/* -*- 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/. */ /* * structs that contain the data provided by ComputedStyle, the * internal API for computed style data for an element */ #include "nsStyleStruct.h" #include "nsStyleStructInlines.h" #include "nsStyleConsts.h" #include "nsString.h" #include "nsPresContext.h" #include "nsIWidget.h" #include "nsCRTGlue.h" #include "nsCSSProps.h" #include "nsDeviceContext.h" #include "nsStyleUtil.h" #include "nsIURIMutator.h" #include "nsCOMPtr.h" #include "nsBidiUtils.h" #include "nsLayoutUtils.h" #include "imgIRequest.h" #include "imgIContainer.h" #include "CounterStyleManager.h" #include "mozilla/dom/AnimationEffectBinding.h" // for PlaybackDirection #include "mozilla/dom/BaseKeyframeTypesBinding.h" // for CompositeOperation #include "mozilla/dom/DocGroup.h" #include "mozilla/dom/ImageTracker.h" #include "mozilla/CORSMode.h" #include "mozilla/ClearOnShutdown.h" #include "mozilla/GeckoBindings.h" #include "mozilla/PreferenceSheet.h" #include "mozilla/SchedulerGroup.h" #include "mozilla/StaticPresData.h" #include "mozilla/Likely.h" #include "nsIURI.h" #include "mozilla/dom/Document.h" #include "mozilla/dom/DocumentInlines.h" #include #include "ImageLoader.h" #include "mozilla/StaticPrefs_layout.h" using namespace mozilla; using namespace mozilla::dom; static const nscoord kMediumBorderWidth = nsPresContext::CSSPixelsToAppUnits(3); // We set the size limit of style structs to 504 bytes so that when they // are allocated by Servo side with Arc, the total size doesn't exceed // 512 bytes, which minimizes allocator slop. static constexpr size_t kStyleStructSizeLimit = 504; template struct AssertSizeIsLessThan { static_assert(Actual == sizeof(Struct), "Bogus invocation"); static_assert(Actual <= Limit, "Style struct became larger than the size limit"); static constexpr bool instantiate = true; }; #define STYLE_STRUCT(name_) \ static_assert(AssertSizeIsLessThan::instantiate, \ ""); #include "nsStyleStructList.h" #undef STYLE_STRUCT bool StyleCssUrlData::operator==(const StyleCssUrlData& aOther) const { // This very intentionally avoids comparing LoadData and such. const auto& extra = extra_data.get(); const auto& otherExtra = aOther.extra_data.get(); if (extra.BaseURI() != otherExtra.BaseURI() || extra.Principal() != otherExtra.Principal() || cors_mode != aOther.cors_mode) { // NOTE(emilio): This does pointer comparison, but it's what URLValue used // to do. That's ok though since this is only used for style struct diffing. return false; } return serialization == aOther.serialization; } StyleLoadData::~StyleLoadData() { Gecko_LoadData_Drop(this); } already_AddRefed StyleComputedUrl::ResolveLocalRef( nsIURI* aBase) const { nsCOMPtr result = GetURI(); if (result && IsLocalRef()) { nsCString ref; result->GetRef(ref); nsresult rv = NS_MutateURI(aBase).SetRef(ref).Finalize(result); if (NS_FAILED(rv)) { // If setting the ref failed, just return the original URI. result = aBase; } } return result.forget(); } already_AddRefed StyleComputedUrl::ResolveLocalRef( const nsIContent* aContent) const { return ResolveLocalRef(aContent->GetBaseURI()); } void StyleComputedUrl::ResolveImage(Document& aDocument, const StyleComputedUrl* aOldImage) { MOZ_DIAGNOSTIC_ASSERT(NS_IsMainThread()); StyleLoadData& data = LoadData(); MOZ_ASSERT(!(data.flags & StyleLoadDataFlags::TRIED_TO_RESOLVE_IMAGE)); data.flags |= StyleLoadDataFlags::TRIED_TO_RESOLVE_IMAGE; MOZ_ASSERT(NS_IsMainThread()); // TODO(emilio, bug 1440442): This is a hackaround to avoid flickering due the // lack of non-http image caching in imagelib (bug 1406134), which causes // stuff like bug 1439285. Cleanest fix if that doesn't get fixed is bug // 1440305, but that seems too risky, and a lot of work to do before 60. // // Once that's fixed, the "old style" argument to TriggerImageLoads can go // away, and same for mSharedCount in the image loader and so on. const bool reuseProxy = nsContentUtils::IsChromeDoc(&aDocument) && aOldImage && aOldImage->IsImageResolved() && *this == *aOldImage; RefPtr request; if (reuseProxy) { request = aOldImage->LoadData().resolved_image; if (request) { css::ImageLoader::NoteSharedLoad(request); } } else { request = css::ImageLoader::LoadImage(*this, aDocument); } if (!request) { return; } data.resolved_image = request.forget().take(); // Boost priority now that we know the image is present in the ComputedStyle // of some frame. data.resolved_image->BoostPriority(imgIRequest::CATEGORY_FRAME_STYLE); } /** * Runnable to release the image request's mRequestProxy * and mImageTracker on the main thread, and to perform * any necessary unlocking and untracking of the image. */ class StyleImageRequestCleanupTask final : public mozilla::Runnable { public: explicit StyleImageRequestCleanupTask(StyleLoadData& aData) : mozilla::Runnable("StyleImageRequestCleanupTask"), mRequestProxy(dont_AddRef(aData.resolved_image)) { MOZ_ASSERT(mRequestProxy); aData.resolved_image = nullptr; } NS_IMETHOD Run() final { MOZ_ASSERT(NS_IsMainThread()); css::ImageLoader::UnloadImage(mRequestProxy); return NS_OK; } protected: virtual ~StyleImageRequestCleanupTask() { MOZ_ASSERT(!mRequestProxy || NS_IsMainThread(), "mRequestProxy destructor need to run on the main thread!"); } private: // Since we always dispatch this runnable to the main thread, these will be // released on the main thread when the runnable itself is released. RefPtr mRequestProxy; }; // This is defined here for parallelism with LoadURI. void Gecko_LoadData_Drop(StyleLoadData* aData) { if (aData->resolved_image) { // We want to dispatch this async to prevent reentrancy issues, as // imgRequestProxy going away can destroy documents, etc, see bug 1677555. auto task = MakeRefPtr(*aData); SchedulerGroup::Dispatch(task.forget()); } // URIs are safe to refcount from any thread. NS_IF_RELEASE(aData->resolved_uri); } // -------------------- // nsStyleFont // nsStyleFont::nsStyleFont(const nsStyleFont& aSrc) : mFont(aSrc.mFont), mSize(aSrc.mSize), mFontSizeFactor(aSrc.mFontSizeFactor), mFontSizeOffset(aSrc.mFontSizeOffset), mFontSizeKeyword(aSrc.mFontSizeKeyword), mFontPalette(aSrc.mFontPalette), mMathDepth(aSrc.mMathDepth), mLineHeight(aSrc.mLineHeight), mMathVariant(aSrc.mMathVariant), mMathStyle(aSrc.mMathStyle), mMinFontSizeRatio(aSrc.mMinFontSizeRatio), mExplicitLanguage(aSrc.mExplicitLanguage), mXTextScale(aSrc.mXTextScale), mScriptUnconstrainedSize(aSrc.mScriptUnconstrainedSize), mScriptMinSize(aSrc.mScriptMinSize), mLanguage(aSrc.mLanguage) { MOZ_COUNT_CTOR(nsStyleFont); } static StyleXTextScale InitialTextScale(const Document& aDoc) { if (nsContentUtils::IsChromeDoc(&aDoc) || nsContentUtils::IsPDFJS(aDoc.NodePrincipal())) { return StyleXTextScale::ZoomOnly; } return StyleXTextScale::All; } nsStyleFont::nsStyleFont(const Document& aDocument) : mFont(*aDocument.GetFontPrefsForLang(nullptr)->GetDefaultFont( StyleGenericFontFamily::None)), mSize(ZoomText(aDocument, mFont.size)), mFontSizeFactor(1.0), mFontSizeOffset{0}, mFontSizeKeyword(StyleFontSizeKeyword::Medium), mFontPalette(StyleFontPalette::Normal()), mMathDepth(0), mLineHeight(StyleLineHeight::Normal()), mMathVariant(StyleMathVariant::None), mMathStyle(StyleMathStyle::Normal), mXTextScale(InitialTextScale(aDocument)), mScriptUnconstrainedSize(mSize), mScriptMinSize(Length::FromPixels( CSSPixel::FromPoints(kMathMLDefaultScriptMinSizePt))), mLanguage(aDocument.GetLanguageForStyle()) { MOZ_COUNT_CTOR(nsStyleFont); MOZ_ASSERT(NS_IsMainThread()); mFont.family.is_initial = true; mFont.size = mSize; if (MinFontSizeEnabled()) { const Length minimumFontSize = aDocument.GetFontPrefsForLang(mLanguage)->mMinimumFontSize; mFont.size = Length::FromPixels( std::max(mSize.ToCSSPixels(), minimumFontSize.ToCSSPixels())); } } nsChangeHint nsStyleFont::CalcDifference(const nsStyleFont& aNewData) const { MOZ_ASSERT(mXTextScale == aNewData.mXTextScale, "expected -x-text-scale to be the same on both nsStyleFonts"); if (mSize != aNewData.mSize || mLanguage != aNewData.mLanguage || mExplicitLanguage != aNewData.mExplicitLanguage || mMathVariant != aNewData.mMathVariant || mMathStyle != aNewData.mMathStyle || mMinFontSizeRatio != aNewData.mMinFontSizeRatio || mLineHeight != aNewData.mLineHeight) { return NS_STYLE_HINT_REFLOW; } switch (mFont.CalcDifference(aNewData.mFont)) { case nsFont::MaxDifference::eLayoutAffecting: return NS_STYLE_HINT_REFLOW; case nsFont::MaxDifference::eVisual: return NS_STYLE_HINT_VISUAL; case nsFont::MaxDifference::eNone: break; } if (mFontPalette != aNewData.mFontPalette) { return NS_STYLE_HINT_VISUAL; } // XXX Should any of these cause a non-nsChangeHint_NeutralChange change? if (mMathDepth != aNewData.mMathDepth || mScriptUnconstrainedSize != aNewData.mScriptUnconstrainedSize || mScriptMinSize != aNewData.mScriptMinSize) { return nsChangeHint_NeutralChange; } return nsChangeHint(0); } Length nsStyleFont::ZoomText(const Document& aDocument, Length aSize) { if (auto* pc = aDocument.GetPresContext()) { aSize.ScaleBy(pc->TextZoom()); } return aSize; } template static StyleRect StyleRectWithAllSides(const T& aSide) { return {aSide, aSide, aSide, aSide}; } nsStyleMargin::nsStyleMargin() : mMargin(StyleRectWithAllSides( LengthPercentageOrAuto::LengthPercentage(LengthPercentage::Zero()))), mScrollMargin(StyleRectWithAllSides(StyleLength{0.})), mOverflowClipMargin(StyleLength::Zero()) { MOZ_COUNT_CTOR(nsStyleMargin); } nsStyleMargin::nsStyleMargin(const nsStyleMargin& aSrc) : mMargin(aSrc.mMargin), mScrollMargin(aSrc.mScrollMargin), mOverflowClipMargin(aSrc.mOverflowClipMargin) { MOZ_COUNT_CTOR(nsStyleMargin); } nsChangeHint nsStyleMargin::CalcDifference( const nsStyleMargin& aNewData) const { nsChangeHint hint = nsChangeHint(0); if (mMargin != aNewData.mMargin) { // Margin differences can't affect descendant intrinsic sizes and // don't need to force children to reflow. hint |= nsChangeHint_NeedReflow | nsChangeHint_ReflowChangesSizeOrPosition | nsChangeHint_ClearAncestorIntrinsics; } if (mScrollMargin != aNewData.mScrollMargin) { // FIXME: Bug 1530253 Support re-snapping when scroll-margin changes. hint |= nsChangeHint_NeutralChange; } if (mOverflowClipMargin != aNewData.mOverflowClipMargin) { hint |= nsChangeHint_UpdateOverflow | nsChangeHint_RepaintFrame; } return hint; } nsStylePadding::nsStylePadding() : mPadding(StyleRectWithAllSides(LengthPercentage::Zero())), mScrollPadding(StyleRectWithAllSides(LengthPercentageOrAuto::Auto())) { MOZ_COUNT_CTOR(nsStylePadding); } nsStylePadding::nsStylePadding(const nsStylePadding& aSrc) : mPadding(aSrc.mPadding), mScrollPadding(aSrc.mScrollPadding) { MOZ_COUNT_CTOR(nsStylePadding); } nsChangeHint nsStylePadding::CalcDifference( const nsStylePadding& aNewData) const { nsChangeHint hint = nsChangeHint(0); if (mPadding != aNewData.mPadding) { // Padding differences can't affect descendant intrinsic sizes, but do need // to force children to reflow so that we can reposition them, since their // offsets are from our frame bounds but our content rect's position within // those bounds is moving. // FIXME: It would be good to return a weaker hint here that doesn't // force reflow of all descendants, but the hint would need to force // reflow of the frame's children (see how // ReflowInput::InitResizeFlags initializes the inline-resize flag). hint |= NS_STYLE_HINT_REFLOW & ~nsChangeHint_ClearDescendantIntrinsics; } if (mScrollPadding != aNewData.mScrollPadding) { // FIXME: Bug 1530253 Support re-snapping when scroll-padding changes. hint |= nsChangeHint_NeutralChange; } return hint; } static inline BorderRadius ZeroBorderRadius() { auto zero = LengthPercentage::Zero(); return {{{zero, zero}}, {{zero, zero}}, {{zero, zero}}, {{zero, zero}}}; } nsStyleBorder::nsStyleBorder() : mBorderRadius(ZeroBorderRadius()), mBorderImageSource(StyleImage::None()), mBorderImageWidth( StyleRectWithAllSides(StyleBorderImageSideWidth::Number(1.))), mBorderImageOutset( StyleRectWithAllSides(StyleNonNegativeLengthOrNumber::Number(0.))), mBorderImageSlice( {StyleRectWithAllSides(StyleNumberOrPercentage::Percentage({1.})), false}), mBorderImageRepeatH(StyleBorderImageRepeat::Stretch), mBorderImageRepeatV(StyleBorderImageRepeat::Stretch), mFloatEdge(StyleFloatEdge::ContentBox), mBoxDecorationBreak(StyleBoxDecorationBreak::Slice), mBorderTopColor(StyleColor::CurrentColor()), mBorderRightColor(StyleColor::CurrentColor()), mBorderBottomColor(StyleColor::CurrentColor()), mBorderLeftColor(StyleColor::CurrentColor()), mComputedBorder(0, 0, 0, 0) { MOZ_COUNT_CTOR(nsStyleBorder); nscoord medium = kMediumBorderWidth; for (const auto side : mozilla::AllPhysicalSides()) { mBorder.Side(side) = medium; mBorderStyle[side] = StyleBorderStyle::None; } } nsStyleBorder::nsStyleBorder(const nsStyleBorder& aSrc) : mBorderRadius(aSrc.mBorderRadius), mBorderImageSource(aSrc.mBorderImageSource), mBorderImageWidth(aSrc.mBorderImageWidth), mBorderImageOutset(aSrc.mBorderImageOutset), mBorderImageSlice(aSrc.mBorderImageSlice), mBorderImageRepeatH(aSrc.mBorderImageRepeatH), mBorderImageRepeatV(aSrc.mBorderImageRepeatV), mFloatEdge(aSrc.mFloatEdge), mBoxDecorationBreak(aSrc.mBoxDecorationBreak), mBorderTopColor(aSrc.mBorderTopColor), mBorderRightColor(aSrc.mBorderRightColor), mBorderBottomColor(aSrc.mBorderBottomColor), mBorderLeftColor(aSrc.mBorderLeftColor), mComputedBorder(aSrc.mComputedBorder), mBorder(aSrc.mBorder) { MOZ_COUNT_CTOR(nsStyleBorder); for (const auto side : mozilla::AllPhysicalSides()) { mBorderStyle[side] = aSrc.mBorderStyle[side]; } } void nsStyleBorder::TriggerImageLoads(Document& aDocument, const nsStyleBorder* aOldStyle) { MOZ_ASSERT(NS_IsMainThread()); mBorderImageSource.ResolveImage( aDocument, aOldStyle ? &aOldStyle->mBorderImageSource : nullptr); } nsMargin nsStyleBorder::GetImageOutset() const { // We don't check whether there is a border-image (which is OK since // the initial values yields 0 outset) so that we don't have to // reflow to update overflow areas when an image loads. nsMargin outset; for (const auto s : mozilla::AllPhysicalSides()) { const auto& coord = mBorderImageOutset.Get(s); nscoord value; if (coord.IsLength()) { value = coord.AsLength().ToAppUnits(); } else { MOZ_ASSERT(coord.IsNumber()); value = coord.AsNumber() * mComputedBorder.Side(s); } outset.Side(s) = value; } return outset; } nsChangeHint nsStyleBorder::CalcDifference( const nsStyleBorder& aNewData) const { // FIXME: XXXbz: As in nsStylePadding::CalcDifference, many of these // differences should not need to clear descendant intrinsics. // FIXME: It would be good to return a weaker hint for the // GetComputedBorder() differences (and perhaps others) that doesn't // force reflow of all descendants, but the hint would need to force // reflow of the frame's children (see how // ReflowInput::InitResizeFlags initializes the inline-resize flag). if (GetComputedBorder() != aNewData.GetComputedBorder() || mFloatEdge != aNewData.mFloatEdge || mBorderImageOutset != aNewData.mBorderImageOutset || mBoxDecorationBreak != aNewData.mBoxDecorationBreak) { return NS_STYLE_HINT_REFLOW; } for (const auto ix : mozilla::AllPhysicalSides()) { // See the explanation in nsChangeHint.h of // nsChangeHint_BorderStyleNoneChange . // Furthermore, even though we know *this* side is 0 width, just // assume a repaint hint for some other change rather than bother // tracking this result through the rest of the function. if (HasVisibleStyle(ix) != aNewData.HasVisibleStyle(ix)) { return nsChangeHint_RepaintFrame | nsChangeHint_BorderStyleNoneChange; } } // Note that mBorderStyle stores not only the border style but also // color-related flags. Given that we've already done an mComputedBorder // comparison, border-style differences can only lead to a repaint hint. So // it's OK to just compare the values directly -- if either the actual // style or the color flags differ we want to repaint. for (const auto ix : mozilla::AllPhysicalSides()) { if (mBorderStyle[ix] != aNewData.mBorderStyle[ix] || BorderColorFor(ix) != aNewData.BorderColorFor(ix)) { return nsChangeHint_RepaintFrame; } } // Note that border radius also controls the outline radius if the // layout.css.outline-follows-border-radius.enabled pref is set. Any // optimizations here should apply to both. if (mBorderRadius != aNewData.mBorderRadius) { return nsChangeHint_RepaintFrame; } // Loading status of the border image can be accessed in main thread only // while CalcDifference might be executed on a background thread. As a // result, we have to check mBorderImage* fields even before border image was // actually loaded. if (!mBorderImageSource.IsNone() || !aNewData.mBorderImageSource.IsNone()) { if (mBorderImageSource != aNewData.mBorderImageSource || mBorderImageRepeatH != aNewData.mBorderImageRepeatH || mBorderImageRepeatV != aNewData.mBorderImageRepeatV || mBorderImageSlice != aNewData.mBorderImageSlice || mBorderImageWidth != aNewData.mBorderImageWidth) { return nsChangeHint_RepaintFrame; } } // mBorder is the specified border value. Changes to this don't // need any change processing, since we operate on the computed // border values instead. if (mBorder != aNewData.mBorder) { return nsChangeHint_NeutralChange; } // mBorderImage* fields are checked only when border-image is not 'none'. if (mBorderImageSource != aNewData.mBorderImageSource || mBorderImageRepeatH != aNewData.mBorderImageRepeatH || mBorderImageRepeatV != aNewData.mBorderImageRepeatV || mBorderImageSlice != aNewData.mBorderImageSlice || mBorderImageWidth != aNewData.mBorderImageWidth) { return nsChangeHint_NeutralChange; } return nsChangeHint(0); } nsStyleOutline::nsStyleOutline() : mOutlineWidth(kMediumBorderWidth), mOutlineOffset({0.0f}), mOutlineColor(StyleColor::CurrentColor()), mOutlineStyle(StyleOutlineStyle::BorderStyle(StyleBorderStyle::None)), mActualOutlineWidth(0) { MOZ_COUNT_CTOR(nsStyleOutline); } nsStyleOutline::nsStyleOutline(const nsStyleOutline& aSrc) : mOutlineWidth(aSrc.mOutlineWidth), mOutlineOffset(aSrc.mOutlineOffset), mOutlineColor(aSrc.mOutlineColor), mOutlineStyle(aSrc.mOutlineStyle), mActualOutlineWidth(aSrc.mActualOutlineWidth) { MOZ_COUNT_CTOR(nsStyleOutline); } nsChangeHint nsStyleOutline::CalcDifference( const nsStyleOutline& aNewData) const { const bool shouldPaintOutline = ShouldPaintOutline(); // We need the explicit 'outline-style: auto' check because // 'outline-style: auto' effectively also changes 'outline-width'. if (shouldPaintOutline != aNewData.ShouldPaintOutline() || mActualOutlineWidth != aNewData.mActualOutlineWidth || mOutlineStyle.IsAuto() != aNewData.mOutlineStyle.IsAuto() || (shouldPaintOutline && mOutlineOffset != aNewData.mOutlineOffset)) { return nsChangeHint_UpdateOverflow | nsChangeHint_SchedulePaint | nsChangeHint_RepaintFrame; } if (mOutlineStyle != aNewData.mOutlineStyle || mOutlineColor != aNewData.mOutlineColor) { return shouldPaintOutline ? nsChangeHint_RepaintFrame : nsChangeHint_NeutralChange; } if (mOutlineWidth != aNewData.mOutlineWidth || mOutlineOffset != aNewData.mOutlineOffset) { return nsChangeHint_NeutralChange; } return nsChangeHint(0); } nsSize nsStyleOutline::EffectiveOffsetFor(const nsRect& aRect) const { const nscoord offset = mOutlineOffset.ToAppUnits(); if (offset >= 0) { // Fast path for non-negative offset values return nsSize(offset, offset); } return nsSize(std::max(offset, -(aRect.Width() / 2)), std::max(offset, -(aRect.Height() / 2))); } // -------------------- // nsStyleList // nsStyleList::nsStyleList() : mListStylePosition(StyleListStylePosition::Outside), mQuotes(StyleQuotes::Auto()), mListStyleImage(StyleImage::None()) { MOZ_COUNT_CTOR(nsStyleList); MOZ_ASSERT(NS_IsMainThread()); mCounterStyle = nsGkAtoms::disc; } nsStyleList::nsStyleList(const nsStyleList& aSource) : mListStylePosition(aSource.mListStylePosition), mCounterStyle(aSource.mCounterStyle), mQuotes(aSource.mQuotes), mListStyleImage(aSource.mListStyleImage) { MOZ_COUNT_CTOR(nsStyleList); } void nsStyleList::TriggerImageLoads(Document& aDocument, const nsStyleList* aOldStyle) { MOZ_ASSERT(NS_IsMainThread()); mListStyleImage.ResolveImage( aDocument, aOldStyle ? &aOldStyle->mListStyleImage : nullptr); } nsChangeHint nsStyleList::CalcDifference(const nsStyleList& aNewData, const ComputedStyle& aOldStyle) const { // If the quotes implementation is ever going to change we might not need // a framechange here and a reflow should be sufficient. See bug 35768. if (mQuotes != aNewData.mQuotes) { return nsChangeHint_ReconstructFrame; } nsChangeHint hint = nsChangeHint(0); // Only elements whose display value is list-item can be affected by // list-style-{position,type,image}. This also relies on that when the display // value changes from something else to list-item, that change itself would // cause ReconstructFrame. if (mListStylePosition != aNewData.mListStylePosition || mCounterStyle != aNewData.mCounterStyle || mListStyleImage != aNewData.mListStyleImage) { if (aOldStyle.StyleDisplay()->IsListItem()) { return nsChangeHint_ReconstructFrame; } // list-style-image may affect nsImageFrame for XUL elements, but that is // dealt with explicitly in nsImageFrame::DidSetComputedStyle. hint = nsChangeHint_NeutralChange; } return hint; } already_AddRefed nsStyleList::GetListStyleImageURI() const { if (!mListStyleImage.IsUrl()) { return nullptr; } return do_AddRef(mListStyleImage.AsUrl().GetURI()); } // -------------------- // nsStyleXUL // nsStyleXUL::nsStyleXUL() : mBoxFlex(0.0f), mBoxOrdinal(1), mBoxAlign(StyleBoxAlign::Stretch), mBoxDirection(StyleBoxDirection::Normal), mBoxOrient(StyleBoxOrient::Horizontal), mBoxPack(StyleBoxPack::Start) { MOZ_COUNT_CTOR(nsStyleXUL); } nsStyleXUL::nsStyleXUL(const nsStyleXUL& aSource) : mBoxFlex(aSource.mBoxFlex), mBoxOrdinal(aSource.mBoxOrdinal), mBoxAlign(aSource.mBoxAlign), mBoxDirection(aSource.mBoxDirection), mBoxOrient(aSource.mBoxOrient), mBoxPack(aSource.mBoxPack) { MOZ_COUNT_CTOR(nsStyleXUL); } nsChangeHint nsStyleXUL::CalcDifference(const nsStyleXUL& aNewData) const { if (mBoxAlign == aNewData.mBoxAlign && mBoxDirection == aNewData.mBoxDirection && mBoxFlex == aNewData.mBoxFlex && mBoxOrient == aNewData.mBoxOrient && mBoxPack == aNewData.mBoxPack && mBoxOrdinal == aNewData.mBoxOrdinal) { return nsChangeHint(0); } if (mBoxOrdinal != aNewData.mBoxOrdinal) { return nsChangeHint_ReconstructFrame; } return NS_STYLE_HINT_REFLOW; } // -------------------- // nsStyleColumn // /* static */ const uint32_t nsStyleColumn::kMaxColumnCount; /* static */ const uint32_t nsStyleColumn::kColumnCountAuto; nsStyleColumn::nsStyleColumn() : mColumnWidth(LengthOrAuto::Auto()), mColumnRuleColor(StyleColor::CurrentColor()), mColumnRuleStyle(StyleBorderStyle::None), mColumnRuleWidth(kMediumBorderWidth), mActualColumnRuleWidth(0) { MOZ_COUNT_CTOR(nsStyleColumn); } nsStyleColumn::nsStyleColumn(const nsStyleColumn& aSource) : mColumnCount(aSource.mColumnCount), mColumnWidth(aSource.mColumnWidth), mColumnRuleColor(aSource.mColumnRuleColor), mColumnRuleStyle(aSource.mColumnRuleStyle), mColumnFill(aSource.mColumnFill), mColumnSpan(aSource.mColumnSpan), mColumnRuleWidth(aSource.mColumnRuleWidth), mActualColumnRuleWidth(aSource.mActualColumnRuleWidth) { MOZ_COUNT_CTOR(nsStyleColumn); } nsChangeHint nsStyleColumn::CalcDifference( const nsStyleColumn& aNewData) const { if (mColumnWidth.IsAuto() != aNewData.mColumnWidth.IsAuto() || mColumnCount != aNewData.mColumnCount || mColumnSpan != aNewData.mColumnSpan) { // We force column count changes to do a reframe, because it's tricky to // handle some edge cases where the column count gets smaller and content // overflows. // XXX not ideal return nsChangeHint_ReconstructFrame; } if (mColumnWidth != aNewData.mColumnWidth || mColumnFill != aNewData.mColumnFill) { return NS_STYLE_HINT_REFLOW; } if (mActualColumnRuleWidth != aNewData.mActualColumnRuleWidth || mColumnRuleStyle != aNewData.mColumnRuleStyle || mColumnRuleColor != aNewData.mColumnRuleColor) { return NS_STYLE_HINT_VISUAL; } if (mColumnRuleWidth != aNewData.mColumnRuleWidth) { return nsChangeHint_NeutralChange; } return nsChangeHint(0); } using SVGPaintFallback = StyleGenericSVGPaintFallback; // -------------------- // nsStyleSVG // nsStyleSVG::nsStyleSVG() : mFill{StyleSVGPaintKind::Color(StyleColor::Black()), SVGPaintFallback::Unset()}, mStroke{StyleSVGPaintKind::None(), SVGPaintFallback::Unset()}, mMarkerEnd(StyleUrlOrNone::None()), mMarkerMid(StyleUrlOrNone::None()), mMarkerStart(StyleUrlOrNone::None()), mMozContextProperties{{}, {0}}, mStrokeDasharray(StyleSVGStrokeDashArray::Values({})), mStrokeDashoffset( StyleSVGLength::LengthPercentage(LengthPercentage::Zero())), mStrokeWidth( StyleSVGWidth::LengthPercentage(LengthPercentage::FromPixels(1.0f))), mFillOpacity(StyleSVGOpacity::Opacity(1.0f)), mStrokeMiterlimit(4.0f), mStrokeOpacity(StyleSVGOpacity::Opacity(1.0f)), mClipRule(StyleFillRule::Nonzero), mColorInterpolation(StyleColorInterpolation::Srgb), mColorInterpolationFilters(StyleColorInterpolation::Linearrgb), mFillRule(StyleFillRule::Nonzero), mPaintOrder(0), mShapeRendering(StyleShapeRendering::Auto), mStrokeLinecap(StyleStrokeLinecap::Butt), mStrokeLinejoin(StyleStrokeLinejoin::Miter), mDominantBaseline(StyleDominantBaseline::Auto), mTextAnchor(StyleTextAnchor::Start) { MOZ_COUNT_CTOR(nsStyleSVG); } nsStyleSVG::nsStyleSVG(const nsStyleSVG& aSource) : mFill(aSource.mFill), mStroke(aSource.mStroke), mMarkerEnd(aSource.mMarkerEnd), mMarkerMid(aSource.mMarkerMid), mMarkerStart(aSource.mMarkerStart), mMozContextProperties(aSource.mMozContextProperties), mStrokeDasharray(aSource.mStrokeDasharray), mStrokeDashoffset(aSource.mStrokeDashoffset), mStrokeWidth(aSource.mStrokeWidth), mFillOpacity(aSource.mFillOpacity), mStrokeMiterlimit(aSource.mStrokeMiterlimit), mStrokeOpacity(aSource.mStrokeOpacity), mClipRule(aSource.mClipRule), mColorInterpolation(aSource.mColorInterpolation), mColorInterpolationFilters(aSource.mColorInterpolationFilters), mFillRule(aSource.mFillRule), mPaintOrder(aSource.mPaintOrder), mShapeRendering(aSource.mShapeRendering), mStrokeLinecap(aSource.mStrokeLinecap), mStrokeLinejoin(aSource.mStrokeLinejoin), mDominantBaseline(aSource.mDominantBaseline), mTextAnchor(aSource.mTextAnchor) { MOZ_COUNT_CTOR(nsStyleSVG); } static bool PaintURIChanged(const StyleSVGPaint& aPaint1, const StyleSVGPaint& aPaint2) { if (aPaint1.kind.IsPaintServer() != aPaint2.kind.IsPaintServer()) { return true; } return aPaint1.kind.IsPaintServer() && aPaint1.kind.AsPaintServer() != aPaint2.kind.AsPaintServer(); } nsChangeHint nsStyleSVG::CalcDifference(const nsStyleSVG& aNewData) const { nsChangeHint hint = nsChangeHint(0); if (mMarkerEnd != aNewData.mMarkerEnd || mMarkerMid != aNewData.mMarkerMid || mMarkerStart != aNewData.mMarkerStart) { // Markers currently contribute to SVGGeometryFrame::mRect, // so we need a reflow as well as a repaint. No intrinsic sizes need // to change, so nsChangeHint_NeedReflow is sufficient. return nsChangeHint_UpdateEffects | nsChangeHint_NeedReflow | nsChangeHint_RepaintFrame; } if (mFill != aNewData.mFill || mStroke != aNewData.mStroke || mFillOpacity != aNewData.mFillOpacity || mStrokeOpacity != aNewData.mStrokeOpacity) { hint |= nsChangeHint_RepaintFrame; if (HasStroke() != aNewData.HasStroke() || (!HasStroke() && HasFill() != aNewData.HasFill())) { // Frame bounds and overflow rects depend on whether we "have" fill or // stroke. Whether we have stroke or not just changed, or else we have no // stroke (in which case whether we have fill or not is significant to // frame bounds) and whether we have fill or not just changed. In either // case we need to reflow so the frame rect is updated. // XXXperf this is a waste on non SVGGeometryFrames. hint |= nsChangeHint_NeedReflow; } if (PaintURIChanged(mFill, aNewData.mFill) || PaintURIChanged(mStroke, aNewData.mStroke)) { hint |= nsChangeHint_UpdateEffects; } } // Stroke currently contributes to SVGGeometryFrame::mRect, so // we need a reflow here. No intrinsic sizes need to change, so // nsChangeHint_NeedReflow is sufficient. // Note that stroke-dashoffset does not affect SVGGeometryFrame::mRect. // text-anchor and dominant-baseline changes also require a reflow since // they change frames' rects. if (mStrokeWidth != aNewData.mStrokeWidth || mStrokeMiterlimit != aNewData.mStrokeMiterlimit || mStrokeLinecap != aNewData.mStrokeLinecap || mStrokeLinejoin != aNewData.mStrokeLinejoin || mDominantBaseline != aNewData.mDominantBaseline || mTextAnchor != aNewData.mTextAnchor) { return hint | nsChangeHint_NeedReflow | nsChangeHint_RepaintFrame; } if (hint & nsChangeHint_RepaintFrame) { return hint; // we don't add anything else below } if (mStrokeDashoffset != aNewData.mStrokeDashoffset || mClipRule != aNewData.mClipRule || mColorInterpolation != aNewData.mColorInterpolation || mColorInterpolationFilters != aNewData.mColorInterpolationFilters || mFillRule != aNewData.mFillRule || mPaintOrder != aNewData.mPaintOrder || mShapeRendering != aNewData.mShapeRendering || mStrokeDasharray != aNewData.mStrokeDasharray || mMozContextProperties.bits != aNewData.mMozContextProperties.bits) { return hint | nsChangeHint_RepaintFrame; } if (!hint) { if (mMozContextProperties.idents != aNewData.mMozContextProperties.idents) { hint = nsChangeHint_NeutralChange; } } return hint; } // -------------------- // nsStyleSVGReset // nsStyleSVGReset::nsStyleSVGReset() : mX(LengthPercentage::Zero()), mY(LengthPercentage::Zero()), mCx(LengthPercentage::Zero()), mCy(LengthPercentage::Zero()), mRx(NonNegativeLengthPercentageOrAuto::Auto()), mRy(NonNegativeLengthPercentageOrAuto::Auto()), mR(NonNegativeLengthPercentage::Zero()), mMask(nsStyleImageLayers::LayerType::Mask), mClipPath(StyleClipPath::None()), mStopColor(StyleColor::Black()), mFloodColor(StyleColor::Black()), mLightingColor(StyleColor::White()), mStopOpacity(1.0f), mFloodOpacity(1.0f), mVectorEffect(StyleVectorEffect::None), mMaskType(StyleMaskType::Luminance), mD(StyleDProperty::None()) { MOZ_COUNT_CTOR(nsStyleSVGReset); } nsStyleSVGReset::nsStyleSVGReset(const nsStyleSVGReset& aSource) : mX(aSource.mX), mY(aSource.mY), mCx(aSource.mCx), mCy(aSource.mCy), mRx(aSource.mRx), mRy(aSource.mRy), mR(aSource.mR), mMask(aSource.mMask), mClipPath(aSource.mClipPath), mStopColor(aSource.mStopColor), mFloodColor(aSource.mFloodColor), mLightingColor(aSource.mLightingColor), mStopOpacity(aSource.mStopOpacity), mFloodOpacity(aSource.mFloodOpacity), mVectorEffect(aSource.mVectorEffect), mMaskType(aSource.mMaskType), mD(aSource.mD) { MOZ_COUNT_CTOR(nsStyleSVGReset); } void nsStyleSVGReset::TriggerImageLoads(Document& aDocument, const nsStyleSVGReset* aOldStyle) { MOZ_ASSERT(NS_IsMainThread()); // NOTE(emilio): we intentionally don't call TriggerImageLoads for clip-path. NS_FOR_VISIBLE_IMAGE_LAYERS_BACK_TO_FRONT(i, mMask) { auto& image = mMask.mLayers[i].mImage; if (!image.IsImageRequestType()) { continue; } const auto* url = image.GetImageRequestURLValue(); // If the url is a local ref, it must be a , so we don't // need to resolve the style image. if (url->IsLocalRef()) { continue; } #if 0 // XXX The old style system also checks whether this is a reference to // the current document with reference, but it doesn't seem to be a // behavior mentioned anywhere, so we comment out the code for now. nsIURI* docURI = aPresContext->Document()->GetDocumentURI(); if (url->EqualsExceptRef(docURI)) { continue; } #endif // Otherwise, we may need the image even if it has a reference, in case // the referenced element isn't a valid SVG element. const auto* oldImage = (aOldStyle && aOldStyle->mMask.mLayers.Length() > i) ? &aOldStyle->mMask.mLayers[i].mImage : nullptr; image.ResolveImage(aDocument, oldImage); } } nsChangeHint nsStyleSVGReset::CalcDifference( const nsStyleSVGReset& aNewData) const { nsChangeHint hint = nsChangeHint(0); if (mX != aNewData.mX || mY != aNewData.mY || mCx != aNewData.mCx || mCy != aNewData.mCy || mR != aNewData.mR || mRx != aNewData.mRx || mRy != aNewData.mRy || mD != aNewData.mD) { hint |= nsChangeHint_InvalidateRenderingObservers | nsChangeHint_NeedReflow; } if (mClipPath != aNewData.mClipPath) { hint |= nsChangeHint_UpdateEffects | nsChangeHint_RepaintFrame; } if (mVectorEffect != aNewData.mVectorEffect) { // Stroke currently affects SVGGeometryFrame::mRect, and // vector-effect affect stroke. As a result we need to reflow if // vector-effect changes in order to have SVGGeometryFrame:: // ReflowSVG called to update its mRect. No intrinsic sizes need // to change so nsChangeHint_NeedReflow is sufficient. hint |= nsChangeHint_NeedReflow | nsChangeHint_RepaintFrame; } else if (mStopColor != aNewData.mStopColor || mFloodColor != aNewData.mFloodColor || mLightingColor != aNewData.mLightingColor || mStopOpacity != aNewData.mStopOpacity || mFloodOpacity != aNewData.mFloodOpacity || mMaskType != aNewData.mMaskType || mD != aNewData.mD) { hint |= nsChangeHint_RepaintFrame; } hint |= mMask.CalcDifference(aNewData.mMask, nsStyleImageLayers::LayerType::Mask); return hint; } bool nsStyleSVGReset::HasMask() const { for (uint32_t i = 0; i < mMask.mImageCount; i++) { if (!mMask.mLayers[i].mImage.IsNone()) { return true; } } return false; } // -------------------- // nsStylePage // nsStylePage::nsStylePage(const nsStylePage& aSrc) : mSize(aSrc.mSize), mPage(aSrc.mPage), mPageOrientation(aSrc.mPageOrientation) { MOZ_COUNT_CTOR(nsStylePage); } nsChangeHint nsStylePage::CalcDifference(const nsStylePage& aNewData) const { // Page rule styling only matters when printing or using print preview. if (aNewData.mSize != mSize || aNewData.mPage != mPage || aNewData.mPageOrientation != mPageOrientation) { return nsChangeHint_NeutralChange; } return nsChangeHint_Empty; } // -------------------- // nsStylePosition // nsStylePosition::nsStylePosition() : mObjectPosition(Position::FromPercentage(0.5f)), mOffset(StyleRectWithAllSides(LengthPercentageOrAuto::Auto())), mWidth(StyleSize::Auto()), mMinWidth(StyleSize::Auto()), mMaxWidth(StyleMaxSize::None()), mHeight(StyleSize::Auto()), mMinHeight(StyleSize::Auto()), mMaxHeight(StyleMaxSize::None()), mFlexBasis(StyleFlexBasis::Size(StyleSize::Auto())), mAspectRatio(StyleAspectRatio::Auto()), mGridAutoFlow(StyleGridAutoFlow::ROW), mMasonryAutoFlow( {StyleMasonryPlacement::Pack, StyleMasonryItemOrder::DefiniteFirst}), mAlignContent({StyleAlignFlags::NORMAL}), mAlignItems({StyleAlignFlags::NORMAL}), mAlignSelf({StyleAlignFlags::AUTO}), mJustifyContent({StyleAlignFlags::NORMAL}), mJustifyItems({{StyleAlignFlags::LEGACY}, {StyleAlignFlags::NORMAL}}), mJustifySelf({StyleAlignFlags::AUTO}), mFlexDirection(StyleFlexDirection::Row), mFlexWrap(StyleFlexWrap::Nowrap), mObjectFit(StyleObjectFit::Fill), mBoxSizing(StyleBoxSizing::Content), mOrder(0), mFlexGrow(0.0f), mFlexShrink(1.0f), mZIndex(StyleZIndex::Auto()), mGridTemplateColumns(StyleGridTemplateComponent::None()), mGridTemplateRows(StyleGridTemplateComponent::None()), mGridTemplateAreas(StyleGridTemplateAreas::None()), mColumnGap(NonNegativeLengthPercentageOrNormal::Normal()), mRowGap(NonNegativeLengthPercentageOrNormal::Normal()), mContainIntrinsicWidth(StyleContainIntrinsicSize::None()), mContainIntrinsicHeight(StyleContainIntrinsicSize::None()) { MOZ_COUNT_CTOR(nsStylePosition); // The initial value of grid-auto-columns and grid-auto-rows is 'auto', // which computes to 'minmax(auto, auto)'. // Other members get their default constructors // which initialize them to representations of their respective initial value. // mGridTemplate{Rows,Columns}: false and empty arrays for 'none' // mGrid{Column,Row}{Start,End}: false/0/empty values for 'auto' } nsStylePosition::nsStylePosition(const nsStylePosition& aSource) : mAlignTracks(aSource.mAlignTracks), mJustifyTracks(aSource.mJustifyTracks), mObjectPosition(aSource.mObjectPosition), mOffset(aSource.mOffset), mWidth(aSource.mWidth), mMinWidth(aSource.mMinWidth), mMaxWidth(aSource.mMaxWidth), mHeight(aSource.mHeight), mMinHeight(aSource.mMinHeight), mMaxHeight(aSource.mMaxHeight), mFlexBasis(aSource.mFlexBasis), mGridAutoColumns(aSource.mGridAutoColumns), mGridAutoRows(aSource.mGridAutoRows), mAspectRatio(aSource.mAspectRatio), mGridAutoFlow(aSource.mGridAutoFlow), mMasonryAutoFlow(aSource.mMasonryAutoFlow), mAlignContent(aSource.mAlignContent), mAlignItems(aSource.mAlignItems), mAlignSelf(aSource.mAlignSelf), mJustifyContent(aSource.mJustifyContent), mJustifyItems(aSource.mJustifyItems), mJustifySelf(aSource.mJustifySelf), mFlexDirection(aSource.mFlexDirection), mFlexWrap(aSource.mFlexWrap), mObjectFit(aSource.mObjectFit), mBoxSizing(aSource.mBoxSizing), mOrder(aSource.mOrder), mFlexGrow(aSource.mFlexGrow), mFlexShrink(aSource.mFlexShrink), mZIndex(aSource.mZIndex), mGridTemplateColumns(aSource.mGridTemplateColumns), mGridTemplateRows(aSource.mGridTemplateRows), mGridTemplateAreas(aSource.mGridTemplateAreas), mGridColumnStart(aSource.mGridColumnStart), mGridColumnEnd(aSource.mGridColumnEnd), mGridRowStart(aSource.mGridRowStart), mGridRowEnd(aSource.mGridRowEnd), mColumnGap(aSource.mColumnGap), mRowGap(aSource.mRowGap), mContainIntrinsicWidth(aSource.mContainIntrinsicWidth), mContainIntrinsicHeight(aSource.mContainIntrinsicHeight) { MOZ_COUNT_CTOR(nsStylePosition); } static bool IsAutonessEqual(const StyleRect& aSides1, const StyleRect& aSides2) { for (const auto side : mozilla::AllPhysicalSides()) { if (aSides1.Get(side).IsAuto() != aSides2.Get(side).IsAuto()) { return false; } } return true; } nsChangeHint nsStylePosition::CalcDifference( const nsStylePosition& aNewData, const ComputedStyle& aOldStyle) const { if (mGridTemplateColumns.IsMasonry() != aNewData.mGridTemplateColumns.IsMasonry() || mGridTemplateRows.IsMasonry() != aNewData.mGridTemplateRows.IsMasonry()) { // XXXmats this could be optimized to AllReflowHints with a bit of work, // but I'll assume this is a very rare use case in practice. (bug 1623886) return nsChangeHint_ReconstructFrame; } nsChangeHint hint = nsChangeHint(0); // Changes to "z-index" require a repaint. if (mZIndex != aNewData.mZIndex) { hint |= nsChangeHint_RepaintFrame; } // Changes to "object-fit" & "object-position" require a repaint. They // may also require a reflow, if we have a nsSubDocumentFrame, so that we // can adjust the size & position of the subdocument. if (mObjectFit != aNewData.mObjectFit || mObjectPosition != aNewData.mObjectPosition) { hint |= nsChangeHint_RepaintFrame | nsChangeHint_NeedReflow; } if (mContainIntrinsicWidth != aNewData.mContainIntrinsicWidth || mContainIntrinsicHeight != aNewData.mContainIntrinsicHeight) { hint |= NS_STYLE_HINT_REFLOW; } if (mOrder != aNewData.mOrder) { // "order" impacts both layout order and stacking order, so we need both a // reflow and a repaint when it changes. (Technically, we only need a // reflow if we're in a multi-line flexbox (which we can't be sure about, // since that's determined by styling on our parent) -- there, "order" can // affect which flex line we end up on, & hence can affect our sizing by // changing the group of flex items we're competing with for space.) return hint | nsChangeHint_RepaintFrame | nsChangeHint_AllReflowHints; } if (mBoxSizing != aNewData.mBoxSizing) { // Can affect both widths and heights; just a bad scene. return hint | nsChangeHint_AllReflowHints; } if (mAlignItems != aNewData.mAlignItems || mAlignSelf != aNewData.mAlignSelf || mJustifyTracks != aNewData.mJustifyTracks || mAlignTracks != aNewData.mAlignTracks) { return hint | nsChangeHint_AllReflowHints; } // Properties that apply to flex items: // XXXdholbert These should probably be more targeted (bug 819536) if (mFlexBasis != aNewData.mFlexBasis || mFlexGrow != aNewData.mFlexGrow || mFlexShrink != aNewData.mFlexShrink) { return hint | nsChangeHint_AllReflowHints; } // Properties that apply to flex containers: // - flex-direction can swap a flex container between vertical & horizontal. // - flex-wrap changes whether a flex container's children are wrapped, which // impacts their sizing/positioning and hence impacts the container's size. if (mFlexDirection != aNewData.mFlexDirection || mFlexWrap != aNewData.mFlexWrap) { return hint | nsChangeHint_AllReflowHints; } // Properties that apply to grid containers: // FIXME: only for grid containers // (ie. 'display: grid' or 'display: inline-grid') if (mGridTemplateColumns != aNewData.mGridTemplateColumns || mGridTemplateRows != aNewData.mGridTemplateRows || mGridTemplateAreas != aNewData.mGridTemplateAreas || mGridAutoColumns != aNewData.mGridAutoColumns || mGridAutoRows != aNewData.mGridAutoRows || mGridAutoFlow != aNewData.mGridAutoFlow || mMasonryAutoFlow != aNewData.mMasonryAutoFlow) { return hint | nsChangeHint_AllReflowHints; } // Properties that apply to grid items: // FIXME: only for grid items // (ie. parent frame is 'display: grid' or 'display: inline-grid') if (mGridColumnStart != aNewData.mGridColumnStart || mGridColumnEnd != aNewData.mGridColumnEnd || mGridRowStart != aNewData.mGridRowStart || mGridRowEnd != aNewData.mGridRowEnd || mColumnGap != aNewData.mColumnGap || mRowGap != aNewData.mRowGap) { return hint | nsChangeHint_AllReflowHints; } // Changing 'justify-content/items/self' might affect the positioning, // but it won't affect any sizing. if (mJustifyContent != aNewData.mJustifyContent || mJustifyItems.computed != aNewData.mJustifyItems.computed || mJustifySelf != aNewData.mJustifySelf) { hint |= nsChangeHint_NeedReflow; } // No need to do anything if specified justify-items changes, as long as the // computed one (tested above) is unchanged. if (mJustifyItems.specified != aNewData.mJustifyItems.specified) { hint |= nsChangeHint_NeutralChange; } // 'align-content' doesn't apply to a single-line flexbox but we don't know // if we're a flex container at this point so we can't optimize for that. if (mAlignContent != aNewData.mAlignContent) { hint |= nsChangeHint_NeedReflow; } bool widthChanged = mWidth != aNewData.mWidth || mMinWidth != aNewData.mMinWidth || mMaxWidth != aNewData.mMaxWidth; bool heightChanged = mHeight != aNewData.mHeight || mMinHeight != aNewData.mMinHeight || mMaxHeight != aNewData.mMaxHeight; if (widthChanged || heightChanged) { // It doesn't matter whether we're looking at the old or new visibility // struct, since a change between vertical and horizontal writing-mode will // cause a reframe. const bool isVertical = aOldStyle.StyleVisibility()->mWritingMode != StyleWritingModeProperty::HorizontalTb; if (isVertical ? widthChanged : heightChanged) { hint |= nsChangeHint_ReflowHintsForBSizeChange; } if (isVertical ? heightChanged : widthChanged) { hint |= nsChangeHint_ReflowHintsForISizeChange; } } if (mAspectRatio != aNewData.mAspectRatio) { hint |= nsChangeHint_ReflowHintsForISizeChange | nsChangeHint_ReflowHintsForBSizeChange; } // If any of the offsets have changed, then return the respective hints // so that we would hopefully be able to avoid reflowing. // Note that it is possible that we'll need to reflow when processing // restyles, but we don't have enough information to make a good decision // right now. // Don't try to handle changes between "auto" and non-auto efficiently; // that's tricky to do and will hardly ever be able to avoid a reflow. if (mOffset != aNewData.mOffset) { if (IsAutonessEqual(mOffset, aNewData.mOffset)) { hint |= nsChangeHint_RecomputePosition | nsChangeHint_UpdateParentOverflow; } else { hint |= nsChangeHint_NeedReflow | nsChangeHint_ReflowChangesSizeOrPosition; } } return hint; } const StyleContainIntrinsicSize& nsStylePosition::ContainIntrinsicBSize( const WritingMode& aWM) const { return aWM.IsVertical() ? mContainIntrinsicWidth : mContainIntrinsicHeight; } const StyleContainIntrinsicSize& nsStylePosition::ContainIntrinsicISize( const WritingMode& aWM) const { return aWM.IsVertical() ? mContainIntrinsicHeight : mContainIntrinsicWidth; } StyleAlignSelf nsStylePosition::UsedAlignSelf( const ComputedStyle* aParent) const { if (mAlignSelf._0 != StyleAlignFlags::AUTO) { return mAlignSelf; } if (MOZ_LIKELY(aParent)) { auto parentAlignItems = aParent->StylePosition()->mAlignItems; MOZ_ASSERT(!(parentAlignItems._0 & StyleAlignFlags::LEGACY), "align-items can't have 'legacy'"); return {parentAlignItems._0}; } return {StyleAlignFlags::NORMAL}; } StyleJustifySelf nsStylePosition::UsedJustifySelf( const ComputedStyle* aParent) const { if (mJustifySelf._0 != StyleAlignFlags::AUTO) { return mJustifySelf; } if (MOZ_LIKELY(aParent)) { const auto& inheritedJustifyItems = aParent->StylePosition()->mJustifyItems.computed; return {inheritedJustifyItems._0 & ~StyleAlignFlags::LEGACY}; } return {StyleAlignFlags::NORMAL}; } // -------------------- // nsStyleTable // nsStyleTable::nsStyleTable() : mLayoutStrategy(StyleTableLayout::Auto), mXSpan(1) { MOZ_COUNT_CTOR(nsStyleTable); } nsStyleTable::nsStyleTable(const nsStyleTable& aSource) : mLayoutStrategy(aSource.mLayoutStrategy), mXSpan(aSource.mXSpan) { MOZ_COUNT_CTOR(nsStyleTable); } nsChangeHint nsStyleTable::CalcDifference(const nsStyleTable& aNewData) const { if (mXSpan != aNewData.mXSpan || mLayoutStrategy != aNewData.mLayoutStrategy) { return nsChangeHint_ReconstructFrame; } return nsChangeHint(0); } // ----------------------- // nsStyleTableBorder nsStyleTableBorder::nsStyleTableBorder() : mBorderSpacingCol(0), mBorderSpacingRow(0), mBorderCollapse(StyleBorderCollapse::Separate), mCaptionSide(StyleCaptionSide::Top), mEmptyCells(StyleEmptyCells::Show) { MOZ_COUNT_CTOR(nsStyleTableBorder); } nsStyleTableBorder::nsStyleTableBorder(const nsStyleTableBorder& aSource) : mBorderSpacingCol(aSource.mBorderSpacingCol), mBorderSpacingRow(aSource.mBorderSpacingRow), mBorderCollapse(aSource.mBorderCollapse), mCaptionSide(aSource.mCaptionSide), mEmptyCells(aSource.mEmptyCells) { MOZ_COUNT_CTOR(nsStyleTableBorder); } nsChangeHint nsStyleTableBorder::CalcDifference( const nsStyleTableBorder& aNewData) const { // Border-collapse changes need a reframe, because we use a different frame // class for table cells in the collapsed border model. This is used to // conserve memory when using the separated border model (collapsed borders // require extra state to be stored). if (mBorderCollapse != aNewData.mBorderCollapse) { return nsChangeHint_ReconstructFrame; } if (mCaptionSide == aNewData.mCaptionSide && mBorderSpacingCol == aNewData.mBorderSpacingCol && mBorderSpacingRow == aNewData.mBorderSpacingRow) { if (mEmptyCells == aNewData.mEmptyCells) { return nsChangeHint(0); } return NS_STYLE_HINT_VISUAL; } return NS_STYLE_HINT_REFLOW; } template static bool GradientItemsAreOpaque( Span> aItems) { for (auto& stop : aItems) { if (stop.IsInterpolationHint()) { continue; } auto& color = stop.IsSimpleColorStop() ? stop.AsSimpleColorStop() : stop.AsComplexColorStop().color; if (color.MaybeTransparent()) { // We don't know the foreground color here, so if it's being used // we must assume it might be transparent. return false; } } return true; } template <> bool StyleGradient::IsOpaque() const { if (IsLinear()) { return GradientItemsAreOpaque(AsLinear().items.AsSpan()); } if (IsRadial()) { return GradientItemsAreOpaque(AsRadial().items.AsSpan()); } return GradientItemsAreOpaque(AsConic().items.AsSpan()); } template <> bool StyleImage::IsOpaque() const { if (IsImageSet()) { return FinalImage().IsOpaque(); } if (!IsComplete()) { return false; } if (IsGradient()) { return AsGradient()->IsOpaque(); } if (IsElement()) { return false; } MOZ_ASSERT(IsImageRequestType(), "unexpected image type"); MOZ_ASSERT(GetImageRequest(), "should've returned earlier above"); nsCOMPtr imageContainer; GetImageRequest()->GetImage(getter_AddRefs(imageContainer)); MOZ_ASSERT(imageContainer, "IsComplete() said image container is ready"); return imageContainer->WillDrawOpaqueNow(); } template <> bool StyleImage::IsComplete() const { switch (tag) { case Tag::None: return false; case Tag::Gradient: case Tag::Element: return true; case Tag::Url: { if (!IsResolved()) { return false; } imgRequestProxy* req = GetImageRequest(); if (!req) { return false; } uint32_t status = imgIRequest::STATUS_ERROR; return NS_SUCCEEDED(req->GetImageStatus(&status)) && (status & imgIRequest::STATUS_SIZE_AVAILABLE) && (status & imgIRequest::STATUS_FRAME_COMPLETE); } case Tag::ImageSet: return FinalImage().IsComplete(); // Bug 546052 cross-fade not yet implemented. case Tag::CrossFade: return true; } MOZ_ASSERT_UNREACHABLE("unexpected image type"); return false; } template <> bool StyleImage::IsSizeAvailable() const { switch (tag) { case Tag::None: return false; case Tag::Gradient: case Tag::Element: return true; case Tag::Url: { imgRequestProxy* req = GetImageRequest(); if (!req) { return false; } uint32_t status = imgIRequest::STATUS_ERROR; return NS_SUCCEEDED(req->GetImageStatus(&status)) && !(status & imgIRequest::STATUS_ERROR) && (status & imgIRequest::STATUS_SIZE_AVAILABLE); } case Tag::ImageSet: return FinalImage().IsSizeAvailable(); case Tag::CrossFade: // TODO: Bug 546052 cross-fade not yet implemented. return true; } MOZ_ASSERT_UNREACHABLE("unexpected image type"); return false; } template <> void StyleImage::ResolveImage(Document& aDoc, const StyleImage* aOld) { if (IsResolved()) { return; } const auto* old = aOld ? aOld->GetImageRequestURLValue() : nullptr; const auto* url = GetImageRequestURLValue(); // We could avoid this const_cast generating more code but it's not really // worth it. const_cast(url)->ResolveImage(aDoc, old); } template <> ImageResolution StyleImage::GetResolution(const ComputedStyle& aStyle) const { ImageResolution resolution; if (imgRequestProxy* request = GetImageRequest()) { RefPtr image; request->GetImage(getter_AddRefs(image)); if (image) { resolution = image->GetResolution(); } } if (IsImageSet()) { const auto& set = *AsImageSet(); auto items = set.items.AsSpan(); if (MOZ_LIKELY(set.selected_index < items.Length())) { float r = items[set.selected_index].resolution._0; resolution.ScaleBy(r); } } if (aStyle.EffectiveZoom() != StyleZoom::ONE) { resolution.ScaleBy(1.0f / aStyle.EffectiveZoom().ToFloat()); } return resolution; } // -------------------- // nsStyleImageLayers // const nsCSSPropertyID nsStyleImageLayers::kBackgroundLayerTable[] = { eCSSProperty_background, // shorthand eCSSProperty_background_color, // color eCSSProperty_background_image, // image eCSSProperty_background_repeat, // repeat eCSSProperty_background_position_x, // positionX eCSSProperty_background_position_y, // positionY eCSSProperty_background_clip, // clip eCSSProperty_background_origin, // origin eCSSProperty_background_size, // size eCSSProperty_background_attachment, // attachment eCSSProperty_UNKNOWN, // maskMode eCSSProperty_UNKNOWN // composite }; const nsCSSPropertyID nsStyleImageLayers::kMaskLayerTable[] = { eCSSProperty_mask, // shorthand eCSSProperty_UNKNOWN, // color eCSSProperty_mask_image, // image eCSSProperty_mask_repeat, // repeat eCSSProperty_mask_position_x, // positionX eCSSProperty_mask_position_y, // positionY eCSSProperty_mask_clip, // clip eCSSProperty_mask_origin, // origin eCSSProperty_mask_size, // size eCSSProperty_UNKNOWN, // attachment eCSSProperty_mask_mode, // maskMode eCSSProperty_mask_composite // composite }; nsStyleImageLayers::nsStyleImageLayers(nsStyleImageLayers::LayerType aType) : mAttachmentCount(1), mClipCount(1), mOriginCount(1), mRepeatCount(1), mPositionXCount(1), mPositionYCount(1), mImageCount(1), mSizeCount(1), mMaskModeCount(1), mBlendModeCount(1), mCompositeCount(1), mLayers(nsStyleAutoArray::WITH_SINGLE_INITIAL_ELEMENT) { // Ensure first layer is initialized as specified layer type mLayers[0].Initialize(aType); } nsStyleImageLayers::nsStyleImageLayers(const nsStyleImageLayers& aSource) : mAttachmentCount(aSource.mAttachmentCount), mClipCount(aSource.mClipCount), mOriginCount(aSource.mOriginCount), mRepeatCount(aSource.mRepeatCount), mPositionXCount(aSource.mPositionXCount), mPositionYCount(aSource.mPositionYCount), mImageCount(aSource.mImageCount), mSizeCount(aSource.mSizeCount), mMaskModeCount(aSource.mMaskModeCount), mBlendModeCount(aSource.mBlendModeCount), mCompositeCount(aSource.mCompositeCount), mLayers(aSource.mLayers.Clone()) {} static bool AnyLayerIsElementImage(const nsStyleImageLayers& aLayers) { NS_FOR_VISIBLE_IMAGE_LAYERS_BACK_TO_FRONT(i, aLayers) { if (aLayers.mLayers[i].mImage.FinalImage().IsElement()) { return true; } } return false; } nsChangeHint nsStyleImageLayers::CalcDifference( const nsStyleImageLayers& aNewLayers, LayerType aType) const { nsChangeHint hint = nsChangeHint(0); // If the number of visible images changes, then it's easy-peasy. if (mImageCount != aNewLayers.mImageCount) { hint |= nsChangeHint_RepaintFrame; if (aType == nsStyleImageLayers::LayerType::Mask || AnyLayerIsElementImage(*this) || AnyLayerIsElementImage(aNewLayers)) { hint |= nsChangeHint_UpdateEffects; } return hint; } const nsStyleImageLayers& moreLayers = mLayers.Length() > aNewLayers.mLayers.Length() ? *this : aNewLayers; const nsStyleImageLayers& lessLayers = mLayers.Length() > aNewLayers.mLayers.Length() ? aNewLayers : *this; for (size_t i = 0; i < moreLayers.mLayers.Length(); ++i) { const Layer& moreLayersLayer = moreLayers.mLayers[i]; if (i < moreLayers.mImageCount) { // This is a visible image we're diffing, we may need to repaint. const Layer& lessLayersLayer = lessLayers.mLayers[i]; nsChangeHint layerDifference = moreLayersLayer.CalcDifference(lessLayersLayer); if (layerDifference && (moreLayersLayer.mImage.FinalImage().IsElement() || lessLayersLayer.mImage.FinalImage().IsElement())) { layerDifference |= nsChangeHint_UpdateEffects | nsChangeHint_RepaintFrame; } hint |= layerDifference; continue; } if (hint) { // If they're different by now, we're done. return hint; } if (i >= lessLayers.mLayers.Length()) { // The layer count differs, we know some property has changed, but if we // got here we know it won't affect rendering. return nsChangeHint_NeutralChange; } const Layer& lessLayersLayer = lessLayers.mLayers[i]; MOZ_ASSERT(moreLayersLayer.mImage.IsNone()); MOZ_ASSERT(lessLayersLayer.mImage.IsNone()); if (moreLayersLayer.CalcDifference(lessLayersLayer)) { // We don't care about the difference returned, we know it's not visible, // but if something changed, then we need to return the neutral change. return nsChangeHint_NeutralChange; } } if (hint) { // If they're different by now, we're done. return hint; } // We could have same layers and values, but different count still. if (mAttachmentCount != aNewLayers.mAttachmentCount || mBlendModeCount != aNewLayers.mBlendModeCount || mClipCount != aNewLayers.mClipCount || mCompositeCount != aNewLayers.mCompositeCount || mMaskModeCount != aNewLayers.mMaskModeCount || mOriginCount != aNewLayers.mOriginCount || mRepeatCount != aNewLayers.mRepeatCount || mPositionXCount != aNewLayers.mPositionXCount || mPositionYCount != aNewLayers.mPositionYCount || mSizeCount != aNewLayers.mSizeCount) { hint |= nsChangeHint_NeutralChange; } return hint; } nsStyleImageLayers& nsStyleImageLayers::operator=( const nsStyleImageLayers& aOther) { mAttachmentCount = aOther.mAttachmentCount; mClipCount = aOther.mClipCount; mOriginCount = aOther.mOriginCount; mRepeatCount = aOther.mRepeatCount; mPositionXCount = aOther.mPositionXCount; mPositionYCount = aOther.mPositionYCount; mImageCount = aOther.mImageCount; mSizeCount = aOther.mSizeCount; mMaskModeCount = aOther.mMaskModeCount; mBlendModeCount = aOther.mBlendModeCount; mCompositeCount = aOther.mCompositeCount; mLayers = aOther.mLayers.Clone(); return *this; } bool nsStyleImageLayers::operator==(const nsStyleImageLayers& aOther) const { if (mAttachmentCount != aOther.mAttachmentCount || mClipCount != aOther.mClipCount || mOriginCount != aOther.mOriginCount || mRepeatCount != aOther.mRepeatCount || mPositionXCount != aOther.mPositionXCount || mPositionYCount != aOther.mPositionYCount || mImageCount != aOther.mImageCount || mSizeCount != aOther.mSizeCount || mMaskModeCount != aOther.mMaskModeCount || mBlendModeCount != aOther.mBlendModeCount) { return false; } if (mLayers.Length() != aOther.mLayers.Length()) { return false; } for (uint32_t i = 0; i < mLayers.Length(); i++) { if (mLayers[i].mPosition != aOther.mLayers[i].mPosition || mLayers[i].mImage != aOther.mLayers[i].mImage || mLayers[i].mSize != aOther.mLayers[i].mSize || mLayers[i].mClip != aOther.mLayers[i].mClip || mLayers[i].mOrigin != aOther.mLayers[i].mOrigin || mLayers[i].mAttachment != aOther.mLayers[i].mAttachment || mLayers[i].mBlendMode != aOther.mLayers[i].mBlendMode || mLayers[i].mComposite != aOther.mLayers[i].mComposite || mLayers[i].mMaskMode != aOther.mLayers[i].mMaskMode || mLayers[i].mRepeat != aOther.mLayers[i].mRepeat) { return false; } } return true; } static bool SizeDependsOnPositioningAreaSize(const StyleBackgroundSize& aSize, const StyleImage& aImage) { MOZ_ASSERT(!aImage.IsNone(), "caller should have handled this"); MOZ_ASSERT(!aImage.IsImageSet(), "caller should have handled this"); // Contain and cover straightforwardly depend on frame size. if (aSize.IsCover() || aSize.IsContain()) { return true; } MOZ_ASSERT(aSize.IsExplicitSize()); const auto& size = aSize.AsExplicitSize(); // If either dimension contains a non-zero percentage, rendering for that // dimension straightforwardly depends on frame size. if (size.width.HasPercent() || size.height.HasPercent()) { return true; } // If both dimensions are fixed lengths, there's no dependency. if (!size.width.IsAuto() && !size.height.IsAuto()) { return false; } // Gradient rendering depends on frame size when auto is involved because // gradients have no intrinsic ratio or dimensions, and therefore the relevant // dimension is "treat[ed] as 100%". if (aImage.IsGradient()) { return true; } // XXX Element rendering for auto or fixed length doesn't depend on frame size // according to the spec. However, we don't implement the spec yet, so // for now we bail and say element() plus auto affects ultimate size. if (aImage.IsElement()) { return true; } MOZ_ASSERT(aImage.IsImageRequestType(), "Missed some image"); if (auto* request = aImage.GetImageRequest()) { nsCOMPtr imgContainer; request->GetImage(getter_AddRefs(imgContainer)); if (imgContainer) { CSSIntSize imageSize; AspectRatio imageRatio; bool hasWidth, hasHeight; // We could bother getting the right resolution here but it doesn't matter // since we ignore `imageSize`. nsLayoutUtils::ComputeSizeForDrawing(imgContainer, ImageResolution(), imageSize, imageRatio, hasWidth, hasHeight); // If the image has a fixed width and height, rendering never depends on // the frame size. if (hasWidth && hasHeight) { return false; } // If the image has an intrinsic ratio, rendering will depend on frame // size when background-size is all auto. if (imageRatio) { return size.width.IsAuto() == size.height.IsAuto(); } // Otherwise, rendering depends on frame size when the image dimensions // and background-size don't complement each other. return !(hasWidth && size.width.IsLengthPercentage()) && !(hasHeight && size.height.IsLengthPercentage()); } } // Passed the gauntlet: no dependency. return false; } nsStyleImageLayers::Layer::Layer() : mImage(StyleImage::None()), mSize(StyleBackgroundSize::ExplicitSize(LengthPercentageOrAuto::Auto(), LengthPercentageOrAuto::Auto())), mClip(StyleGeometryBox::BorderBox), mAttachment(StyleImageLayerAttachment::Scroll), mBlendMode(StyleBlend::Normal), mComposite(StyleMaskComposite::Add), mMaskMode(StyleMaskMode::MatchSource) {} nsStyleImageLayers::Layer::~Layer() = default; void nsStyleImageLayers::Layer::Initialize( nsStyleImageLayers::LayerType aType) { mPosition = Position::FromPercentage(0.); if (aType == LayerType::Background) { mOrigin = StyleGeometryBox::PaddingBox; } else { MOZ_ASSERT(aType == LayerType::Mask, "unsupported layer type."); mOrigin = StyleGeometryBox::BorderBox; } } bool nsStyleImageLayers::Layer:: RenderingMightDependOnPositioningAreaSizeChange() const { // Do we even have an image? if (mImage.IsNone()) { return false; } return mPosition.DependsOnPositioningAreaSize() || SizeDependsOnPositioningAreaSize(mSize, mImage.FinalImage()) || mRepeat.DependsOnPositioningAreaSize(); } bool nsStyleImageLayers::Layer::operator==(const Layer& aOther) const { return mAttachment == aOther.mAttachment && mClip == aOther.mClip && mOrigin == aOther.mOrigin && mRepeat == aOther.mRepeat && mBlendMode == aOther.mBlendMode && mPosition == aOther.mPosition && mSize == aOther.mSize && mImage == aOther.mImage && mMaskMode == aOther.mMaskMode && mComposite == aOther.mComposite; } template static void FillImageLayerList( nsStyleAutoArray& aLayers, ComputedValueItem nsStyleImageLayers::Layer::*aResultLocation, uint32_t aItemCount, uint32_t aFillCount) { MOZ_ASSERT(aFillCount <= aLayers.Length(), "unexpected array length"); for (uint32_t sourceLayer = 0, destLayer = aItemCount; destLayer < aFillCount; ++sourceLayer, ++destLayer) { aLayers[destLayer].*aResultLocation = aLayers[sourceLayer].*aResultLocation; } } // The same as FillImageLayerList, but for values stored in // layer.mPosition.*aResultLocation instead of layer.*aResultLocation. static void FillImageLayerPositionCoordList( nsStyleAutoArray& aLayers, LengthPercentage Position::*aResultLocation, uint32_t aItemCount, uint32_t aFillCount) { MOZ_ASSERT(aFillCount <= aLayers.Length(), "unexpected array length"); for (uint32_t sourceLayer = 0, destLayer = aItemCount; destLayer < aFillCount; ++sourceLayer, ++destLayer) { aLayers[destLayer].mPosition.*aResultLocation = aLayers[sourceLayer].mPosition.*aResultLocation; } } void nsStyleImageLayers::FillAllLayers(uint32_t aMaxItemCount) { // Delete any extra items. We need to keep layers in which any // property was specified. mLayers.TruncateLengthNonZero(aMaxItemCount); uint32_t fillCount = mImageCount; FillImageLayerList(mLayers, &Layer::mImage, mImageCount, fillCount); FillImageLayerList(mLayers, &Layer::mRepeat, mRepeatCount, fillCount); FillImageLayerList(mLayers, &Layer::mAttachment, mAttachmentCount, fillCount); FillImageLayerList(mLayers, &Layer::mClip, mClipCount, fillCount); FillImageLayerList(mLayers, &Layer::mBlendMode, mBlendModeCount, fillCount); FillImageLayerList(mLayers, &Layer::mOrigin, mOriginCount, fillCount); FillImageLayerPositionCoordList(mLayers, &Position::horizontal, mPositionXCount, fillCount); FillImageLayerPositionCoordList(mLayers, &Position::vertical, mPositionYCount, fillCount); FillImageLayerList(mLayers, &Layer::mSize, mSizeCount, fillCount); FillImageLayerList(mLayers, &Layer::mMaskMode, mMaskModeCount, fillCount); FillImageLayerList(mLayers, &Layer::mComposite, mCompositeCount, fillCount); } static bool UrlValuesEqual(const StyleImage& aImage, const StyleImage& aOtherImage) { const auto* url = aImage.GetImageRequestURLValue(); const auto* other = aOtherImage.GetImageRequestURLValue(); return url == other || (url && other && *url == *other); } nsChangeHint nsStyleImageLayers::Layer::CalcDifference( const nsStyleImageLayers::Layer& aNewLayer) const { nsChangeHint hint = nsChangeHint(0); if (!UrlValuesEqual(mImage, aNewLayer.mImage)) { hint |= nsChangeHint_RepaintFrame | nsChangeHint_UpdateEffects; } else if (mAttachment != aNewLayer.mAttachment || mClip != aNewLayer.mClip || mOrigin != aNewLayer.mOrigin || mRepeat != aNewLayer.mRepeat || mBlendMode != aNewLayer.mBlendMode || mSize != aNewLayer.mSize || mImage != aNewLayer.mImage || mMaskMode != aNewLayer.mMaskMode || mComposite != aNewLayer.mComposite) { hint |= nsChangeHint_RepaintFrame; } if (mPosition != aNewLayer.mPosition) { hint |= nsChangeHint_UpdateBackgroundPosition; } return hint; } // -------------------- // nsStyleBackground // nsStyleBackground::nsStyleBackground() : mImage(nsStyleImageLayers::LayerType::Background), mBackgroundColor(StyleColor::Transparent()) { MOZ_COUNT_CTOR(nsStyleBackground); } nsStyleBackground::nsStyleBackground(const nsStyleBackground& aSource) : mImage(aSource.mImage), mBackgroundColor(aSource.mBackgroundColor) { MOZ_COUNT_CTOR(nsStyleBackground); } void nsStyleBackground::TriggerImageLoads(Document& aDocument, const nsStyleBackground* aOldStyle) { MOZ_ASSERT(NS_IsMainThread()); mImage.ResolveImages(aDocument, aOldStyle ? &aOldStyle->mImage : nullptr); } nsChangeHint nsStyleBackground::CalcDifference( const nsStyleBackground& aNewData) const { nsChangeHint hint = nsChangeHint(0); if (mBackgroundColor != aNewData.mBackgroundColor) { hint |= nsChangeHint_RepaintFrame; } hint |= mImage.CalcDifference(aNewData.mImage, nsStyleImageLayers::LayerType::Background); return hint; } bool nsStyleBackground::HasFixedBackground(nsIFrame* aFrame) const { NS_FOR_VISIBLE_IMAGE_LAYERS_BACK_TO_FRONT(i, mImage) { const nsStyleImageLayers::Layer& layer = mImage.mLayers[i]; if (layer.mAttachment == StyleImageLayerAttachment::Fixed && !layer.mImage.IsNone() && !nsLayoutUtils::IsTransformed(aFrame)) { return true; } } return false; } nscolor nsStyleBackground::BackgroundColor(const nsIFrame* aFrame) const { return mBackgroundColor.CalcColor(aFrame); } nscolor nsStyleBackground::BackgroundColor(const ComputedStyle* aStyle) const { return mBackgroundColor.CalcColor(*aStyle); } bool nsStyleBackground::IsTransparent(const nsIFrame* aFrame) const { return IsTransparent(aFrame->Style()); } bool nsStyleBackground::IsTransparent(const ComputedStyle* aStyle) const { return BottomLayer().mImage.IsNone() && mImage.mImageCount == 1 && NS_GET_A(BackgroundColor(aStyle)) == 0; } StyleTransition::StyleTransition(const StyleTransition& aCopy) = default; bool StyleTransition::operator==(const StyleTransition& aOther) const { return mTimingFunction == aOther.mTimingFunction && mDuration == aOther.mDuration && mDelay == aOther.mDelay && mProperty == aOther.mProperty && mBehavior == aOther.mBehavior; } StyleAnimation::StyleAnimation(const StyleAnimation& aCopy) = default; bool StyleAnimation::operator==(const StyleAnimation& aOther) const { return mTimingFunction == aOther.mTimingFunction && mDuration == aOther.mDuration && mDelay == aOther.mDelay && mName == aOther.mName && mDirection == aOther.mDirection && mFillMode == aOther.mFillMode && mPlayState == aOther.mPlayState && mIterationCount == aOther.mIterationCount && mComposition == aOther.mComposition && mTimeline == aOther.mTimeline; } // -------------------- // nsStyleDisplay // nsStyleDisplay::nsStyleDisplay() : mDisplay(StyleDisplay::Inline), mOriginalDisplay(StyleDisplay::Inline), mContentVisibility(StyleContentVisibility::Visible), mContainerType(StyleContainerType::Normal), mAppearance(StyleAppearance::None), mContain(StyleContain::NONE), mEffectiveContainment(StyleContain::NONE), mDefaultAppearance(StyleAppearance::None), mPosition(StylePositionProperty::Static), mFloat(StyleFloat::None), mClear(StyleClear::None), mBreakInside(StyleBreakWithin::Auto), mBreakBefore(StyleBreakBetween::Auto), mBreakAfter(StyleBreakBetween::Auto), mOverflowX(StyleOverflow::Visible), mOverflowY(StyleOverflow::Visible), mOverflowClipBoxBlock(StyleOverflowClipBox::PaddingBox), mOverflowClipBoxInline(StyleOverflowClipBox::PaddingBox), mScrollbarGutter(StyleScrollbarGutter::AUTO), mResize(StyleResize::None), mOrient(StyleOrient::Inline), mIsolation(StyleIsolation::Auto), mTopLayer(StyleTopLayer::None), mTouchAction(StyleTouchAction::AUTO), mScrollBehavior(StyleScrollBehavior::Auto), mOverscrollBehaviorX(StyleOverscrollBehavior::Auto), mOverscrollBehaviorY(StyleOverscrollBehavior::Auto), mOverflowAnchor(StyleOverflowAnchor::Auto), mScrollSnapAlign{StyleScrollSnapAlignKeyword::None, StyleScrollSnapAlignKeyword::None}, mScrollSnapStop{StyleScrollSnapStop::Normal}, mScrollSnapType{StyleScrollSnapAxis::Both, StyleScrollSnapStrictness::None}, mBackfaceVisibility(StyleBackfaceVisibility::Visible), mTransformStyle(StyleTransformStyle::Flat), mTransformBox(StyleTransformBox::ViewBox), mRotate(StyleRotate::None()), mTranslate(StyleTranslate::None()), mScale(StyleScale::None()), mWillChange{{}, {0}}, mOffsetPath(StyleOffsetPath::None()), mOffsetDistance(LengthPercentage::Zero()), mOffsetRotate{true, StyleAngle{0.0}}, mOffsetAnchor(StylePositionOrAuto::Auto()), mOffsetPosition(StyleOffsetPosition::Normal()), mTransformOrigin{LengthPercentage::FromPercentage(0.5), LengthPercentage::FromPercentage(0.5), {0.}}, mChildPerspective(StylePerspective::None()), mPerspectiveOrigin(Position::FromPercentage(0.5f)), mVerticalAlign( StyleVerticalAlign::Keyword(StyleVerticalAlignKeyword::Baseline)), mBaselineSource(StyleBaselineSource::Auto), mWebkitLineClamp(0), mShapeMargin(LengthPercentage::Zero()), mShapeOutside(StyleShapeOutside::None()) { MOZ_COUNT_CTOR(nsStyleDisplay); } nsStyleDisplay::nsStyleDisplay(const nsStyleDisplay& aSource) : mDisplay(aSource.mDisplay), mOriginalDisplay(aSource.mOriginalDisplay), mContentVisibility(aSource.mContentVisibility), mContainerType(aSource.mContainerType), mAppearance(aSource.mAppearance), mContain(aSource.mContain), mEffectiveContainment(aSource.mEffectiveContainment), mDefaultAppearance(aSource.mDefaultAppearance), mPosition(aSource.mPosition), mFloat(aSource.mFloat), mClear(aSource.mClear), mBreakInside(aSource.mBreakInside), mBreakBefore(aSource.mBreakBefore), mBreakAfter(aSource.mBreakAfter), mOverflowX(aSource.mOverflowX), mOverflowY(aSource.mOverflowY), mOverflowClipBoxBlock(aSource.mOverflowClipBoxBlock), mOverflowClipBoxInline(aSource.mOverflowClipBoxInline), mScrollbarGutter(aSource.mScrollbarGutter), mResize(aSource.mResize), mOrient(aSource.mOrient), mIsolation(aSource.mIsolation), mTopLayer(aSource.mTopLayer), mTouchAction(aSource.mTouchAction), mScrollBehavior(aSource.mScrollBehavior), mOverscrollBehaviorX(aSource.mOverscrollBehaviorX), mOverscrollBehaviorY(aSource.mOverscrollBehaviorY), mOverflowAnchor(aSource.mOverflowAnchor), mScrollSnapAlign(aSource.mScrollSnapAlign), mScrollSnapStop(aSource.mScrollSnapStop), mScrollSnapType(aSource.mScrollSnapType), mBackfaceVisibility(aSource.mBackfaceVisibility), mTransformStyle(aSource.mTransformStyle), mTransformBox(aSource.mTransformBox), mTransform(aSource.mTransform), mRotate(aSource.mRotate), mTranslate(aSource.mTranslate), mScale(aSource.mScale), mContainerName(aSource.mContainerName), mWillChange(aSource.mWillChange), mOffsetPath(aSource.mOffsetPath), mOffsetDistance(aSource.mOffsetDistance), mOffsetRotate(aSource.mOffsetRotate), mOffsetAnchor(aSource.mOffsetAnchor), mOffsetPosition(aSource.mOffsetPosition), mTransformOrigin(aSource.mTransformOrigin), mChildPerspective(aSource.mChildPerspective), mPerspectiveOrigin(aSource.mPerspectiveOrigin), mVerticalAlign(aSource.mVerticalAlign), mBaselineSource(aSource.mBaselineSource), mWebkitLineClamp(aSource.mWebkitLineClamp), mShapeImageThreshold(aSource.mShapeImageThreshold), mShapeMargin(aSource.mShapeMargin), mShapeOutside(aSource.mShapeOutside) { MOZ_COUNT_CTOR(nsStyleDisplay); } void nsStyleDisplay::TriggerImageLoads(Document& aDocument, const nsStyleDisplay* aOldStyle) { MOZ_ASSERT(NS_IsMainThread()); if (mShapeOutside.IsImage()) { const auto* old = aOldStyle && aOldStyle->mShapeOutside.IsImage() ? &aOldStyle->mShapeOutside.AsImage() : nullptr; // Const-cast is ugly but legit, we could avoid it by generating mut-casts // with cbindgen. const_cast(mShapeOutside.AsImage()) .ResolveImage(aDocument, old); } } template static inline nsChangeHint CompareTransformValues( const TransformLike& aOldTransform, const TransformLike& aNewTransform) { nsChangeHint result = nsChangeHint(0); // Note: If we add a new change hint for transform changes here, we have to // modify KeyframeEffect::CalculateCumulativeChangeHint too! if (aOldTransform != aNewTransform) { result |= nsChangeHint_UpdateTransformLayer; if (!aOldTransform.IsNone() && !aNewTransform.IsNone()) { result |= nsChangeHint_UpdatePostTransformOverflow; } else { result |= nsChangeHint_UpdateOverflow; } } return result; } static inline nsChangeHint CompareMotionValues( const nsStyleDisplay& aDisplay, const nsStyleDisplay& aNewDisplay) { if (aDisplay.mOffsetPath == aNewDisplay.mOffsetPath) { if (aDisplay.mOffsetDistance == aNewDisplay.mOffsetDistance && aDisplay.mOffsetRotate == aNewDisplay.mOffsetRotate && aDisplay.mOffsetAnchor == aNewDisplay.mOffsetAnchor && aDisplay.mOffsetPosition == aNewDisplay.mOffsetPosition) { return nsChangeHint(0); } // No motion path transform is applied. if (aDisplay.mOffsetPath.IsNone()) { return nsChangeHint_NeutralChange; } } // TODO: Bug 1482737: This probably doesn't need to UpdateOverflow // (or UpdateTransformLayer) if there's already a transform. // Set the same hints as what we use for transform because motion path is // a kind of transform and will be combined with other transforms. nsChangeHint result = nsChangeHint_UpdateTransformLayer; if (!aDisplay.mOffsetPath.IsNone() && !aNewDisplay.mOffsetPath.IsNone()) { result |= nsChangeHint_UpdatePostTransformOverflow; } else { result |= nsChangeHint_UpdateOverflow; } return result; } static bool ScrollbarGenerationChanged(const nsStyleDisplay& aOld, const nsStyleDisplay& aNew) { auto changed = [](StyleOverflow aOld, StyleOverflow aNew) { return aOld != aNew && (aOld == StyleOverflow::Hidden || aNew == StyleOverflow::Hidden); }; return changed(aOld.mOverflowX, aNew.mOverflowX) || changed(aOld.mOverflowY, aNew.mOverflowY); } static bool AppearanceValueAffectsFrames(StyleAppearance aAppearance, StyleAppearance aDefaultAppearance) { switch (aAppearance) { case StyleAppearance::Textfield: // This is for where we allow authors to // specify a |-moz-appearance:textfield| to get a control without buttons. // We need to reframe since this affects the spinbox creation in // nsNumber/SearchControlFrame::CreateAnonymousContent. return aDefaultAppearance == StyleAppearance::NumberInput || aDefaultAppearance == StyleAppearance::Searchfield; case StyleAppearance::Menulist: // This affects the menulist button creation. return aDefaultAppearance == StyleAppearance::Menulist; default: return false; } } nsChangeHint nsStyleDisplay::CalcDifference( const nsStyleDisplay& aNewData, const ComputedStyle& aOldStyle) const { if (mDisplay != aNewData.mDisplay || (mFloat == StyleFloat::None) != (aNewData.mFloat == StyleFloat::None) || mTopLayer != aNewData.mTopLayer || mResize != aNewData.mResize) { return nsChangeHint_ReconstructFrame; } auto oldAppearance = EffectiveAppearance(); auto newAppearance = aNewData.EffectiveAppearance(); if (oldAppearance != newAppearance) { // Changes to the relevant default appearance changes in // AppearanceValueRequiresFrameReconstruction require reconstruction on // their own, so we can just pick either the new or the old. if (AppearanceValueAffectsFrames(oldAppearance, mDefaultAppearance) || AppearanceValueAffectsFrames(newAppearance, mDefaultAppearance)) { return nsChangeHint_ReconstructFrame; } } auto hint = nsChangeHint(0); const auto containmentDiff = mEffectiveContainment ^ aNewData.mEffectiveContainment; if (containmentDiff) { if (containmentDiff & StyleContain::STYLE) { // Style containment affects counters so we need to re-frame. return nsChangeHint_ReconstructFrame; } if (containmentDiff & (StyleContain::PAINT | StyleContain::LAYOUT)) { // Paint and layout containment boxes are absolutely/fixed positioning // containers. hint |= nsChangeHint_UpdateContainingBlock; } // The other container types only need a reflow. hint |= nsChangeHint_AllReflowHints | nsChangeHint_RepaintFrame; } if (mPosition != aNewData.mPosition) { if (IsAbsolutelyPositionedStyle() || aNewData.IsAbsolutelyPositionedStyle()) { // This changes our parent relationship on the frame tree and / or needs // to create a placeholder, so gotta reframe. There are some cases (when // switching from fixed to absolute or viceversa, if our containing block // happens to remain the same, i.e., if it has a transform or such) where // this wouldn't really be needed (though we'd still need to move the // frame from one child list to another). In any case we don't have a hand // to that information from here, and it doesn't seem like a case worth // optimizing for. return nsChangeHint_ReconstructFrame; } // We start or stop being a containing block for abspos descendants. This // also causes painting to change, as we'd become a pseudo-stacking context. if (IsRelativelyOrStickyPositionedStyle() != aNewData.IsRelativelyOrStickyPositionedStyle()) { hint |= nsChangeHint_UpdateContainingBlock | nsChangeHint_RepaintFrame; } if (IsPositionForcingStackingContext() != aNewData.IsPositionForcingStackingContext()) { hint |= nsChangeHint_RepaintFrame; } // On top of that: if the above ends up not reframing, we need a reflow to // compute our relative, static or sticky position. hint |= nsChangeHint_NeedReflow | nsChangeHint_ReflowChangesSizeOrPosition; } if (mScrollSnapAlign != aNewData.mScrollSnapAlign || mScrollSnapType != aNewData.mScrollSnapType || mScrollSnapStop != aNewData.mScrollSnapStop) { hint |= nsChangeHint_RepaintFrame; } if (mScrollBehavior != aNewData.mScrollBehavior) { hint |= nsChangeHint_NeutralChange; } if (mOverflowX != aNewData.mOverflowX || mOverflowY != aNewData.mOverflowY) { const bool isScrollable = IsScrollableOverflow(); if (isScrollable != aNewData.IsScrollableOverflow()) { // We may need to construct or destroy a scroll frame as a result of this // change. If we don't, we still need to update our overflow in some cases // (like svg:foreignObject), which ignore the scrollable-ness of our // overflow. hint |= nsChangeHint_ScrollbarChange | nsChangeHint_UpdateOverflow | nsChangeHint_RepaintFrame; } else if (isScrollable) { if (ScrollbarGenerationChanged(*this, aNewData)) { // We might need to reframe in the case of hidden -> non-hidden case // though, since nsHTMLScrollFrame::CreateAnonymousContent avoids // creating scrollbars altogether for overflow: hidden. That seems it // could create some interesting perf cliffs... hint |= nsChangeHint_ScrollbarChange; } else { // Otherwise, for changes where both overflow values are scrollable, // means that scrollbars may appear or disappear. We need to reflow, // since reflow is what determines which scrollbars if any are visible. hint |= nsChangeHint_ReflowHintsForScrollbarChange; } } else { // Otherwise this is a change between 'visible' and 'clip'. // Here only whether we have a 'clip' changes, so just repaint and // update our overflow areas in that case. hint |= nsChangeHint_UpdateOverflow | nsChangeHint_RepaintFrame; } } if (mScrollbarGutter != aNewData.mScrollbarGutter) { if (IsScrollableOverflow() || aOldStyle.IsRootElementStyle()) { // Changing scrollbar-gutter affects available inline-size of a inner // scrolled frame, so we need a reflow for scrollbar change. Note that the // root is always scrollable in HTML, even if its style doesn't say so. hint |= nsChangeHint_ReflowHintsForScrollbarChange; } else { // scrollbar-gutter only applies to scroll containers. hint |= nsChangeHint_NeutralChange; } } if (mFloat != aNewData.mFloat) { // Changing which side we're floating on (float:none was handled above). hint |= nsChangeHint_ReflowHintsForFloatAreaChange; } if (mShapeOutside != aNewData.mShapeOutside || mShapeMargin != aNewData.mShapeMargin || mShapeImageThreshold != aNewData.mShapeImageThreshold) { if (aNewData.mFloat != StyleFloat::None) { // If we are floating, and our shape-outside, shape-margin, or // shape-image-threshold are changed, our descendants are not impacted, // but our ancestor and siblings are. hint |= nsChangeHint_ReflowHintsForFloatAreaChange; } else { // shape-outside or shape-margin or shape-image-threshold changed, // but we don't need to reflow because we're not floating. hint |= nsChangeHint_NeutralChange; } } if (mWebkitLineClamp != aNewData.mWebkitLineClamp || mVerticalAlign != aNewData.mVerticalAlign || mBaselineSource != aNewData.mBaselineSource) { // XXX Can this just be AllReflowHints + RepaintFrame, and be included in // the block below? hint |= NS_STYLE_HINT_REFLOW; } // XXX the following is conservative, for now: changing float breaking // shouldn't necessarily require a repaint, reflow should suffice. // // FIXME(emilio): We definitely change the frame tree in nsCSSFrameConstructor // based on break-before / break-after... Shouldn't that reframe? if (mClear != aNewData.mClear || mBreakInside != aNewData.mBreakInside || mBreakBefore != aNewData.mBreakBefore || mBreakAfter != aNewData.mBreakAfter || mAppearance != aNewData.mAppearance || mDefaultAppearance != aNewData.mDefaultAppearance || mOrient != aNewData.mOrient || mOverflowClipBoxBlock != aNewData.mOverflowClipBoxBlock || mOverflowClipBoxInline != aNewData.mOverflowClipBoxInline) { hint |= nsChangeHint_AllReflowHints | nsChangeHint_RepaintFrame; } if (mIsolation != aNewData.mIsolation) { hint |= nsChangeHint_RepaintFrame; } /* If we've added or removed the transform property, we need to reconstruct * the frame to add or remove the view object, and also to handle abs-pos and * fixed-pos containers. */ if (HasTransformStyle() != aNewData.HasTransformStyle()) { hint |= nsChangeHint_ComprehensiveAddOrRemoveTransform; } else { /* Otherwise, if we've kept the property lying around and we already had a * transform, we need to see whether or not we've changed the transform. * If so, we need to recompute its overflow rect (which probably changed * if the transform changed) and to redraw within the bounds of that new * overflow rect. * * If the property isn't present in either style struct, we still do the * comparisons but turn all the resulting change hints into * nsChangeHint_NeutralChange. */ nsChangeHint transformHint = CalcTransformPropertyDifference(aNewData); if (transformHint) { if (HasTransformStyle()) { hint |= transformHint; } else { hint |= nsChangeHint_NeutralChange; } } } if (HasPerspectiveStyle() != aNewData.HasPerspectiveStyle()) { // A change from/to being a containing block for position:fixed. hint |= nsChangeHint_UpdateContainingBlock | nsChangeHint_UpdateOverflow | nsChangeHint_RepaintFrame; } else if (mChildPerspective != aNewData.mChildPerspective) { hint |= nsChangeHint_UpdateOverflow | nsChangeHint_RepaintFrame; } // Note that the HasTransformStyle() != aNewData.HasTransformStyle() // test above handles relevant changes in the StyleWillChangeBit_TRANSFORM // bit, which in turn handles frame reconstruction for changes in the // containing block of fixed-positioned elements. auto willChangeBitsChanged = mWillChange.bits ^ aNewData.mWillChange.bits; if (willChangeBitsChanged & (StyleWillChangeBits::STACKING_CONTEXT_UNCONDITIONAL | StyleWillChangeBits::SCROLL | StyleWillChangeBits::OPACITY | StyleWillChangeBits::PERSPECTIVE | StyleWillChangeBits::TRANSFORM | StyleWillChangeBits::Z_INDEX)) { hint |= nsChangeHint_RepaintFrame; } if (willChangeBitsChanged & (StyleWillChangeBits::FIXPOS_CB_NON_SVG | StyleWillChangeBits::TRANSFORM | StyleWillChangeBits::PERSPECTIVE | StyleWillChangeBits::POSITION | StyleWillChangeBits::CONTAIN)) { hint |= nsChangeHint_UpdateContainingBlock; } // If touch-action is changed, we need to regenerate the event regions on // the layers and send it over to the compositor for APZ to handle. if (mTouchAction != aNewData.mTouchAction) { hint |= nsChangeHint_RepaintFrame; } // If overscroll-behavior has changed, the changes are picked up // during a repaint. if (mOverscrollBehaviorX != aNewData.mOverscrollBehaviorX || mOverscrollBehaviorY != aNewData.mOverscrollBehaviorY) { hint |= nsChangeHint_SchedulePaint; } if (mOriginalDisplay != aNewData.mOriginalDisplay) { // Our hypothetical box position may have changed. // // Note that it doesn't matter if we look at the old or the new struct, // since a change on whether we need a hypothetical position would trigger // reflow anyway. if (IsAbsolutelyPositionedStyle() && aOldStyle.StylePosition()->NeedsHypotheticalPositionIfAbsPos()) { hint |= nsChangeHint_NeedReflow | nsChangeHint_ReflowChangesSizeOrPosition; } else { hint |= nsChangeHint_NeutralChange; } } // Note: Our current behavior for handling changes to the // transition-duration, transition-delay, and transition-timing-function // properties is to do nothing. In other words, the transition // property that matters is what it is when the transition begins, and // we don't stop a transition later because the transition property // changed. // We do handle changes to transition-property, but we don't need to // bother with anything here, since the transition manager is notified // of any ComputedStyle change anyway. // Note: Likewise, for animation-*, the animation manager gets // notified about every new ComputedStyle constructed, and it uses // that opportunity to handle dynamic changes appropriately. // But we still need to return nsChangeHint_NeutralChange for these // properties, since some data did change in the style struct. // TODO(emilio): Figure out change hints for container-name, maybe it needs to // be handled by the style system as a special-case (since it changes // container-query selection on descendants). // container-type / contain / content-visibility are handled by the // mEffectiveContainment check. if (!hint && (mWillChange != aNewData.mWillChange || mOverflowAnchor != aNewData.mOverflowAnchor || mContentVisibility != aNewData.mContentVisibility || mContainerType != aNewData.mContainerType || mContain != aNewData.mContain || mContainerName != aNewData.mContainerName)) { hint |= nsChangeHint_NeutralChange; } return hint; } nsChangeHint nsStyleDisplay::CalcTransformPropertyDifference( const nsStyleDisplay& aNewData) const { nsChangeHint transformHint = nsChangeHint(0); transformHint |= CompareTransformValues(mTransform, aNewData.mTransform); transformHint |= CompareTransformValues(mRotate, aNewData.mRotate); transformHint |= CompareTransformValues(mTranslate, aNewData.mTranslate); transformHint |= CompareTransformValues(mScale, aNewData.mScale); transformHint |= CompareMotionValues(*this, aNewData); if (mTransformOrigin != aNewData.mTransformOrigin) { transformHint |= nsChangeHint_UpdateTransformLayer | nsChangeHint_UpdatePostTransformOverflow; } if (mPerspectiveOrigin != aNewData.mPerspectiveOrigin || mTransformStyle != aNewData.mTransformStyle || mTransformBox != aNewData.mTransformBox) { transformHint |= nsChangeHint_UpdateOverflow | nsChangeHint_RepaintFrame; } if (mBackfaceVisibility != aNewData.mBackfaceVisibility) { transformHint |= nsChangeHint_RepaintFrame; } return transformHint; } // -------------------- // nsStyleVisibility // nsStyleVisibility::nsStyleVisibility(const Document& aDocument) : mDirection(aDocument.GetBidiOptions() == IBMBIDI_TEXTDIRECTION_RTL ? StyleDirection::Rtl : StyleDirection::Ltr), mVisible(StyleVisibility::Visible), mImageRendering(StyleImageRendering::Auto), mWritingMode(StyleWritingModeProperty::HorizontalTb), mTextOrientation(StyleTextOrientation::Mixed), mMozBoxCollapse(StyleMozBoxCollapse::Flex), mPrintColorAdjust(StylePrintColorAdjust::Economy), mImageOrientation(StyleImageOrientation::FromImage) { MOZ_COUNT_CTOR(nsStyleVisibility); } nsStyleVisibility::nsStyleVisibility(const nsStyleVisibility& aSource) : mDirection(aSource.mDirection), mVisible(aSource.mVisible), mImageRendering(aSource.mImageRendering), mWritingMode(aSource.mWritingMode), mTextOrientation(aSource.mTextOrientation), mMozBoxCollapse(aSource.mMozBoxCollapse), mPrintColorAdjust(aSource.mPrintColorAdjust), mImageOrientation(aSource.mImageOrientation) { MOZ_COUNT_CTOR(nsStyleVisibility); } nsChangeHint nsStyleVisibility::CalcDifference( const nsStyleVisibility& aNewData) const { nsChangeHint hint = nsChangeHint(0); if (mDirection != aNewData.mDirection || mWritingMode != aNewData.mWritingMode) { // It's important that a change in mWritingMode results in frame // reconstruction, because it may affect intrinsic size (see // nsSubDocumentFrame::GetIntrinsicISize/BSize). // Also, the used writing-mode value is now a field on nsIFrame and some // classes (e.g. table rows/cells) copy their value from an ancestor. return nsChangeHint_ReconstructFrame; } if (mImageOrientation != aNewData.mImageOrientation) { hint |= nsChangeHint_AllReflowHints | nsChangeHint_RepaintFrame; } if (mVisible != aNewData.mVisible) { if (mVisible == StyleVisibility::Visible || aNewData.mVisible == StyleVisibility::Visible) { hint |= nsChangeHint_VisibilityChange; } if (mVisible == StyleVisibility::Collapse || aNewData.mVisible == StyleVisibility::Collapse) { hint |= NS_STYLE_HINT_REFLOW; } else { hint |= NS_STYLE_HINT_VISUAL; } } if (mTextOrientation != aNewData.mTextOrientation || mMozBoxCollapse != aNewData.mMozBoxCollapse) { hint |= NS_STYLE_HINT_REFLOW; } if (mImageRendering != aNewData.mImageRendering) { hint |= nsChangeHint_RepaintFrame; } if (mPrintColorAdjust != aNewData.mPrintColorAdjust) { // color-adjust only affects media where dynamic changes can't happen. hint |= nsChangeHint_NeutralChange; } return hint; } StyleImageOrientation nsStyleVisibility::UsedImageOrientation( imgIRequest* aRequest, StyleImageOrientation aOrientation) { if (aOrientation == StyleImageOrientation::FromImage || !aRequest) { return aOrientation; } nsCOMPtr triggeringPrincipal = aRequest->GetTriggeringPrincipal(); // If the request was for a blob, the request may not have a triggering // principal and we should use the input orientation. if (!triggeringPrincipal) { return aOrientation; } nsCOMPtr uri = aRequest->GetURI(); // If the image request is a data uri, then treat the request as a // same origin request. bool isSameOrigin = uri->SchemeIs("data") || triggeringPrincipal->IsSameOrigin(uri); // If the image request is a cross-origin request that does not use CORS, // do not enforce the image orientation found in the style. Use the image // orientation found in the exif data. if (!isSameOrigin && !nsLayoutUtils::ImageRequestUsesCORS(aRequest)) { return StyleImageOrientation::FromImage; } return aOrientation; } //----------------------- // nsStyleContent // nsStyleContent::nsStyleContent() : mContent(StyleContent::Normal()) { MOZ_COUNT_CTOR(nsStyleContent); } nsStyleContent::nsStyleContent(const nsStyleContent& aSource) : mContent(aSource.mContent), mCounterIncrement(aSource.mCounterIncrement), mCounterReset(aSource.mCounterReset), mCounterSet(aSource.mCounterSet) { MOZ_COUNT_CTOR(nsStyleContent); } nsChangeHint nsStyleContent::CalcDifference( const nsStyleContent& aNewData) const { // Unfortunately we need to reframe even if the content lengths are the same; // a simple reflow will not pick up different text or different image URLs, // since we set all that up in the CSSFrameConstructor if (mContent != aNewData.mContent || mCounterIncrement != aNewData.mCounterIncrement || mCounterReset != aNewData.mCounterReset || mCounterSet != aNewData.mCounterSet) { return nsChangeHint_ReconstructFrame; } return nsChangeHint(0); } void nsStyleContent::TriggerImageLoads(Document& aDoc, const nsStyleContent* aOld) { if (!mContent.IsItems()) { return; } Span oldItems; if (aOld && aOld->mContent.IsItems()) { oldItems = aOld->mContent.AsItems().AsSpan(); } auto items = mContent.AsItems().AsSpan(); for (size_t i = 0; i < items.Length(); ++i) { const auto& item = items[i]; if (!item.IsImage()) { continue; } const auto& image = item.AsImage(); const auto* oldImage = i < oldItems.Length() && oldItems[i].IsImage() ? &oldItems[i].AsImage() : nullptr; const_cast(image).ResolveImage(aDoc, oldImage); } } // -------------------- // nsStyleTextReset // nsStyleTextReset::nsStyleTextReset() : mTextDecorationLine(StyleTextDecorationLine::NONE), mTextDecorationStyle(StyleTextDecorationStyle::Solid), mUnicodeBidi(StyleUnicodeBidi::Normal), mInitialLetterSink(0), mInitialLetterSize(0.0f), mTextDecorationColor(StyleColor::CurrentColor()), mTextDecorationThickness(StyleTextDecorationLength::Auto()) { MOZ_COUNT_CTOR(nsStyleTextReset); } nsStyleTextReset::nsStyleTextReset(const nsStyleTextReset& aSource) : mTextOverflow(aSource.mTextOverflow), mTextDecorationLine(aSource.mTextDecorationLine), mTextDecorationStyle(aSource.mTextDecorationStyle), mUnicodeBidi(aSource.mUnicodeBidi), mInitialLetterSink(aSource.mInitialLetterSink), mInitialLetterSize(aSource.mInitialLetterSize), mTextDecorationColor(aSource.mTextDecorationColor), mTextDecorationThickness(aSource.mTextDecorationThickness) { MOZ_COUNT_CTOR(nsStyleTextReset); } nsChangeHint nsStyleTextReset::CalcDifference( const nsStyleTextReset& aNewData) const { if (mUnicodeBidi != aNewData.mUnicodeBidi || mInitialLetterSink != aNewData.mInitialLetterSink || mInitialLetterSize != aNewData.mInitialLetterSize) { return NS_STYLE_HINT_REFLOW; } if (mTextDecorationLine != aNewData.mTextDecorationLine || mTextDecorationStyle != aNewData.mTextDecorationStyle || mTextDecorationThickness != aNewData.mTextDecorationThickness) { // Changes to our text-decoration line can impact our overflow area & // also our descendants' overflow areas (particularly for text-frame // descendants). So, we update those areas & trigger a repaint. return nsChangeHint_RepaintFrame | nsChangeHint_UpdateSubtreeOverflow | nsChangeHint_SchedulePaint; } // Repaint for decoration color changes if (mTextDecorationColor != aNewData.mTextDecorationColor) { return nsChangeHint_RepaintFrame; } if (mTextOverflow != aNewData.mTextOverflow) { return nsChangeHint_RepaintFrame; } return nsChangeHint(0); } // -------------------- // nsStyleText // static StyleAbsoluteColor DefaultColor(const Document& aDocument) { return StyleAbsoluteColor::FromColor( PreferenceSheet::PrefsFor(aDocument) .ColorsFor(aDocument.DefaultColorScheme()) .mDefault); } nsStyleText::nsStyleText(const Document& aDocument) : mColor(DefaultColor(aDocument)), mForcedColorAdjust(StyleForcedColorAdjust::Auto), mTextTransform(StyleTextTransform::None()), mTextAlign(StyleTextAlign::Start), mTextAlignLast(StyleTextAlignLast::Auto), mTextJustify(StyleTextJustify::Auto), mHyphens(StyleHyphens::Manual), mRubyAlign(StyleRubyAlign::SpaceAround), mRubyPosition(StyleRubyPosition::AlternateOver), mTextSizeAdjust(StyleTextSizeAdjust::Auto), mTextCombineUpright(StyleTextCombineUpright::None), mMozControlCharacterVisibility( StaticPrefs::layout_css_control_characters_visible() ? StyleMozControlCharacterVisibility::Visible : StyleMozControlCharacterVisibility::Hidden), mTextRendering(StyleTextRendering::Auto), mTextEmphasisColor(StyleColor::CurrentColor()), mWebkitTextFillColor(StyleColor::CurrentColor()), mWebkitTextStrokeColor(StyleColor::CurrentColor()), mTabSize(StyleNonNegativeLengthOrNumber::Number(8.f)), mWordSpacing(LengthPercentage::Zero()), mLetterSpacing({0.}), mTextUnderlineOffset(LengthPercentageOrAuto::Auto()), mTextDecorationSkipInk(StyleTextDecorationSkipInk::Auto), mTextUnderlinePosition(StyleTextUnderlinePosition::AUTO), mWebkitTextStrokeWidth(0), mTextEmphasisStyle(StyleTextEmphasisStyle::None()) { MOZ_COUNT_CTOR(nsStyleText); RefPtr language = aDocument.GetContentLanguageAsAtomForStyle(); mTextEmphasisPosition = language && nsStyleUtil::MatchesLanguagePrefix(language, u"zh") ? StyleTextEmphasisPosition::UNDER : StyleTextEmphasisPosition::OVER; } nsStyleText::nsStyleText(const nsStyleText& aSource) : mColor(aSource.mColor), mForcedColorAdjust(aSource.mForcedColorAdjust), mTextTransform(aSource.mTextTransform), mTextAlign(aSource.mTextAlign), mTextAlignLast(aSource.mTextAlignLast), mTextJustify(aSource.mTextJustify), mWhiteSpaceCollapse(aSource.mWhiteSpaceCollapse), mTextWrapMode(aSource.mTextWrapMode), mLineBreak(aSource.mLineBreak), mWordBreak(aSource.mWordBreak), mOverflowWrap(aSource.mOverflowWrap), mHyphens(aSource.mHyphens), mRubyAlign(aSource.mRubyAlign), mRubyPosition(aSource.mRubyPosition), mTextSizeAdjust(aSource.mTextSizeAdjust), mTextCombineUpright(aSource.mTextCombineUpright), mMozControlCharacterVisibility(aSource.mMozControlCharacterVisibility), mTextEmphasisPosition(aSource.mTextEmphasisPosition), mTextRendering(aSource.mTextRendering), mTextEmphasisColor(aSource.mTextEmphasisColor), mWebkitTextFillColor(aSource.mWebkitTextFillColor), mWebkitTextStrokeColor(aSource.mWebkitTextStrokeColor), mTabSize(aSource.mTabSize), mWordSpacing(aSource.mWordSpacing), mLetterSpacing(aSource.mLetterSpacing), mTextIndent(aSource.mTextIndent), mTextUnderlineOffset(aSource.mTextUnderlineOffset), mTextDecorationSkipInk(aSource.mTextDecorationSkipInk), mTextUnderlinePosition(aSource.mTextUnderlinePosition), mWebkitTextStrokeWidth(aSource.mWebkitTextStrokeWidth), mTextShadow(aSource.mTextShadow), mTextEmphasisStyle(aSource.mTextEmphasisStyle), mHyphenateCharacter(aSource.mHyphenateCharacter), mWebkitTextSecurity(aSource.mWebkitTextSecurity), mTextWrapStyle(aSource.mTextWrapStyle) { MOZ_COUNT_CTOR(nsStyleText); } nsChangeHint nsStyleText::CalcDifference(const nsStyleText& aNewData) const { if (WhiteSpaceOrNewlineIsSignificant() != aNewData.WhiteSpaceOrNewlineIsSignificant()) { // This may require construction of suppressed text frames return nsChangeHint_ReconstructFrame; } if (mTextCombineUpright != aNewData.mTextCombineUpright || mMozControlCharacterVisibility != aNewData.mMozControlCharacterVisibility) { return nsChangeHint_ReconstructFrame; } if ((mTextAlign != aNewData.mTextAlign) || (mTextAlignLast != aNewData.mTextAlignLast) || (mTextTransform != aNewData.mTextTransform) || (mWhiteSpaceCollapse != aNewData.mWhiteSpaceCollapse) || (mTextWrapMode != aNewData.mTextWrapMode) || (mLineBreak != aNewData.mLineBreak) || (mWordBreak != aNewData.mWordBreak) || (mOverflowWrap != aNewData.mOverflowWrap) || (mHyphens != aNewData.mHyphens) || (mRubyAlign != aNewData.mRubyAlign) || (mRubyPosition != aNewData.mRubyPosition) || (mTextSizeAdjust != aNewData.mTextSizeAdjust) || (mLetterSpacing != aNewData.mLetterSpacing) || (mTextIndent != aNewData.mTextIndent) || (mTextJustify != aNewData.mTextJustify) || (mWordSpacing != aNewData.mWordSpacing) || (mTabSize != aNewData.mTabSize) || (mHyphenateCharacter != aNewData.mHyphenateCharacter) || (mWebkitTextSecurity != aNewData.mWebkitTextSecurity) || (mTextWrapStyle != aNewData.mTextWrapStyle)) { return NS_STYLE_HINT_REFLOW; } if (HasEffectiveTextEmphasis() != aNewData.HasEffectiveTextEmphasis() || (HasEffectiveTextEmphasis() && mTextEmphasisPosition != aNewData.mTextEmphasisPosition)) { // Text emphasis position change could affect line height calculation. return nsChangeHint_AllReflowHints | nsChangeHint_RepaintFrame; } nsChangeHint hint = nsChangeHint(0); // text-rendering changes require a reflow since they change SVG // frames' rects. if (mTextRendering != aNewData.mTextRendering) { hint |= nsChangeHint_NeedReflow | nsChangeHint_RepaintFrame; } if (mTextShadow != aNewData.mTextShadow || mTextEmphasisStyle != aNewData.mTextEmphasisStyle || mWebkitTextStrokeWidth != aNewData.mWebkitTextStrokeWidth || mTextUnderlineOffset != aNewData.mTextUnderlineOffset || mTextDecorationSkipInk != aNewData.mTextDecorationSkipInk || mTextUnderlinePosition != aNewData.mTextUnderlinePosition) { hint |= nsChangeHint_UpdateSubtreeOverflow | nsChangeHint_SchedulePaint | nsChangeHint_RepaintFrame; // We don't add any other hints below. return hint; } if (mColor != aNewData.mColor) { hint |= nsChangeHint_RepaintFrame; } if (mTextEmphasisColor != aNewData.mTextEmphasisColor || mWebkitTextFillColor != aNewData.mWebkitTextFillColor || mWebkitTextStrokeColor != aNewData.mWebkitTextStrokeColor) { hint |= nsChangeHint_SchedulePaint | nsChangeHint_RepaintFrame; } if (hint) { return hint; } if (mTextEmphasisPosition != aNewData.mTextEmphasisPosition || mForcedColorAdjust != aNewData.mForcedColorAdjust) { return nsChangeHint_NeutralChange; } return nsChangeHint(0); } LogicalSide nsStyleText::TextEmphasisSide(WritingMode aWM) const { bool noLeftBit = !(mTextEmphasisPosition & StyleTextEmphasisPosition::LEFT); DebugOnly noRightBit = !(mTextEmphasisPosition & StyleTextEmphasisPosition::RIGHT); bool noOverBit = !(mTextEmphasisPosition & StyleTextEmphasisPosition::OVER); DebugOnly noUnderBit = !(mTextEmphasisPosition & StyleTextEmphasisPosition::UNDER); MOZ_ASSERT((noOverBit != noUnderBit) && ((noLeftBit != noRightBit) || noRightBit)); mozilla::Side side = aWM.IsVertical() ? (noLeftBit ? eSideRight : eSideLeft) : (noOverBit ? eSideBottom : eSideTop); LogicalSide result = aWM.LogicalSideForPhysicalSide(side); MOZ_ASSERT(IsBlock(result)); return result; } //----------------------- // nsStyleUI // nsStyleUI::nsStyleUI() : mInert(StyleInert::None), mMozTheme(StyleMozTheme::Auto), mUserInput(StyleUserInput::Auto), mUserModify(StyleUserModify::ReadOnly), mUserFocus(StyleUserFocus::Normal), mPointerEvents(StylePointerEvents::Auto), mCursor{{}, StyleCursorKind::Auto}, mAccentColor(StyleColorOrAuto::Auto()), mCaretColor(StyleColorOrAuto::Auto()), mScrollbarColor(StyleScrollbarColor::Auto()), mColorScheme(StyleColorScheme{{}, {}}) { MOZ_COUNT_CTOR(nsStyleUI); } nsStyleUI::nsStyleUI(const nsStyleUI& aSource) : mInert(aSource.mInert), mMozTheme(aSource.mMozTheme), mUserInput(aSource.mUserInput), mUserModify(aSource.mUserModify), mUserFocus(aSource.mUserFocus), mPointerEvents(aSource.mPointerEvents), mCursor(aSource.mCursor), mAccentColor(aSource.mAccentColor), mCaretColor(aSource.mCaretColor), mScrollbarColor(aSource.mScrollbarColor), mColorScheme(aSource.mColorScheme) { MOZ_COUNT_CTOR(nsStyleUI); } void nsStyleUI::TriggerImageLoads(Document& aDocument, const nsStyleUI* aOldStyle) { MOZ_ASSERT(NS_IsMainThread()); auto cursorImages = mCursor.images.AsSpan(); auto oldCursorImages = aOldStyle ? aOldStyle->mCursor.images.AsSpan() : Span(); for (size_t i = 0; i < cursorImages.Length(); ++i) { const auto& cursor = cursorImages[i]; const auto* oldCursorImage = oldCursorImages.Length() > i ? &oldCursorImages[i].image : nullptr; const_cast(cursor).image.ResolveImage(aDocument, oldCursorImage); } } nsChangeHint nsStyleUI::CalcDifference(const nsStyleUI& aNewData) const { // SVGGeometryFrame's mRect depends on stroke _and_ on the value of // pointer-events. See SVGGeometryFrame::ReflowSVG's use of GetHitTestFlags. // (Only a reflow, no visual change.) // // pointer-events changes can change event regions overrides on layers and // so needs a repaint. const auto kPointerEventsHint = nsChangeHint_NeedReflow | nsChangeHint_SchedulePaint; nsChangeHint hint = nsChangeHint(0); if (mCursor != aNewData.mCursor) { hint |= nsChangeHint_UpdateCursor; } if (mPointerEvents != aNewData.mPointerEvents) { hint |= kPointerEventsHint; } if (mUserModify != aNewData.mUserModify) { hint |= NS_STYLE_HINT_VISUAL; } if (mInert != aNewData.mInert) { // inert affects pointer-events, user-modify, user-select, user-focus and // -moz-user-input, do the union of all them (minus // nsChangeHint_NeutralChange which isn't needed if there's any other hint). hint |= NS_STYLE_HINT_VISUAL | kPointerEventsHint; } if (mUserFocus != aNewData.mUserFocus || mUserInput != aNewData.mUserInput) { hint |= nsChangeHint_NeutralChange; } if (mCaretColor != aNewData.mCaretColor || mAccentColor != aNewData.mAccentColor || mScrollbarColor != aNewData.mScrollbarColor || mMozTheme != aNewData.mMozTheme || mColorScheme != aNewData.mColorScheme) { hint |= nsChangeHint_RepaintFrame; } return hint; } //----------------------- // nsStyleUIReset // nsStyleUIReset::nsStyleUIReset() : mUserSelect(StyleUserSelect::Auto), mScrollbarWidth(StyleScrollbarWidth::Auto), mMozForceBrokenImageIcon(false), mMozSubtreeHiddenOnlyVisually(false), mIMEMode(StyleImeMode::Auto), mWindowDragging(StyleWindowDragging::Default), mWindowShadow(StyleWindowShadow::Auto), mWindowOpacity(1.0), mMozWindowInputRegionMargin(StyleLength::Zero()), mWindowTransformOrigin{LengthPercentage::FromPercentage(0.5), LengthPercentage::FromPercentage(0.5), {0.}}, mTransitions( nsStyleAutoArray::WITH_SINGLE_INITIAL_ELEMENT), mTransitionTimingFunctionCount(1), mTransitionDurationCount(1), mTransitionDelayCount(1), mTransitionPropertyCount(1), mTransitionBehaviorCount(1), mAnimations( nsStyleAutoArray::WITH_SINGLE_INITIAL_ELEMENT), mAnimationTimingFunctionCount(1), mAnimationDurationCount(1), mAnimationDelayCount(1), mAnimationNameCount(1), mAnimationDirectionCount(1), mAnimationFillModeCount(1), mAnimationPlayStateCount(1), mAnimationIterationCountCount(1), mAnimationCompositionCount(1), mAnimationTimelineCount(1), mScrollTimelines( nsStyleAutoArray::WITH_SINGLE_INITIAL_ELEMENT), mScrollTimelineNameCount(1), mScrollTimelineAxisCount(1), mViewTimelines( nsStyleAutoArray::WITH_SINGLE_INITIAL_ELEMENT), mViewTimelineNameCount(1), mViewTimelineAxisCount(1), mViewTimelineInsetCount(1) { MOZ_COUNT_CTOR(nsStyleUIReset); } nsStyleUIReset::nsStyleUIReset(const nsStyleUIReset& aSource) : mUserSelect(aSource.mUserSelect), mScrollbarWidth(aSource.mScrollbarWidth), mMozForceBrokenImageIcon(aSource.mMozForceBrokenImageIcon), mMozSubtreeHiddenOnlyVisually(aSource.mMozSubtreeHiddenOnlyVisually), mIMEMode(aSource.mIMEMode), mWindowDragging(aSource.mWindowDragging), mWindowShadow(aSource.mWindowShadow), mWindowOpacity(aSource.mWindowOpacity), mMozWindowInputRegionMargin(aSource.mMozWindowInputRegionMargin), mMozWindowTransform(aSource.mMozWindowTransform), mWindowTransformOrigin(aSource.mWindowTransformOrigin), mTransitions(aSource.mTransitions.Clone()), mTransitionTimingFunctionCount(aSource.mTransitionTimingFunctionCount), mTransitionDurationCount(aSource.mTransitionDurationCount), mTransitionDelayCount(aSource.mTransitionDelayCount), mTransitionPropertyCount(aSource.mTransitionPropertyCount), mTransitionBehaviorCount(aSource.mTransitionBehaviorCount), mAnimations(aSource.mAnimations.Clone()), mAnimationTimingFunctionCount(aSource.mAnimationTimingFunctionCount), mAnimationDurationCount(aSource.mAnimationDurationCount), mAnimationDelayCount(aSource.mAnimationDelayCount), mAnimationNameCount(aSource.mAnimationNameCount), mAnimationDirectionCount(aSource.mAnimationDirectionCount), mAnimationFillModeCount(aSource.mAnimationFillModeCount), mAnimationPlayStateCount(aSource.mAnimationPlayStateCount), mAnimationIterationCountCount(aSource.mAnimationIterationCountCount), mAnimationCompositionCount(aSource.mAnimationCompositionCount), mAnimationTimelineCount(aSource.mAnimationTimelineCount), mScrollTimelines(aSource.mScrollTimelines.Clone()), mScrollTimelineNameCount(aSource.mScrollTimelineNameCount), mScrollTimelineAxisCount(aSource.mScrollTimelineAxisCount), mViewTimelines(aSource.mViewTimelines.Clone()), mViewTimelineNameCount(aSource.mViewTimelineNameCount), mViewTimelineAxisCount(aSource.mViewTimelineAxisCount), mViewTimelineInsetCount(aSource.mViewTimelineInsetCount) { MOZ_COUNT_CTOR(nsStyleUIReset); } nsChangeHint nsStyleUIReset::CalcDifference( const nsStyleUIReset& aNewData) const { nsChangeHint hint = nsChangeHint(0); if (mMozForceBrokenImageIcon != aNewData.mMozForceBrokenImageIcon) { hint |= nsChangeHint_ReconstructFrame; } if (mMozSubtreeHiddenOnlyVisually != aNewData.mMozSubtreeHiddenOnlyVisually) { hint |= nsChangeHint_RepaintFrame; } if (mScrollbarWidth != aNewData.mScrollbarWidth) { // For scrollbar-width change, we need some special handling similar // to overflow properties. Specifically, we may need to reconstruct // the scrollbar or force reflow of the viewport scrollbar. hint |= nsChangeHint_ScrollbarChange; } if (mWindowShadow != aNewData.mWindowShadow) { // We really need just an nsChangeHint_SyncFrameView, except // on an ancestor of the frame, so we get that by doing a // reflow. hint |= NS_STYLE_HINT_REFLOW; } if (mUserSelect != aNewData.mUserSelect) { hint |= NS_STYLE_HINT_VISUAL; } if (mWindowDragging != aNewData.mWindowDragging) { hint |= nsChangeHint_SchedulePaint; } if (!hint && (mTransitions != aNewData.mTransitions || mTransitionTimingFunctionCount != aNewData.mTransitionTimingFunctionCount || mTransitionDurationCount != aNewData.mTransitionDurationCount || mTransitionDelayCount != aNewData.mTransitionDelayCount || mTransitionPropertyCount != aNewData.mTransitionPropertyCount || mTransitionBehaviorCount != aNewData.mTransitionBehaviorCount || mAnimations != aNewData.mAnimations || mAnimationTimingFunctionCount != aNewData.mAnimationTimingFunctionCount || mAnimationDurationCount != aNewData.mAnimationDurationCount || mAnimationDelayCount != aNewData.mAnimationDelayCount || mAnimationNameCount != aNewData.mAnimationNameCount || mAnimationDirectionCount != aNewData.mAnimationDirectionCount || mAnimationFillModeCount != aNewData.mAnimationFillModeCount || mAnimationPlayStateCount != aNewData.mAnimationPlayStateCount || mAnimationIterationCountCount != aNewData.mAnimationIterationCountCount || mAnimationCompositionCount != aNewData.mAnimationCompositionCount || mAnimationTimelineCount != aNewData.mAnimationTimelineCount || mIMEMode != aNewData.mIMEMode || mWindowOpacity != aNewData.mWindowOpacity || mMozWindowInputRegionMargin != aNewData.mMozWindowInputRegionMargin || mMozWindowTransform != aNewData.mMozWindowTransform || mScrollTimelines != aNewData.mScrollTimelines || mScrollTimelineNameCount != aNewData.mScrollTimelineNameCount || mScrollTimelineAxisCount != aNewData.mScrollTimelineAxisCount || mViewTimelines != aNewData.mViewTimelines || mViewTimelineNameCount != aNewData.mViewTimelineNameCount || mViewTimelineAxisCount != aNewData.mViewTimelineAxisCount || mViewTimelineInsetCount != aNewData.mViewTimelineInsetCount)) { hint |= nsChangeHint_NeutralChange; } return hint; } StyleScrollbarWidth nsStyleUIReset::ScrollbarWidth() const { if (MOZ_UNLIKELY(StaticPrefs::layout_css_scrollbar_width_thin_disabled())) { if (mScrollbarWidth == StyleScrollbarWidth::Thin) { return StyleScrollbarWidth::Auto; } } return mScrollbarWidth; } //----------------------- // nsStyleEffects // nsStyleEffects::nsStyleEffects() : mClip(StyleClipRectOrAuto::Auto()), mOpacity(1.0f), mMixBlendMode(StyleBlend::Normal) { MOZ_COUNT_CTOR(nsStyleEffects); } nsStyleEffects::nsStyleEffects(const nsStyleEffects& aSource) : mFilters(aSource.mFilters), mBoxShadow(aSource.mBoxShadow), mBackdropFilters(aSource.mBackdropFilters), mClip(aSource.mClip), mOpacity(aSource.mOpacity), mMixBlendMode(aSource.mMixBlendMode) { MOZ_COUNT_CTOR(nsStyleEffects); } static bool AnyAutonessChanged(const StyleClipRectOrAuto& aOld, const StyleClipRectOrAuto& aNew) { if (aOld.IsAuto() != aNew.IsAuto()) { return true; } if (aOld.IsAuto()) { return false; } const auto& oldRect = aOld.AsRect(); const auto& newRect = aNew.AsRect(); return oldRect.top.IsAuto() != newRect.top.IsAuto() || oldRect.right.IsAuto() != newRect.right.IsAuto() || oldRect.bottom.IsAuto() != newRect.bottom.IsAuto() || oldRect.left.IsAuto() != newRect.left.IsAuto(); } nsChangeHint nsStyleEffects::CalcDifference( const nsStyleEffects& aNewData) const { nsChangeHint hint = nsChangeHint(0); if (mBoxShadow != aNewData.mBoxShadow) { // Update overflow regions & trigger DLBI to be sure it's noticed. // Also request a repaint, since it's possible that only the color // of the shadow is changing (and UpdateOverflow/SchedulePaint won't // repaint for that, since they won't know what needs invalidating.) hint |= nsChangeHint_UpdateOverflow | nsChangeHint_SchedulePaint | nsChangeHint_RepaintFrame; } if (AnyAutonessChanged(mClip, aNewData.mClip)) { hint |= nsChangeHint_AllReflowHints | nsChangeHint_RepaintFrame; } else if (mClip != aNewData.mClip) { // If the clip has changed, we just need to update overflow areas. DLBI // will handle the invalidation. hint |= nsChangeHint_UpdateOverflow | nsChangeHint_SchedulePaint; } if (mOpacity != aNewData.mOpacity) { hint |= nsChangeHint_UpdateOpacityLayer; // If we're going from the optimized >=0.99 opacity value to 1.0 or back, // then repaint the frame because DLBI will not catch the invalidation. // Otherwise, just update the opacity layer. if ((mOpacity >= 0.99f && mOpacity < 1.0f && aNewData.mOpacity == 1.0f) || (aNewData.mOpacity >= 0.99f && aNewData.mOpacity < 1.0f && mOpacity == 1.0f)) { hint |= nsChangeHint_RepaintFrame; } else { if ((mOpacity == 1.0f) != (aNewData.mOpacity == 1.0f)) { hint |= nsChangeHint_UpdateUsesOpacity; } } } if (HasFilters() != aNewData.HasFilters()) { // A change from/to being a containing block for position:fixed. hint |= nsChangeHint_UpdateContainingBlock; } if (mFilters != aNewData.mFilters) { hint |= nsChangeHint_UpdateEffects | nsChangeHint_RepaintFrame | nsChangeHint_UpdateOverflow; } if (mMixBlendMode != aNewData.mMixBlendMode) { hint |= nsChangeHint_RepaintFrame; } if (HasBackdropFilters() != aNewData.HasBackdropFilters()) { // A change from/to being a containing block for position:fixed. hint |= nsChangeHint_UpdateContainingBlock; } if (mBackdropFilters != aNewData.mBackdropFilters) { hint |= nsChangeHint_UpdateEffects | nsChangeHint_RepaintFrame; } return hint; } static bool TransformOperationHasPercent(const StyleTransformOperation& aOp) { switch (aOp.tag) { case StyleTransformOperation::Tag::TranslateX: return aOp.AsTranslateX().HasPercent(); case StyleTransformOperation::Tag::TranslateY: return aOp.AsTranslateY().HasPercent(); case StyleTransformOperation::Tag::TranslateZ: return false; case StyleTransformOperation::Tag::Translate3D: { const auto& translate = aOp.AsTranslate3D(); // NOTE(emilio): z translation is a ``, so can't have percentages. return translate._0.HasPercent() || translate._1.HasPercent(); } case StyleTransformOperation::Tag::Translate: { const auto& translate = aOp.AsTranslate(); return translate._0.HasPercent() || translate._1.HasPercent(); } case StyleTransformOperation::Tag::AccumulateMatrix: { const auto& accum = aOp.AsAccumulateMatrix(); return accum.from_list.HasPercent() || accum.to_list.HasPercent(); } case StyleTransformOperation::Tag::InterpolateMatrix: { const auto& interpolate = aOp.AsInterpolateMatrix(); return interpolate.from_list.HasPercent() || interpolate.to_list.HasPercent(); } case StyleTransformOperation::Tag::Perspective: case StyleTransformOperation::Tag::RotateX: case StyleTransformOperation::Tag::RotateY: case StyleTransformOperation::Tag::RotateZ: case StyleTransformOperation::Tag::Rotate: case StyleTransformOperation::Tag::Rotate3D: case StyleTransformOperation::Tag::SkewX: case StyleTransformOperation::Tag::SkewY: case StyleTransformOperation::Tag::Skew: case StyleTransformOperation::Tag::ScaleX: case StyleTransformOperation::Tag::ScaleY: case StyleTransformOperation::Tag::ScaleZ: case StyleTransformOperation::Tag::Scale: case StyleTransformOperation::Tag::Scale3D: case StyleTransformOperation::Tag::Matrix: case StyleTransformOperation::Tag::Matrix3D: return false; default: MOZ_ASSERT_UNREACHABLE("Unknown transform operation"); return false; } } template <> bool StyleTransform::HasPercent() const { for (const auto& op : Operations()) { if (TransformOperationHasPercent(op)) { return true; } } return false; } template <> void StyleCalcNode::ScaleLengthsBy(float aScale) { auto ScaleNode = [aScale](const StyleCalcNode& aNode) { // This const_cast could be removed by generating more mut-casts, if // needed. const_cast(aNode).ScaleLengthsBy(aScale); }; switch (tag) { case Tag::Leaf: { const auto& leaf = AsLeaf(); if (leaf.IsLength()) { // This const_cast could be removed by generating more mut-casts, if // needed. const_cast(leaf.AsLength()).ScaleBy(aScale); } break; } case Tag::Clamp: { const auto& clamp = AsClamp(); ScaleNode(*clamp.min); ScaleNode(*clamp.center); ScaleNode(*clamp.max); break; } case Tag::Round: { const auto& round = AsRound(); ScaleNode(*round.value); ScaleNode(*round.step); break; } case Tag::ModRem: { const auto& modRem = AsModRem(); ScaleNode(*modRem.dividend); ScaleNode(*modRem.divisor); break; } case Tag::MinMax: { for (const auto& child : AsMinMax()._0.AsSpan()) { ScaleNode(child); } break; } case Tag::Sum: { for (const auto& child : AsSum().AsSpan()) { ScaleNode(child); } break; } case Tag::Product: { for (const auto& child : AsProduct().AsSpan()) { ScaleNode(child); } break; } case Tag::Negate: { const auto& negate = AsNegate(); ScaleNode(*negate); break; } case Tag::Invert: { const auto& invert = AsInvert(); ScaleNode(*invert); break; } case Tag::Hypot: { for (const auto& child : AsHypot().AsSpan()) { ScaleNode(child); } break; } case Tag::Abs: { const auto& abs = AsAbs(); ScaleNode(*abs); break; } case Tag::Sign: { const auto& sign = AsSign(); ScaleNode(*sign); break; } } } bool nsStyleDisplay::PrecludesSizeContainmentOrContentVisibilityWithFrame( const nsIFrame& aFrame) const { // The spec says that in the case of SVG, the contain property only applies // to