_ASSERTION(aAttrEnum < info.mBooleanCount, "aAttrEnum out of range"); nsAttrValue attrValue(info.mBooleans[aAttrEnum].GetBaseValueAtom()); SetParsedAttr(kNameSpaceID_None, info.mBooleanInfo[aAttrEnum].mName, nullptr, attrValue, true); } void SVGElement::DidAnimateBoolean(uint8_t aAttrEnum) { nsIFrame* frame = GetPrimaryFrame(); if (frame) { BooleanAttributesInfo info = GetBooleanInfo(); frame->AttributeChanged(kNameSpaceID_None, info.mBooleanInfo[aAttrEnum].mName, MutationEvent_Binding::SMIL); } } SVGElement::EnumAttributesInfo SVGElement::GetEnumInfo() { return EnumAttributesInfo(nullptr, nullptr, 0); } void SVGElement::EnumAttributesInfo::Reset(uint8_t aAttrEnum) { mEnums[aAttrEnum].Init(aAttrEnum, mEnumInfo[aAttrEnum].mDefaultValue); } void SVGElement::EnumAttributesInfo::SetUnknownValue(uint8_t aAttrEnum) { // Fortunately in SVG every enum's unknown value is 0 mEnums[aAttrEnum].Init(aAttrEnum, 0); } void SVGElement::DidChangeEnum(uint8_t aAttrEnum) { EnumAttributesInfo info = GetEnumInfo(); NS_ASSERTION(info.mEnumCount > 0, "DidChangeEnum on element with no enum attribs"); NS_ASSERTION(aAttrEnum < info.mEnumCount, "aAttrEnum out of range"); nsAttrValue attrValue(info.mEnums[aAttrEnum].GetBaseValueAtom(this)); SetParsedAttr(kNameSpaceID_None, info.mEnumInfo[aAttrEnum].mName, nullptr, attrValue, true); } void SVGElement::DidAnimateEnum(uint8_t aAttrEnum) { nsIFrame* frame = GetPrimaryFrame(); if (frame) { EnumAttributesInfo info = GetEnumInfo(); frame->AttributeChanged(kNameSpaceID_None, info.mEnumInfo[aAttrEnum].mName, MutationEvent_Binding::SMIL); } } SVGOrient* SVGElement::GetOrient() { return nullptr; } nsAttrValue SVGElement::WillChangeOrient() { return WillChangeValue(nsGkAtoms::orient); } void SVGElement::DidChangeOrient(const nsAttrValue& aEmptyOrOldValue) { SVGOrient* orient = GetOrient(); NS_ASSERTION(orient, "DidChangeOrient on element with no orient attrib"); nsAttrValue newValue; newValue.SetTo(*orient, nullptr); DidChangeValue(nsGkAtoms::orient, aEmptyOrOldValue, newValue); } void SVGElement::DidAnimateOrient() { nsIFrame* frame = GetPrimaryFrame(); if (frame) { frame->AttributeChanged(kNameSpaceID_None, nsGkAtoms::orient, MutationEvent_Binding::SMIL); } } SVGViewBox* SVGElement::GetViewBox() { return nullptr; } nsAttrValue SVGElement::WillChangeViewBox() { return WillChangeValue(nsGkAtoms::viewBox); } void SVGElement::DidChangeViewBox(const nsAttrValue& aEmptyOrOldValue) { SVGViewBox* viewBox = GetViewBox(); NS_ASSERTION(viewBox, "DidChangeViewBox on element with no viewBox attrib"); nsAttrValue newValue; newValue.SetTo(*viewBox, nullptr); DidChangeValue(nsGkAtoms::viewBox, aEmptyOrOldValue, newValue); } void SVGElement::DidAnimateViewBox() { nsIFrame* frame = GetPrimaryFrame(); if (frame) { frame->AttributeChanged(kNameSpaceID_None, nsGkAtoms::viewBox, MutationEvent_Binding::SMIL); } } SVGAnimatedPreserveAspectRatio* SVGElement::GetPreserveAspectRatio() { return nullptr; } nsAttrValue SVGElement::WillChangePreserveAspectRatio() { return WillChangeValue(nsGkAtoms::preserveAspectRatio); } void SVGElement::DidChangePreserveAspectRatio( const nsAttrValue& aEmptyOrOldValue) { SVGAnimatedPreserveAspectRatio* preserveAspectRatio = GetPreserveAspectRatio(); NS_ASSERTION(preserveAspectRatio, "DidChangePreserveAspectRatio on element with no " "preserveAspectRatio attrib"); nsAttrValue newValue; newValue.SetTo(*preserveAspectRatio, nullptr); DidChangeValue(nsGkAtoms::preserveAspectRatio, aEmptyOrOldValue, newValue); } void SVGElement::DidAnimatePreserveAspectRatio() { nsIFrame* frame = GetPrimaryFrame(); if (frame) { frame->AttributeChanged(kNameSpaceID_None, nsGkAtoms::preserveAspectRatio, MutationEvent_Binding::SMIL); } } nsAttrValue SVGElement::WillChangeTransformList() { return WillChangeValue(GetTransformListAttrName()); } void SVGElement::DidChangeTransformList(const nsAttrValue& aEmptyOrOldValue) { MOZ_ASSERT(GetTransformListAttrName(), "Changing non-existent transform list?"); // The transform attribute is being set, so we must ensure that the // SVGAnimatedTransformList is/has been allocated: nsAttrValue newValue; newValue.SetTo(GetAnimatedTransformList(DO_ALLOCATE)->GetBaseValue(), nullptr); DidChangeValue(GetTransformListAttrName(), aEmptyOrOldValue, newValue); } void SVGElement::DidAnimateTransformList(int32_t aModType) { MOZ_ASSERT(GetTransformListAttrName(), "Animating non-existent transform data?"); nsIFrame* frame = GetPrimaryFrame(); if (frame) { nsAtom* transformAttr = GetTransformListAttrName(); frame->AttributeChanged(kNameSpaceID_None, transformAttr, aModType); // When script changes the 'transform' attribute, Element::SetAttrAndNotify // will call nsNodeUtils::AttributeChanged, under which // SVGTransformableElement::GetAttributeChangeHint will be called and an // appropriate change event posted to update our frame's overflow rects. // The SetAttrAndNotify doesn't happen for transform changes caused by // 'animateTransform' though (and sending out the mutation events that // nsNodeUtils::AttributeChanged dispatches would be inappropriate // anyway), so we need to post the change event ourself. nsChangeHint changeHint = GetAttributeChangeHint(transformAttr, aModType); if (changeHint) { nsLayoutUtils::PostRestyleEvent(this, nsRestyleHint(0), changeHint); } } } SVGElement::StringAttributesInfo SVGElement::GetStringInfo() { return StringAttributesInfo(nullptr, nullptr, 0); } void SVGElement::StringAttributesInfo::Reset(uint8_t aAttrEnum) { mStrings[aAttrEnum].Init(aAttrEnum); } void SVGElement::GetStringBaseValue(uint8_t aAttrEnum, nsAString& aResult) const { SVGElement::StringAttributesInfo info = const_cast(this)->GetStringInfo(); NS_ASSERTION(info.mStringCount > 0, "GetBaseValue on element with no string attribs"); NS_ASSERTION(aAttrEnum < info.mStringCount, "aAttrEnum out of range"); GetAttr(info.mStringInfo[aAttrEnum].mNamespaceID, info.mStringInfo[aAttrEnum].mName, aResult); } void SVGElement::SetStringBaseValue(uint8_t aAttrEnum, const nsAString& aValue) { SVGElement::StringAttributesInfo info = GetStringInfo(); NS_ASSERTION(info.mStringCount > 0, "SetBaseValue on element with no string attribs"); NS_ASSERTION(aAttrEnum < info.mStringCount, "aAttrEnum out of range"); SetAttr(info.mStringInfo[aAttrEnum].mNamespaceID, info.mStringInfo[aAttrEnum].mName, aValue, true); } void SVGElement::DidAnimateString(uint8_t aAttrEnum) { nsIFrame* frame = GetPrimaryFrame(); if (frame) { StringAttributesInfo info = GetStringInfo(); frame->AttributeChanged(info.mStringInfo[aAttrEnum].mNamespaceID, info.mStringInfo[aAttrEnum].mName, MutationEvent_Binding::SMIL); } } SVGElement::StringListAttributesInfo SVGElement::GetStringListInfo() { return StringListAttributesInfo(nullptr, nullptr, 0); } nsAttrValue SVGElement::WillChangeStringList( bool aIsConditionalProcessingAttribute, uint8_t aAttrEnum) { nsStaticAtom* name; if (aIsConditionalProcessingAttribute) { nsCOMPtr tests(do_QueryInterface(this)); name = tests->GetAttrName(aAttrEnum); } else { name = GetStringListInfo().mStringListInfo[aAttrEnum].mName; } return WillChangeValue(name); } void SVGElement::DidChangeStringList(bool aIsConditionalProcessingAttribute, uint8_t aAttrEnum, const nsAttrValue& aEmptyOrOldValue) { nsStaticAtom* name; nsAttrValue newValue; nsCOMPtr tests; if (aIsConditionalProcessingAttribute) { tests = do_QueryObject(this); name = tests->GetAttrName(aAttrEnum); tests->GetAttrValue(aAttrEnum, newValue); } else { StringListAttributesInfo info = GetStringListInfo(); NS_ASSERTION(info.mStringListCount > 0, "DidChangeStringList on element with no string list attribs"); NS_ASSERTION(aAttrEnum < info.mStringListCount, "aAttrEnum out of range"); name = info.mStringListInfo[aAttrEnum].mName; newValue.SetTo(info.mStringLists[aAttrEnum], nullptr); } DidChangeValue(name, aEmptyOrOldValue, newValue); if (aIsConditionalProcessingAttribute) { tests->MaybeInvalidate(); } } void SVGElement::StringListAttributesInfo::Reset(uint8_t aAttrEnum) { mStringLists[aAttrEnum].Clear(); // caller notifies } nsresult SVGElement::ReportAttributeParseFailure(Document* aDocument, nsAtom* aAttribute, const nsAString& aValue) { const nsString& attributeValue = PromiseFlatString(aValue); const char16_t* strings[] = {aAttribute->GetUTF16String(), attributeValue.get()}; return SVGContentUtils::ReportToConsole(aDocument, "AttributeParseWarning", strings, ArrayLength(strings)); } void SVGElement::RecompileScriptEventListeners() { int32_t i, count = mAttrs.AttrCount(); for (i = 0; i < count; ++i) { const nsAttrName* name = mAttrs.AttrNameAt(i); // Eventlistenener-attributes are always in the null namespace if (!name->IsAtom()) { continue; } nsAtom* attr = name->Atom(); if (!IsEventAttributeName(attr)) { continue; } nsAutoString value; GetAttr(attr, value); SetEventHandler(GetEventNameForAttr(attr), value, true); } } UniquePtr SVGElement::GetAnimatedAttr(int32_t aNamespaceID, nsAtom* aName) { if (aNamespaceID == kNameSpaceID_None) { // Transforms: if (GetTransformListAttrName() == aName) { // The transform attribute is being animated, so we must ensure that the // SVGAnimatedTransformList is/has been allocated: return GetAnimatedTransformList(DO_ALLOCATE)->ToSMILAttr(this); } // Motion (fake 'attribute' for animateMotion) if (aName == nsGkAtoms::mozAnimateMotionDummyAttr) { return MakeUnique(this); } // Lengths: LengthAttributesInfo info = GetLengthInfo(); for (uint32_t i = 0; i < info.mLengthCount; i++) { if (aName == info.mLengthInfo[i].mName) { return info.mLengths[i].ToSMILAttr(this); } } // Numbers: { NumberAttributesInfo info = GetNumberInfo(); for (uint32_t i = 0; i < info.mNumberCount; i++) { if (aName == info.mNumberInfo[i].mName) { return info.mNumbers[i].ToSMILAttr(this); } } } // Number Pairs: { NumberPairAttributesInfo info = GetNumberPairInfo(); for (uint32_t i = 0; i < info.mNumberPairCount; i++) { if (aName == info.mNumberPairInfo[i].mName) { return info.mNumberPairs[i].ToSMILAttr(this); } } } // Integers: { IntegerAttributesInfo info = GetIntegerInfo(); for (uint32_t i = 0; i < info.mIntegerCount; i++) { if (aName == info.mIntegerInfo[i].mName) { return info.mIntegers[i].ToSMILAttr(this); } } } // Integer Pairs: { IntegerPairAttributesInfo info = GetIntegerPairInfo(); for (uint32_t i = 0; i < info.mIntegerPairCount; i++) { if (aName == info.mIntegerPairInfo[i].mName) { return info.mIntegerPairs[i].ToSMILAttr(this); } } } // Enumerations: { EnumAttributesInfo info = GetEnumInfo(); for (uint32_t i = 0; i < info.mEnumCount; i++) { if (aName == info.mEnumInfo[i].mName) { return info.mEnums[i].ToSMILAttr(this); } } } // Booleans: { BooleanAttributesInfo info = GetBooleanInfo(); for (uint32_t i = 0; i < info.mBooleanCount; i++) { if (aName == info.mBooleanInfo[i].mName) { return info.mBooleans[i].ToSMILAttr(this); } } } // orient: if (aName == nsGkAtoms::orient) { SVGOrient* orient = GetOrient(); return orient ? orient->ToSMILAttr(this) : nullptr; } // preserveAspectRatio: // viewBox: if (aName == nsGkAtoms::viewBox) { SVGViewBox* viewBox = GetViewBox(); return viewBox ? viewBox->ToSMILAttr(this) : nullptr; } // preserveAspectRatio: if (aName == nsGkAtoms::preserveAspectRatio) { SVGAnimatedPreserveAspectRatio* preserveAspectRatio = GetPreserveAspectRatio(); return preserveAspectRatio ? preserveAspectRatio->ToSMILAttr(this) : nullptr; } // NumberLists: { NumberListAttributesInfo info = GetNumberListInfo(); for (uint32_t i = 0; i < info.mNumberListCount; i++) { if (aName == info.mNumberListInfo[i].mName) { MOZ_ASSERT(i <= UCHAR_MAX, "Too many attributes"); return info.mNumberLists[i].ToSMILAttr(this, uint8_t(i)); } } } // LengthLists: { LengthListAttributesInfo info = GetLengthListInfo(); for (uint32_t i = 0; i < info.mLengthListCount; i++) { if (aName == info.mLengthListInfo[i].mName) { MOZ_ASSERT(i <= UCHAR_MAX, "Too many attributes"); return info.mLengthLists[i].ToSMILAttr( this, uint8_t(i), info.mLengthListInfo[i].mAxis, info.mLengthListInfo[i].mCouldZeroPadList); } } } // PointLists: { if (GetPointListAttrName() == aName) { SVGAnimatedPointList* pointList = GetAnimatedPointList(); if (pointList) { return pointList->ToSMILAttr(this); } } } // PathSegLists: { if (GetPathDataAttrName() == aName) { SVGAnimatedPathSegList* segList = GetAnimPathSegList(); if (segList) { return segList->ToSMILAttr(this); } } } if (aName == nsGkAtoms::_class) { return mClassAttribute.ToSMILAttr(this); } } // Strings { StringAttributesInfo info = GetStringInfo(); for (uint32_t i = 0; i < info.mStringCount; i++) { if (aNamespaceID == info.mStringInfo[i].mNamespaceID && aName == info.mStringInfo[i].mName) { return info.mStrings[i].ToSMILAttr(this); } } } return nullptr; } void SVGElement::AnimationNeedsResample() { Document* doc = GetComposedDoc(); if (doc && doc->HasAnimationController()) { doc->GetAnimationController()->SetResampleNeeded(); } } void SVGElement::FlushAnimations() { Document* doc = GetComposedDoc(); if (doc && doc->HasAnimationController()) { doc->GetAnimationController()->FlushResampleRequests(); } } } // namespace dom } // namespace mozilla