/* -*- 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/ServoBindings.h" #include "StyleStructContext.h" #include "gfxFontFamilyList.h" #include "nsAttrValueInlines.h" #include "nsCSSRuleProcessor.h" #include "nsContentUtils.h" #include "nsDOMTokenList.h" #include "nsIDOMNode.h" #include "nsIDocument.h" #include "nsINode.h" #include "nsIPrincipal.h" #include "nsNameSpaceManager.h" #include "nsString.h" #include "nsStyleStruct.h" #include "nsStyleUtil.h" #include "nsTArray.h" #include "mozilla/EventStates.h" #include "mozilla/ServoElementSnapshot.h" #include "mozilla/dom/Element.h" #define IMPL_STRONG_REF_TYPE(name, T) \ already_AddRefed name::Consume() { \ RefPtr result = dont_AddRef(mPtr); \ mPtr = nullptr; \ return result.forget(); \ }; IMPL_STRONG_REF_TYPE(ServoComputedValuesStrong, ServoComputedValues); IMPL_STRONG_REF_TYPE(RawServoStyleSheetStrong, RawServoStyleSheet); uint32_t Gecko_ChildrenCount(RawGeckoNode* aNode) { return aNode->GetChildCount(); } bool Gecko_NodeIsElement(RawGeckoNode* aNode) { return aNode->IsElement(); } RawGeckoNode* Gecko_GetParentNode(RawGeckoNode* aNode) { return aNode->GetParentNode(); } RawGeckoNode* Gecko_GetFirstChild(RawGeckoNode* aNode) { return aNode->GetFirstChild(); } RawGeckoNode* Gecko_GetLastChild(RawGeckoNode* aNode) { return aNode->GetLastChild(); } RawGeckoNode* Gecko_GetPrevSibling(RawGeckoNode* aNode) { return aNode->GetPreviousSibling(); } RawGeckoNode* Gecko_GetNextSibling(RawGeckoNode* aNode) { return aNode->GetNextSibling(); } RawGeckoElement* Gecko_GetParentElement(RawGeckoElement* aElement) { return aElement->GetParentElement(); } RawGeckoElement* Gecko_GetFirstChildElement(RawGeckoElement* aElement) { return aElement->GetFirstElementChild(); } RawGeckoElement* Gecko_GetLastChildElement(RawGeckoElement* aElement) { return aElement->GetLastElementChild(); } RawGeckoElement* Gecko_GetPrevSiblingElement(RawGeckoElement* aElement) { return aElement->GetPreviousElementSibling(); } RawGeckoElement* Gecko_GetNextSiblingElement(RawGeckoElement* aElement) { return aElement->GetNextElementSibling(); } RawGeckoElement* Gecko_GetDocumentElement(RawGeckoDocument* aDoc) { return aDoc->GetDocumentElement(); } EventStates::ServoType Gecko_ElementState(RawGeckoElement* aElement) { return aElement->StyleState().ServoValue(); } bool Gecko_IsHTMLElementInHTMLDocument(RawGeckoElement* aElement) { return aElement->IsHTMLElement() && aElement->OwnerDoc()->IsHTMLDocument(); } bool Gecko_IsLink(RawGeckoElement* aElement) { return nsCSSRuleProcessor::IsLink(aElement); } bool Gecko_IsTextNode(RawGeckoNode* aNode) { return aNode->NodeInfo()->NodeType() == nsIDOMNode::TEXT_NODE; } bool Gecko_IsVisitedLink(RawGeckoElement* aElement) { return aElement->StyleState().HasState(NS_EVENT_STATE_VISITED); } bool Gecko_IsUnvisitedLink(RawGeckoElement* aElement) { return aElement->StyleState().HasState(NS_EVENT_STATE_UNVISITED); } bool Gecko_IsRootElement(RawGeckoElement* aElement) { return aElement->OwnerDoc()->GetRootElement() == aElement; } nsIAtom* Gecko_LocalName(RawGeckoElement* aElement) { return aElement->NodeInfo()->NameAtom(); } nsIAtom* Gecko_Namespace(RawGeckoElement* aElement) { int32_t id = aElement->NodeInfo()->NamespaceID(); return nsContentUtils::NameSpaceManager()->NameSpaceURIAtomForServo(id); } nsIAtom* Gecko_GetElementId(RawGeckoElement* aElement) { const nsAttrValue* attr = aElement->GetParsedAttr(nsGkAtoms::id); return attr ? attr->GetAtomValue() : nullptr; } // Dirtiness tracking. uint32_t Gecko_GetNodeFlags(RawGeckoNode* aNode) { return aNode->GetFlags(); } void Gecko_SetNodeFlags(RawGeckoNode* aNode, uint32_t aFlags) { aNode->SetFlags(aFlags); } void Gecko_UnsetNodeFlags(RawGeckoNode* aNode, uint32_t aFlags) { aNode->UnsetFlags(aFlags); } nsStyleContext* Gecko_GetStyleContext(RawGeckoNode* aNode) { MOZ_ASSERT(aNode->IsContent()); nsIFrame* primaryFrame = aNode->AsContent()->GetPrimaryFrame(); if (!primaryFrame) { return nullptr; } return primaryFrame->StyleContext(); } nsChangeHint Gecko_CalcStyleDifference(nsStyleContext* aOldStyleContext, ServoComputedValuesBorrowed aComputedValues) { MOZ_ASSERT(aOldStyleContext); MOZ_ASSERT(aComputedValues); // Pass the safe thing, which causes us to miss a potential optimization. See // bug 1289863. nsChangeHint forDescendants = nsChangeHint_Hints_NotHandledForDescendants; // Eventually, we should compute things out of these flags like // ElementRestyler::RestyleSelf does and pass the result to the caller to // potentially halt traversal. See bug 1289868. uint32_t equalStructs, samePointerStructs; nsChangeHint result = aOldStyleContext->CalcStyleDifference(aComputedValues, forDescendants, &equalStructs, &samePointerStructs); return result; } void Gecko_StoreStyleDifference(RawGeckoNode* aNode, nsChangeHint aChangeHintToStore) { #ifdef MOZ_STYLO MOZ_ASSERT(aNode->IsContent()); MOZ_ASSERT(aNode->IsDirtyForServo(), "Change hint stored in a not-dirty node"); // For elements, we need to store the change hint in the proper style context. // For text nodes, we want to store the change hint in the parent element, // since Gecko's change list only operates on Elements, and we'll fail to // compute the change hint for the element properly because the property won't // always be in the cache of the parent's nsStyleContext. // // For Gecko this is not a problem, because they access the inherited structs // from the parent style context in order to inherit them, so they're found in // the cache and get compared. Element* aElement = aNode->IsElement() ? aNode->AsElement() : aNode->GetParentElement(); nsIFrame* primaryFrame = aElement->GetPrimaryFrame(); if (!primaryFrame) { // TODO: Pick the undisplayed content map from the frame-constructor, and // stick it there. For now we're generating ReconstructFrame // unconditionally, which is suboptimal. return; } primaryFrame->StyleContext()->StoreChangeHint(aChangeHintToStore); #else MOZ_CRASH("stylo: Shouldn't call Gecko_StoreStyleDifference in " "non-stylo build"); #endif } ServoDeclarationBlock* Gecko_GetServoDeclarationBlock(RawGeckoElement* aElement) { const nsAttrValue* attr = aElement->GetParsedAttr(nsGkAtoms::style); if (!attr || attr->Type() != nsAttrValue::eServoCSSDeclaration) { return nullptr; } return attr->GetServoCSSDeclarationValue(); } template static nsIAtom* AtomAttrValue(Implementor* aElement, nsIAtom* aName) { const nsAttrValue* attr = aElement->GetParsedAttr(aName); return attr ? attr->GetAtomValue() : nullptr; } template static bool DoMatch(Implementor* aElement, nsIAtom* aNS, nsIAtom* aName, MatchFn aMatch) { if (aNS) { int32_t ns = nsContentUtils::NameSpaceManager()->GetNameSpaceID(aNS, aElement->IsInChromeDocument()); NS_ENSURE_TRUE(ns != kNameSpaceID_Unknown, false); const nsAttrValue* value = aElement->GetParsedAttr(aName, ns); return value && aMatch(value); } // No namespace means any namespace - we have to check them all. :-( BorrowedAttrInfo attrInfo; for (uint32_t i = 0; (attrInfo = aElement->GetAttrInfoAt(i)); ++i) { if (attrInfo.mName->LocalName() != aName) { continue; } if (aMatch(attrInfo.mValue)) { return true; } } return false; } template static bool HasAttr(Implementor* aElement, nsIAtom* aNS, nsIAtom* aName) { auto match = [](const nsAttrValue* aValue) { return true; }; return DoMatch(aElement, aNS, aName, match); } template static bool AttrEquals(Implementor* aElement, nsIAtom* aNS, nsIAtom* aName, nsIAtom* aStr, bool aIgnoreCase) { auto match = [aStr, aIgnoreCase](const nsAttrValue* aValue) { return aValue->Equals(aStr, aIgnoreCase ? eIgnoreCase : eCaseMatters); }; return DoMatch(aElement, aNS, aName, match); } template static bool AttrDashEquals(Implementor* aElement, nsIAtom* aNS, nsIAtom* aName, nsIAtom* aStr) { auto match = [aStr](const nsAttrValue* aValue) { nsAutoString str; aValue->ToString(str); const nsDefaultStringComparator c; return nsStyleUtil::DashMatchCompare(str, nsDependentAtomString(aStr), c); }; return DoMatch(aElement, aNS, aName, match); } template static bool AttrIncludes(Implementor* aElement, nsIAtom* aNS, nsIAtom* aName, nsIAtom* aStr) { auto match = [aStr](const nsAttrValue* aValue) { nsAutoString str; aValue->ToString(str); const nsDefaultStringComparator c; return nsStyleUtil::ValueIncludes(str, nsDependentAtomString(aStr), c); }; return DoMatch(aElement, aNS, aName, match); } template static bool AttrHasSubstring(Implementor* aElement, nsIAtom* aNS, nsIAtom* aName, nsIAtom* aStr) { auto match = [aStr](const nsAttrValue* aValue) { nsAutoString str; aValue->ToString(str); return FindInReadable(str, nsDependentAtomString(aStr)); }; return DoMatch(aElement, aNS, aName, match); } template static bool AttrHasPrefix(Implementor* aElement, nsIAtom* aNS, nsIAtom* aName, nsIAtom* aStr) { auto match = [aStr](const nsAttrValue* aValue) { nsAutoString str; aValue->ToString(str); return StringBeginsWith(str, nsDependentAtomString(aStr)); }; return DoMatch(aElement, aNS, aName, match); } template static bool AttrHasSuffix(Implementor* aElement, nsIAtom* aNS, nsIAtom* aName, nsIAtom* aStr) { auto match = [aStr](const nsAttrValue* aValue) { nsAutoString str; aValue->ToString(str); return StringEndsWith(str, nsDependentAtomString(aStr)); }; return DoMatch(aElement, aNS, aName, match); } /** * Gets the class or class list (if any) of the implementor. The calling * convention here is rather hairy, and is optimized for getting Servo the * information it needs for hot calls. * * The return value indicates the number of classes. If zero, neither outparam * is valid. If one, the class_ outparam is filled with the atom of the class. * If two or more, the classList outparam is set to point to an array of atoms * representing the class list. * * The array is borrowed and the atoms are not addrefed. These values can be * invalidated by any DOM mutation. Use them in a tight scope. */ template static uint32_t ClassOrClassList(Implementor* aElement, nsIAtom** aClass, nsIAtom*** aClassList) { const nsAttrValue* attr = aElement->GetParsedAttr(nsGkAtoms::_class); if (!attr) { return 0; } // For class values with only whitespace, Gecko just stores a string. For the // purposes of the style system, there is no class in this case. if (attr->Type() == nsAttrValue::eString) { MOZ_ASSERT(nsContentUtils::TrimWhitespace( attr->GetStringValue()).IsEmpty()); return 0; } // Single tokens are generally stored as an atom. Check that case. if (attr->Type() == nsAttrValue::eAtom) { *aClass = attr->GetAtomValue(); return 1; } // At this point we should have an atom array. It is likely, but not // guaranteed, that we have two or more elements in the array. MOZ_ASSERT(attr->Type() == nsAttrValue::eAtomArray); nsTArray>* atomArray = attr->GetAtomArrayValue(); uint32_t length = atomArray->Length(); // Special case: zero elements. if (length == 0) { return 0; } // Special case: one element. if (length == 1) { *aClass = atomArray->ElementAt(0); return 1; } // General case: Two or more elements. // // Note: We could also expose this array as an array of nsCOMPtrs, since // bindgen knows what those look like, and eliminate the reinterpret_cast. // But it's not obvious that that would be preferable. static_assert(sizeof(nsCOMPtr) == sizeof(nsIAtom*), "Bad simplification"); static_assert(alignof(nsCOMPtr) == alignof(nsIAtom*), "Bad simplification"); nsCOMPtr* elements = atomArray->Elements(); nsIAtom** rawElements = reinterpret_cast(elements); *aClassList = rawElements; return atomArray->Length(); } #define SERVO_IMPL_ELEMENT_ATTR_MATCHING_FUNCTIONS(prefix_, implementor_) \ nsIAtom* prefix_##AtomAttrValue(implementor_* aElement, nsIAtom* aName) \ { \ return AtomAttrValue(aElement, aName); \ } \ bool prefix_##HasAttr(implementor_* aElement, nsIAtom* aNS, nsIAtom* aName) \ { \ return HasAttr(aElement, aNS, aName); \ } \ bool prefix_##AttrEquals(implementor_* aElement, nsIAtom* aNS, \ nsIAtom* aName, nsIAtom* aStr, bool aIgnoreCase) \ { \ return AttrEquals(aElement, aNS, aName, aStr, aIgnoreCase); \ } \ bool prefix_##AttrDashEquals(implementor_* aElement, nsIAtom* aNS, \ nsIAtom* aName, nsIAtom* aStr) \ { \ return AttrDashEquals(aElement, aNS, aName, aStr); \ } \ bool prefix_##AttrIncludes(implementor_* aElement, nsIAtom* aNS, \ nsIAtom* aName, nsIAtom* aStr) \ { \ return AttrIncludes(aElement, aNS, aName, aStr); \ } \ bool prefix_##AttrHasSubstring(implementor_* aElement, nsIAtom* aNS, \ nsIAtom* aName, nsIAtom* aStr) \ { \ return AttrHasSubstring(aElement, aNS, aName, aStr); \ } \ bool prefix_##AttrHasPrefix(implementor_* aElement, nsIAtom* aNS, \ nsIAtom* aName, nsIAtom* aStr) \ { \ return AttrHasPrefix(aElement, aNS, aName, aStr); \ } \ bool prefix_##AttrHasSuffix(implementor_* aElement, nsIAtom* aNS, \ nsIAtom* aName, nsIAtom* aStr) \ { \ return AttrHasSuffix(aElement, aNS, aName, aStr); \ } \ uint32_t prefix_##ClassOrClassList(implementor_* aElement, nsIAtom** aClass, \ nsIAtom*** aClassList) \ { \ return ClassOrClassList(aElement, aClass, aClassList); \ } SERVO_IMPL_ELEMENT_ATTR_MATCHING_FUNCTIONS(Gecko_, RawGeckoElement) SERVO_IMPL_ELEMENT_ATTR_MATCHING_FUNCTIONS(Gecko_Snapshot, ServoElementSnapshot) #undef SERVO_IMPL_ELEMENT_ATTR_MATCHING_FUNCTIONS ServoNodeData* Gecko_GetNodeData(RawGeckoNode* aNode) { return aNode->ServoData().get(); } void Gecko_SetNodeData(RawGeckoNode* aNode, ServoNodeData* aData) { MOZ_ASSERT(!aNode->ServoData()); aNode->ServoData().reset(aData); } nsIAtom* Gecko_Atomize(const char* aString, uint32_t aLength) { return NS_Atomize(nsDependentCSubstring(aString, aLength)).take(); } void Gecko_AddRefAtom(nsIAtom* aAtom) { NS_ADDREF(aAtom); } void Gecko_ReleaseAtom(nsIAtom* aAtom) { NS_RELEASE(aAtom); } const uint16_t* Gecko_GetAtomAsUTF16(nsIAtom* aAtom, uint32_t* aLength) { static_assert(sizeof(char16_t) == sizeof(uint16_t), "Servo doesn't know what a char16_t is"); MOZ_ASSERT(aAtom); *aLength = aAtom->GetLength(); // We need to manually cast from char16ptr_t to const char16_t* to handle the // MOZ_USE_CHAR16_WRAPPER we use on WIndows. return reinterpret_cast(static_cast(aAtom->GetUTF16String())); } bool Gecko_AtomEqualsUTF8(nsIAtom* aAtom, const char* aString, uint32_t aLength) { // XXXbholley: We should be able to do this without converting, I just can't // find the right thing to call. nsAutoString atomStr; aAtom->ToString(atomStr); NS_ConvertUTF8toUTF16 inStr(nsDependentCSubstring(aString, aLength)); return atomStr.Equals(inStr); } bool Gecko_AtomEqualsUTF8IgnoreCase(nsIAtom* aAtom, const char* aString, uint32_t aLength) { // XXXbholley: We should be able to do this without converting, I just can't // find the right thing to call. nsAutoString atomStr; aAtom->ToString(atomStr); NS_ConvertUTF8toUTF16 inStr(nsDependentCSubstring(aString, aLength)); return nsContentUtils::EqualsIgnoreASCIICase(atomStr, inStr); } void Gecko_FontFamilyList_Clear(FontFamilyList* aList) { aList->Clear(); } void Gecko_FontFamilyList_AppendNamed(FontFamilyList* aList, nsIAtom* aName) { // Servo doesn't record whether the name was quoted or unquoted, so just // assume unquoted for now. FontFamilyName family; aName->ToString(family.mName); aList->Append(family); } void Gecko_FontFamilyList_AppendGeneric(FontFamilyList* aList, FontFamilyType aType) { aList->Append(FontFamilyName(aType)); } void Gecko_CopyFontFamilyFrom(nsFont* dst, const nsFont* src) { dst->fontlist = src->fontlist; } void Gecko_SetListStyleType(nsStyleList* style_struct, uint32_t type) { // Builtin counter styles are static and use no-op refcounting, and thus are // safe to use off-main-thread. style_struct->SetCounterStyle(CounterStyleManager::GetBuiltinStyle(type)); } void Gecko_CopyListStyleTypeFrom(nsStyleList* dst, const nsStyleList* src) { dst->SetCounterStyle(src->GetCounterStyle()); } NS_IMPL_HOLDER_FFI_REFCOUNTING(nsIPrincipal, Principal) NS_IMPL_HOLDER_FFI_REFCOUNTING(nsIURI, URI) void Gecko_SetMozBinding(nsStyleDisplay* aDisplay, const uint8_t* aURLString, uint32_t aURLStringLength, ThreadSafeURIHolder* aBaseURI, ThreadSafeURIHolder* aReferrer, ThreadSafePrincipalHolder* aPrincipal) { MOZ_ASSERT(aDisplay); MOZ_ASSERT(aURLString); MOZ_ASSERT(aBaseURI); MOZ_ASSERT(aReferrer); MOZ_ASSERT(aPrincipal); nsString url; nsDependentCSubstring urlString(reinterpret_cast(aURLString), aURLStringLength); AppendUTF8toUTF16(urlString, url); RefPtr urlBuffer = nsCSSValue::BufferFromString(url); aDisplay->mBinding = new css::URLValue(urlBuffer, do_AddRef(aBaseURI), do_AddRef(aReferrer), do_AddRef(aPrincipal)); } void Gecko_CopyMozBindingFrom(nsStyleDisplay* aDest, const nsStyleDisplay* aSrc) { aDest->mBinding = aSrc->mBinding; } void Gecko_SetNullImageValue(nsStyleImage* aImage) { MOZ_ASSERT(aImage); aImage->SetNull(); } void Gecko_SetGradientImageValue(nsStyleImage* aImage, nsStyleGradient* aGradient) { MOZ_ASSERT(aImage); aImage->SetGradientData(aGradient); } void Gecko_CopyImageValueFrom(nsStyleImage* aImage, const nsStyleImage* aOther) { MOZ_ASSERT(aImage); MOZ_ASSERT(aOther); *aImage = *aOther; } nsStyleGradient* Gecko_CreateGradient(uint8_t aShape, uint8_t aSize, bool aRepeating, bool aLegacySyntax, uint32_t aStopCount) { nsStyleGradient* result = new nsStyleGradient(); result->mShape = aShape; result->mSize = aSize; result->mRepeating = aRepeating; result->mLegacySyntax = aLegacySyntax; result->mAngle.SetNoneValue(); result->mBgPosX.SetNoneValue(); result->mBgPosY.SetNoneValue(); result->mRadiusX.SetNoneValue(); result->mRadiusY.SetNoneValue(); nsStyleGradientStop dummyStop; dummyStop.mLocation.SetNoneValue(); dummyStop.mColor = NS_RGB(0, 0, 0); dummyStop.mIsInterpolationHint = 0; for (uint32_t i = 0; i < aStopCount; i++) { result->mStops.AppendElement(dummyStop); } return result; } void Gecko_EnsureTArrayCapacity(void* aArray, size_t aCapacity, size_t aElemSize) { auto base = reinterpret_cast *>(aArray); base->EnsureCapacity(aCapacity, aElemSize); } void Gecko_EnsureImageLayersLength(nsStyleImageLayers* aLayers, size_t aLen) { aLayers->mLayers.EnsureLengthAtLeast(aLen); } void Gecko_InitializeImageLayer(nsStyleImageLayers::Layer* aLayer, nsStyleImageLayers::LayerType aLayerType) { aLayer->Initialize(aLayerType); } void Gecko_ResetStyleCoord(nsStyleUnit* aUnit, nsStyleUnion* aValue) { nsStyleCoord::Reset(*aUnit, *aValue); } void Gecko_SetStyleCoordCalcValue(nsStyleUnit* aUnit, nsStyleUnion* aValue, nsStyleCoord::CalcValue aCalc) { // Calc units should be cleaned up first MOZ_ASSERT(*aUnit != nsStyleUnit::eStyleUnit_Calc); nsStyleCoord::Calc* calcRef = new nsStyleCoord::Calc(); calcRef->mLength = aCalc.mLength; calcRef->mPercent = aCalc.mPercent; calcRef->mHasPercent = aCalc.mHasPercent; *aUnit = nsStyleUnit::eStyleUnit_Calc; aValue->mPointer = calcRef; calcRef->AddRef(); } void Gecko_CopyClipPathValueFrom(mozilla::StyleClipPath* aDst, const mozilla::StyleClipPath* aSrc) { MOZ_ASSERT(aDst); MOZ_ASSERT(aSrc); *aDst = *aSrc; } void Gecko_DestroyClipPath(mozilla::StyleClipPath* aClip) { aClip->~StyleClipPath(); } mozilla::StyleBasicShape* Gecko_NewBasicShape(mozilla::StyleBasicShapeType aType) { RefPtr ptr = new mozilla::StyleBasicShape(aType); return ptr.forget().take(); } NS_IMPL_THREADSAFE_FFI_REFCOUNTING(nsStyleCoord::Calc, Calc); #define STYLE_STRUCT(name, checkdata_cb) \ \ void \ Gecko_Construct_nsStyle##name(nsStyle##name* ptr) \ { \ new (ptr) nsStyle##name(StyleStructContext::ServoContext()); \ } \ \ void \ Gecko_CopyConstruct_nsStyle##name(nsStyle##name* ptr, \ const nsStyle##name* other) \ { \ new (ptr) nsStyle##name(*other); \ } \ \ void \ Gecko_Destroy_nsStyle##name(nsStyle##name* ptr) \ { \ ptr->~nsStyle##name(); \ } #include "nsStyleStructList.h" #undef STYLE_STRUCT #ifndef MOZ_STYLO void Servo_DropNodeData(ServoNodeData* data) { MOZ_CRASH("stylo: shouldn't be calling Servo_DropNodeData in a " "non-MOZ_STYLO build"); } RawServoStyleSheetStrong Servo_StylesheetFromUTF8Bytes(const uint8_t* bytes, uint32_t length, mozilla::css::SheetParsingMode mode, const uint8_t* base_bytes, uint32_t base_length, ThreadSafeURIHolder* base, ThreadSafeURIHolder* referrer, ThreadSafePrincipalHolder* principal) { MOZ_CRASH("stylo: shouldn't be calling Servo_StylesheetFromUTF8Bytes in a " "non-MOZ_STYLO build"); } void Servo_AddRefStyleSheet(RawServoStyleSheetBorrowed sheet) { MOZ_CRASH("stylo: shouldn't be calling Servo_AddRefStylesheet in a " "non-MOZ_STYLO build"); } void Servo_ReleaseStyleSheet(RawServoStyleSheetBorrowed sheet) { MOZ_CRASH("stylo: shouldn't be calling Servo_ReleaseStylesheet in a " "non-MOZ_STYLO build"); } void Servo_AppendStyleSheet(RawServoStyleSheetBorrowed sheet, RawServoStyleSet* set) { MOZ_CRASH("stylo: shouldn't be calling Servo_AppendStyleSheet in a " "non-MOZ_STYLO build"); } void Servo_PrependStyleSheet(RawServoStyleSheetBorrowed sheet, RawServoStyleSet* set) { MOZ_CRASH("stylo: shouldn't be calling Servo_PrependStyleSheet in a " "non-MOZ_STYLO build"); } void Servo_RemoveStyleSheet(RawServoStyleSheetBorrowed sheet, RawServoStyleSet* set) { MOZ_CRASH("stylo: shouldn't be calling Servo_RemoveStyleSheet in a " "non-MOZ_STYLO build"); } void Servo_InsertStyleSheetBefore(RawServoStyleSheetBorrowed sheet, RawServoStyleSheetBorrowed reference, RawServoStyleSet* set) { MOZ_CRASH("stylo: shouldn't be calling Servo_InsertStyleSheetBefore in a " "non-MOZ_STYLO build"); } bool Servo_StyleSheetHasRules(RawServoStyleSheetBorrowed sheet) { MOZ_CRASH("stylo: shouldn't be calling Servo_StyleSheetHasRules in a " "non-MOZ_STYLO build"); } RawServoStyleSet* Servo_InitStyleSet() { MOZ_CRASH("stylo: shouldn't be calling Servo_InitStyleSet in a " "non-MOZ_STYLO build"); } void Servo_DropStyleSet(RawServoStyleSet* set) { MOZ_CRASH("stylo: shouldn't be calling Servo_DropStyleSet in a " "non-MOZ_STYLO build"); } ServoDeclarationBlock* Servo_ParseStyleAttribute(const uint8_t* bytes, uint32_t length, nsHTMLCSSStyleSheet* cache) { MOZ_CRASH("stylo: shouldn't be calling Servo_ParseStyleAttribute in a " "non-MOZ_STYLO build"); } void Servo_DropDeclarationBlock(ServoDeclarationBlock* declarations) { MOZ_CRASH("stylo: shouldn't be calling Servo_DropDeclarationBlock in a " "non-MOZ_STYLO build"); } nsHTMLCSSStyleSheet* Servo_GetDeclarationBlockCache(ServoDeclarationBlock* declarations) { MOZ_CRASH("stylo: shouldn't be calling Servo_GetDeclarationBlockCache in a " "non-MOZ_STYLO build"); } void Servo_SetDeclarationBlockImmutable(ServoDeclarationBlock* declarations) { MOZ_CRASH("stylo: shouldn't be calling Servo_SetDeclarationBlockImmutable in a " "non-MOZ_STYLO build"); } void Servo_ClearDeclarationBlockCachePointer(ServoDeclarationBlock* declarations) { MOZ_CRASH("stylo: shouldn't be calling Servo_ClearDeclarationBlockCachePointer in a " "non-MOZ_STYLO build"); } bool Servo_CSSSupports(const uint8_t* name, uint32_t name_length, const uint8_t* value, uint32_t value_length) { MOZ_CRASH("stylo: shouldn't be calling Servo_CSSSupports in a " "non-MOZ_STYLO build"); } ServoComputedValuesStrong Servo_GetComputedValues(RawGeckoNode* node) { MOZ_CRASH("stylo: shouldn't be calling Servo_GetComputedValues in a " "non-MOZ_STYLO build"); } ServoComputedValuesStrong Servo_GetComputedValuesForAnonymousBox(ServoComputedValuesBorrowed parentStyleOrNull, nsIAtom* pseudoTag, RawServoStyleSet* set) { MOZ_CRASH("stylo: shouldn't be calling Servo_GetComputedValuesForAnonymousBox in a " "non-MOZ_STYLO build"); } ServoComputedValuesStrong Servo_GetComputedValuesForPseudoElement(ServoComputedValuesBorrowed parent_style, RawGeckoElement* match_element, nsIAtom* pseudo_tag, RawServoStyleSet* set, bool is_probe) { MOZ_CRASH("stylo: shouldn't be calling Servo_GetComputedValuesForPseudoElement in a " "non-MOZ_STYLO build"); } ServoComputedValuesStrong Servo_InheritComputedValues(ServoComputedValuesBorrowed parent_style) { MOZ_CRASH("stylo: shouldn't be calling Servo_InheritComputedValues in a " "non-MOZ_STYLO build"); } void Servo_AddRefComputedValues(ServoComputedValuesBorrowed) { MOZ_CRASH("stylo: shouldn't be calling Servo_AddRefComputedValues in a " "non-MOZ_STYLO build"); } void Servo_ReleaseComputedValues(ServoComputedValuesBorrowed) { MOZ_CRASH("stylo: shouldn't be calling Servo_ReleaseComputedValues in a " "non-MOZ_STYLO build"); } void Servo_Initialize() { MOZ_CRASH("stylo: shouldn't be calling Servo_Initialize in a " "non-MOZ_STYLO build"); } void Servo_Shutdown() { MOZ_CRASH("stylo: shouldn't be calling Servo_Shutdown in a " "non-MOZ_STYLO build"); } // Restyle hints. nsRestyleHint Servo_ComputeRestyleHint(RawGeckoElement* element, ServoElementSnapshot* snapshot, RawServoStyleSet* set) { MOZ_CRASH("stylo: shouldn't be calling Servo_ComputeRestyleHint in a " "non-MOZ_STYLO build"); } void Servo_RestyleDocument(RawGeckoDocument* doc, RawServoStyleSet* set) { MOZ_CRASH("stylo: shouldn't be calling Servo_RestyleDocument in a " "non-MOZ_STYLO build"); } void Servo_RestyleSubtree(RawGeckoNode* node, RawServoStyleSet* set) { MOZ_CRASH("stylo: shouldn't be calling Servo_RestyleSubtree in a " "non-MOZ_STYLO build"); } #define STYLE_STRUCT(name_, checkdata_cb_) \ const nsStyle##name_* \ Servo_GetStyle##name_(ServoComputedValuesBorrowed) \ { \ MOZ_CRASH("stylo: shouldn't be calling Servo_GetStyle" #name_ " in a " \ "non-MOZ_STYLO build"); \ } #include "nsStyleStructList.h" #undef STYLE_STRUCT #endif #ifdef MOZ_STYLO const nsStyleVariables* Servo_GetStyleVariables(ServoComputedValuesBorrowed aComputedValues) { // Servo can't provide us with Variables structs yet, so instead of linking // to a Servo_GetStyleVariables defined in Servo we define one here that // always returns the same, empty struct. static nsStyleVariables variables(StyleStructContext::ServoContext()); return &variables; } #endif