/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "DisplayPortUtils.h" #include "FrameMetrics.h" #include "Layers.h" #include "mozilla/gfx/gfxVars.h" #include "mozilla/gfx/Point.h" #include "mozilla/layers/APZCCallbackHelper.h" #include "mozilla/layers/APZPublicUtils.h" #include "mozilla/layers/CompositorBridgeChild.h" #include "mozilla/layers/PAPZ.h" #include "mozilla/layers/RepaintRequest.h" #include "mozilla/StaticPrefs_layers.h" #include "nsDeckFrame.h" #include "nsIScrollableFrame.h" #include "nsLayoutUtils.h" #include "nsPlaceholderFrame.h" #include "nsSubDocumentFrame.h" #include "RetainedDisplayListBuilder.h" namespace mozilla { using gfx::gfxVars; using gfx::IntSize; using layers::APZCCallbackHelper; using layers::FrameMetrics; using layers::LayerManager; using layers::RepaintRequest; using layers::ScrollableLayerGuid; typedef ScrollableLayerGuid::ViewID ViewID; static LazyLogModule sDisplayportLog("apz.displayport"); // Return the maximum displayport size, based on the LayerManager's maximum // supported texture size. The result is in app units. static nscoord GetMaxDisplayPortSize(nsIContent* aContent, nsPresContext* aFallbackPrescontext) { MOZ_ASSERT(!StaticPrefs::layers_enable_tiles_AtStartup(), "Do not clamp displayports if tiling is enabled"); // Pick a safe maximum displayport size for sanity purposes. This is the // lowest maximum texture size on tileless-platforms (Windows, D3D10). // If the gfx.max-texture-size pref is set, further restrict the displayport // size to fit within that, because the compositor won't upload stuff larger // than this size. nscoord safeMaximum = aFallbackPrescontext ? aFallbackPrescontext->DevPixelsToAppUnits( std::min(8192, gfxPlatform::MaxTextureSize())) : nscoord_MAX; nsIFrame* frame = aContent->GetPrimaryFrame(); if (!frame) { return safeMaximum; } frame = nsLayoutUtils::GetDisplayRootFrame(frame); nsIWidget* widget = frame->GetNearestWidget(); if (!widget) { return safeMaximum; } LayerManager* lm = widget->GetLayerManager(); if (!lm) { return safeMaximum; } nsPresContext* presContext = frame->PresContext(); int32_t maxSizeInDevPixels = lm->GetMaxTextureSize(); if (maxSizeInDevPixels < 0 || maxSizeInDevPixels == INT_MAX) { return safeMaximum; } maxSizeInDevPixels = std::min(maxSizeInDevPixels, gfxPlatform::MaxTextureSize()); return presContext->DevPixelsToAppUnits(maxSizeInDevPixels); } static nsRect ApplyRectMultiplier(nsRect aRect, float aMultiplier) { if (aMultiplier == 1.0f) { return aRect; } float newWidth = aRect.width * aMultiplier; float newHeight = aRect.height * aMultiplier; float newX = aRect.x - ((newWidth - aRect.width) / 2.0f); float newY = aRect.y - ((newHeight - aRect.height) / 2.0f); // Rounding doesn't matter too much here, do a round-in return nsRect(ceil(newX), ceil(newY), floor(newWidth), floor(newHeight)); } static nsRect GetDisplayPortFromRectData(nsIContent* aContent, DisplayPortPropertyData* aRectData, float aMultiplier) { // In the case where the displayport is set as a rect, we assume it is // already aligned and clamped as necessary. The burden to do that is // on the setter of the displayport. In practice very few places set the // displayport directly as a rect (mostly tests). We still do need to // expand it by the multiplier though. return ApplyRectMultiplier(aRectData->mRect, aMultiplier); } static nsRect GetDisplayPortFromMarginsData( nsIContent* aContent, DisplayPortMarginsPropertyData* aMarginsData, float aMultiplier) { // In the case where the displayport is set via margins, we apply the margins // to a base rect. Then we align the expanded rect based on the alignment // requested, further expand the rect by the multiplier, and finally, clamp it // to the size of the scrollable rect. nsRect base; if (nsRect* baseData = static_cast( aContent->GetProperty(nsGkAtoms::DisplayPortBase))) { base = *baseData; } else { // In theory we shouldn't get here, but we do sometimes (see bug 1212136). // Fall through for graceful handling. } nsIFrame* frame = nsLayoutUtils::GetScrollFrameFromContent(aContent); if (!frame) { // Turns out we can't really compute it. Oops. We still should return // something sane. Note that since we can't clamp the rect without a // frame, we don't apply the multiplier either as it can cause the result // to leak outside the scrollable area. NS_WARNING( "Attempting to get a displayport from a content with no primary " "frame!"); return base; } bool isRoot = false; if (aContent->OwnerDoc()->GetRootElement() == aContent) { isRoot = true; } nsPoint scrollPos; if (nsIScrollableFrame* scrollableFrame = frame->GetScrollTargetFrame()) { scrollPos = scrollableFrame->GetScrollPosition(); } nsPresContext* presContext = frame->PresContext(); int32_t auPerDevPixel = presContext->AppUnitsPerDevPixel(); LayoutDeviceToScreenScale2D res( presContext->PresShell()->GetCumulativeResolution() * nsLayoutUtils::GetTransformToAncestorScale(frame)); // Calculate the expanded scrollable rect, which we'll be clamping the // displayport to. nsRect expandedScrollableRect = nsLayoutUtils::CalculateExpandedScrollableRect(frame); // GetTransformToAncestorScale() can return 0. In this case, just return the // base rect (clamped to the expanded scrollable rect), as other calculations // would run into divisions by zero. if (res == LayoutDeviceToScreenScale2D(0, 0)) { // Make sure the displayport remains within the scrollable rect. return base.MoveInsideAndClamp(expandedScrollableRect - scrollPos); } // First convert the base rect to screen pixels LayoutDeviceToScreenScale2D parentRes = res; if (isRoot) { // the base rect for root scroll frames is specified in the parent document // coordinate space, so it doesn't include the local resolution. float localRes = presContext->PresShell()->GetResolution(); parentRes.xScale /= localRes; parentRes.yScale /= localRes; } ScreenRect screenRect = LayoutDeviceRect::FromAppUnits(base, auPerDevPixel) * parentRes; // Note on the correctness of applying the alignment in Screen space: // The correct space to apply the alignment in would be Layer space, but // we don't necessarily know the scale to convert to Layer space at this // point because Layout may not yet have chosen the resolution at which to // render (it chooses that in FrameLayerBuilder, but this can be called // during display list building). Therefore, we perform the alignment in // Screen space, which basically assumes that Layout chose to render at // screen resolution; since this is what Layout does most of the time, // this is a good approximation. A proper solution would involve moving // the choosing of the resolution to display-list building time. ScreenSize alignment; PresShell* presShell = presContext->PresShell(); MOZ_ASSERT(presShell); bool useWebRender = gfxVars::UseWebRender(); if (presShell->IsDisplayportSuppressed()) { alignment = ScreenSize(1, 1); } else if (useWebRender) { // Moving the displayport is relatively expensive with WR so we use a larger // alignment that causes the displayport to move less frequently. The // alignment scales up with the size of the base rect so larger scrollframes // use a larger alignment, but we clamp the alignment to a power of two // between 128 and 1024 (inclusive). // This naturally also increases the size of the displayport compared to // always using a 128 alignment, so the displayport multipliers are also // correspondingly smaller when WR is enabled to prevent the displayport // from becoming too big. IntSize multiplier = layers::apz::GetDisplayportAlignmentMultiplier(screenRect.Size()); alignment = ScreenSize(128 * multiplier.width, 128 * multiplier.height); } else if (StaticPrefs::layers_enable_tiles_AtStartup()) { // Don't align to tiles if they are too large, because we could expand // the displayport by a lot which can take more paint time. It's a tradeoff // though because if we don't align to tiles we have more waste on upload. IntSize tileSize = gfxVars::TileSize(); alignment = ScreenSize(std::min(256, tileSize.width), std::min(256, tileSize.height)); } else { // If we're not drawing with tiles then we need to be careful about not // hitting the max texture size and we only need 1 draw call per layer // so we can align to a smaller multiple. alignment = ScreenSize(128, 128); } // Avoid division by zero. if (alignment.width == 0) { alignment.width = 128; } if (alignment.height == 0) { alignment.height = 128; } if (StaticPrefs::layers_enable_tiles_AtStartup() || useWebRender) { // Expand the rect by the margins screenRect.Inflate(aMarginsData->mMargins); } else { // Calculate the displayport to make sure we fit within the max texture size // when not tiling. nscoord maxSizeAppUnits = GetMaxDisplayPortSize(aContent, presContext); MOZ_ASSERT(maxSizeAppUnits < nscoord_MAX); // The alignment code can round up to 3 tiles, we want to make sure // that the displayport can grow by up to 3 tiles without going // over the max texture size. const int MAX_ALIGN_ROUNDING = 3; // Find the maximum size in screen pixels. int32_t maxSizeDevPx = presContext->AppUnitsToDevPixels(maxSizeAppUnits); int32_t maxWidthScreenPx = floor(double(maxSizeDevPx) * res.xScale) - MAX_ALIGN_ROUNDING * alignment.width; int32_t maxHeightScreenPx = floor(double(maxSizeDevPx) * res.yScale) - MAX_ALIGN_ROUNDING * alignment.height; // For each axis, inflate the margins up to the maximum size. const ScreenMargin& margins = aMarginsData->mMargins; if (screenRect.height < maxHeightScreenPx) { int32_t budget = maxHeightScreenPx - screenRect.height; // Scale the margins down to fit into the budget if necessary, maintaining // their relative ratio. float scale = 1.0f; if (float(budget) < margins.TopBottom()) { scale = float(budget) / margins.TopBottom(); } float top = margins.top * scale; float bottom = margins.bottom * scale; screenRect.y -= top; screenRect.height += top + bottom; } if (screenRect.width < maxWidthScreenPx) { int32_t budget = maxWidthScreenPx - screenRect.width; float scale = 1.0f; if (float(budget) < margins.LeftRight()) { scale = float(budget) / margins.LeftRight(); } float left = margins.left * scale; float right = margins.right * scale; screenRect.x -= left; screenRect.width += left + right; } } ScreenPoint scrollPosScreen = LayoutDevicePoint::FromAppUnits(scrollPos, auPerDevPixel) * res; // Align the display port. screenRect += scrollPosScreen; float x = alignment.width * floor(screenRect.x / alignment.width); float y = alignment.height * floor(screenRect.y / alignment.height); float w = alignment.width * ceil(screenRect.width / alignment.width + 1); float h = alignment.height * ceil(screenRect.height / alignment.height + 1); screenRect = ScreenRect(x, y, w, h); screenRect -= scrollPosScreen; // Convert the aligned rect back into app units. nsRect result = LayoutDeviceRect::ToAppUnits(screenRect / res, auPerDevPixel); // If we have non-zero margins, expand the displayport for the low-res buffer // if that's what we're drawing. If we have zero margins, we want the // displayport to reflect the scrollport. if (aMarginsData->mMargins != ScreenMargin()) { result = ApplyRectMultiplier(result, aMultiplier); } // Make sure the displayport remains within the scrollable rect. result = result.MoveInsideAndClamp(expandedScrollableRect - scrollPos); return result; } static bool GetDisplayPortData( nsIContent* aContent, DisplayPortPropertyData** aOutRectData, DisplayPortMarginsPropertyData** aOutMarginsData) { MOZ_ASSERT(aOutRectData && aOutMarginsData); *aOutRectData = static_cast( aContent->GetProperty(nsGkAtoms::DisplayPort)); *aOutMarginsData = static_cast( aContent->GetProperty(nsGkAtoms::DisplayPortMargins)); if (!*aOutRectData && !*aOutMarginsData) { // This content element has no displayport data at all return false; } if (*aOutRectData && *aOutMarginsData) { // choose margins if equal priority if ((*aOutRectData)->mPriority > (*aOutMarginsData)->mPriority) { *aOutMarginsData = nullptr; } else { *aOutRectData = nullptr; } } NS_ASSERTION((*aOutRectData == nullptr) != (*aOutMarginsData == nullptr), "Only one of aOutRectData or aOutMarginsData should be set!"); return true; } static bool GetWasDisplayPortPainted(nsIContent* aContent) { DisplayPortPropertyData* rectData = nullptr; DisplayPortMarginsPropertyData* marginsData = nullptr; if (!GetDisplayPortData(aContent, &rectData, &marginsData)) { return false; } return rectData ? rectData->mPainted : marginsData->mPainted; } bool DisplayPortUtils::IsMissingDisplayPortBaseRect(nsIContent* aContent) { DisplayPortPropertyData* rectData = nullptr; DisplayPortMarginsPropertyData* marginsData = nullptr; if (GetDisplayPortData(aContent, &rectData, &marginsData) && marginsData) { return !aContent->GetProperty(nsGkAtoms::DisplayPortBase); } return false; } enum class MaxSizeExceededBehaviour { // Ask GetDisplayPortImpl to assert if the calculated displayport exceeds // the maximum allowed size. Assert, // Ask GetDisplayPortImpl to pretend like there's no displayport at all, if // the calculated displayport exceeds the maximum allowed size. Drop, }; static bool GetDisplayPortImpl( nsIContent* aContent, nsRect* aResult, float aMultiplier, MaxSizeExceededBehaviour aBehaviour = MaxSizeExceededBehaviour::Assert) { DisplayPortPropertyData* rectData = nullptr; DisplayPortMarginsPropertyData* marginsData = nullptr; if (!GetDisplayPortData(aContent, &rectData, &marginsData)) { return false; } nsIFrame* frame = aContent->GetPrimaryFrame(); if (frame && !frame->PresShell()->AsyncPanZoomEnabled()) { return false; } if (!aResult) { // We have displayport data, but the caller doesn't want the actual // rect, so we don't need to actually compute it. return true; } bool isDisplayportSuppressed = false; if (frame) { nsPresContext* presContext = frame->PresContext(); MOZ_ASSERT(presContext); PresShell* presShell = presContext->PresShell(); MOZ_ASSERT(presShell); isDisplayportSuppressed = presShell->IsDisplayportSuppressed(); } nsRect result; if (rectData) { result = GetDisplayPortFromRectData(aContent, rectData, aMultiplier); } else if (isDisplayportSuppressed || nsLayoutUtils::ShouldDisableApzForElement(aContent)) { DisplayPortMarginsPropertyData noMargins(ScreenMargin(), 1, /*painted=*/false); result = GetDisplayPortFromMarginsData(aContent, &noMargins, aMultiplier); } else { result = GetDisplayPortFromMarginsData(aContent, marginsData, aMultiplier); } if (!StaticPrefs::layers_enable_tiles_AtStartup()) { // Perform the desired error handling if the displayport dimensions // exceeds the maximum allowed size nscoord maxSize = GetMaxDisplayPortSize(aContent, nullptr); if (result.width > maxSize || result.height > maxSize) { switch (aBehaviour) { case MaxSizeExceededBehaviour::Assert: NS_ASSERTION(false, "Displayport must be a valid texture size"); break; case MaxSizeExceededBehaviour::Drop: return false; } } } *aResult = result; return true; } static void TranslateFromScrollPortToScrollFrame(nsIContent* aContent, nsRect* aRect) { MOZ_ASSERT(aRect); if (nsIScrollableFrame* scrollableFrame = nsLayoutUtils::FindScrollableFrameFor(aContent)) { *aRect += scrollableFrame->GetScrollPortRect().TopLeft(); } } bool DisplayPortUtils::GetDisplayPort( nsIContent* aContent, nsRect* aResult, DisplayportRelativeTo aRelativeTo /* = DisplayportRelativeTo::ScrollPort */) { float multiplier = StaticPrefs::layers_low_precision_buffer() ? 1.0f / StaticPrefs::layers_low_precision_resolution() : 1.0f; bool usingDisplayPort = GetDisplayPortImpl(aContent, aResult, multiplier, MaxSizeExceededBehaviour::Assert); if (aResult && usingDisplayPort && aRelativeTo == DisplayportRelativeTo::ScrollFrame) { TranslateFromScrollPortToScrollFrame(aContent, aResult); } return usingDisplayPort; } bool DisplayPortUtils::HasDisplayPort(nsIContent* aContent) { return GetDisplayPort(aContent, nullptr); } bool DisplayPortUtils::HasPaintedDisplayPort(nsIContent* aContent) { DisplayPortPropertyData* rectData = nullptr; DisplayPortMarginsPropertyData* marginsData = nullptr; GetDisplayPortData(aContent, &rectData, &marginsData); if (rectData) { return rectData->mPainted; } if (marginsData) { return marginsData->mPainted; } return false; } void DisplayPortUtils::MarkDisplayPortAsPainted(nsIContent* aContent) { DisplayPortPropertyData* rectData = nullptr; DisplayPortMarginsPropertyData* marginsData = nullptr; GetDisplayPortData(aContent, &rectData, &marginsData); MOZ_ASSERT(rectData || marginsData, "MarkDisplayPortAsPainted should only be called for an element " "with a displayport"); if (rectData) { rectData->mPainted = true; } if (marginsData) { marginsData->mPainted = true; } } /* static */ bool DisplayPortUtils::GetDisplayPortForVisibilityTesting(nsIContent* aContent, nsRect* aResult) { MOZ_ASSERT(aResult); // Since the base rect might not have been updated very recently, it's // possible to end up with an extra-large displayport at this point, if the // zoom level is changed by a lot. Instead of using the default behaviour of // asserting, we can just ignore the displayport if that happens, as this // call site is best-effort. bool usingDisplayPort = GetDisplayPortImpl(aContent, aResult, 1.0f, MaxSizeExceededBehaviour::Drop); if (usingDisplayPort) { TranslateFromScrollPortToScrollFrame(aContent, aResult); } return usingDisplayPort; } void DisplayPortUtils::InvalidateForDisplayPortChange( nsIContent* aContent, bool aHadDisplayPort, const nsRect& aOldDisplayPort, const nsRect& aNewDisplayPort, RepaintMode aRepaintMode) { if (aRepaintMode != RepaintMode::Repaint) { return; } bool changed = !aHadDisplayPort || !aOldDisplayPort.IsEqualEdges(aNewDisplayPort); nsIFrame* frame = nsLayoutUtils::GetScrollFrameFromContent(aContent); if (frame) { frame = do_QueryFrame(frame->GetScrollTargetFrame()); } if (changed && frame) { // It is important to call SchedulePaint on the same frame that we set the // dirty rect properties on so we can find the frame later to remove the // properties. frame->SchedulePaint(); if (!nsLayoutUtils::AreRetainedDisplayListsEnabled() || !nsLayoutUtils::DisplayRootHasRetainedDisplayListBuilder(frame)) { return; } bool found; nsRect* rect = frame->GetProperty( nsDisplayListBuilder::DisplayListBuildingDisplayPortRect(), &found); if (!found) { rect = new nsRect(); frame->AddProperty( nsDisplayListBuilder::DisplayListBuildingDisplayPortRect(), rect); frame->SetHasOverrideDirtyRegion(true); nsIFrame* rootFrame = frame->PresShell()->GetRootFrame(); MOZ_ASSERT(rootFrame); RetainedDisplayListData* data = GetOrSetRetainedDisplayListData(rootFrame); data->Flags(frame) |= RetainedDisplayListData::FrameFlags::HasProps; } else { MOZ_ASSERT(rect, "this property should only store non-null values"); } if (aHadDisplayPort) { // We only need to build a display list for any new areas added nsRegion newRegion(aNewDisplayPort); newRegion.SubOut(aOldDisplayPort); rect->UnionRect(*rect, newRegion.GetBounds()); } else { rect->UnionRect(*rect, aNewDisplayPort); } } } bool DisplayPortUtils::SetDisplayPortMargins(nsIContent* aContent, PresShell* aPresShell, const ScreenMargin& aMargins, uint32_t aPriority, RepaintMode aRepaintMode) { MOZ_ASSERT(aContent); MOZ_ASSERT(aContent->GetComposedDoc() == aPresShell->GetDocument()); DisplayPortMarginsPropertyData* currentData = static_cast( aContent->GetProperty(nsGkAtoms::DisplayPortMargins)); if (currentData && currentData->mPriority > aPriority) { return false; } nsIFrame* scrollFrame = nsLayoutUtils::GetScrollFrameFromContent(aContent); nsRect oldDisplayPort; bool hadDisplayPort = false; bool wasPainted = GetWasDisplayPortPainted(aContent); if (scrollFrame) { // We only use the two return values from this function to call // InvalidateForDisplayPortChange. InvalidateForDisplayPortChange does // nothing if aContent does not have a frame. So getting the displayport is // useless if the content has no frame, so we avoid calling this to avoid // triggering a warning about not having a frame. hadDisplayPort = GetHighResolutionDisplayPort(aContent, &oldDisplayPort); } aContent->SetProperty( nsGkAtoms::DisplayPortMargins, new DisplayPortMarginsPropertyData(aMargins, aPriority, wasPainted), nsINode::DeleteProperty); nsIScrollableFrame* scrollableFrame = scrollFrame ? scrollFrame->GetScrollTargetFrame() : nullptr; if (!scrollableFrame) { return true; } nsRect newDisplayPort; DebugOnly hasDisplayPort = GetHighResolutionDisplayPort(aContent, &newDisplayPort); MOZ_ASSERT(hasDisplayPort); if (MOZ_LOG_TEST(sDisplayportLog, LogLevel::Debug)) { mozilla::layers::ScrollableLayerGuid::ViewID viewID = mozilla::layers::ScrollableLayerGuid::NULL_SCROLL_ID; nsLayoutUtils::FindIDFor(aContent, &viewID); if (!hadDisplayPort) { MOZ_LOG(sDisplayportLog, LogLevel::Debug, ("SetDisplayPortMargins %s on scrollId=%" PRIu64 ", newDp=%s\n", ToString(aMargins).c_str(), viewID, ToString(newDisplayPort).c_str())); } else { // Use verbose level logging for when an existing displayport got its // margins updated. MOZ_LOG(sDisplayportLog, LogLevel::Verbose, ("SetDisplayPortMargins %s on scrollId=%" PRIu64 ", newDp=%s\n", ToString(aMargins).c_str(), viewID, ToString(newDisplayPort).c_str())); } } InvalidateForDisplayPortChange(aContent, hadDisplayPort, oldDisplayPort, newDisplayPort, aRepaintMode); scrollableFrame->TriggerDisplayPortExpiration(); // Display port margins changing means that the set of visible frames may // have drastically changed. Check if we should schedule an update. hadDisplayPort = scrollableFrame->GetDisplayPortAtLastApproximateFrameVisibilityUpdate( &oldDisplayPort); bool needVisibilityUpdate = !hadDisplayPort; // Check if the total size has changed by a large factor. if (!needVisibilityUpdate) { if ((newDisplayPort.width > 2 * oldDisplayPort.width) || (oldDisplayPort.width > 2 * newDisplayPort.width) || (newDisplayPort.height > 2 * oldDisplayPort.height) || (oldDisplayPort.height > 2 * newDisplayPort.height)) { needVisibilityUpdate = true; } } // Check if it's moved by a significant amount. if (!needVisibilityUpdate) { if (nsRect* baseData = static_cast( aContent->GetProperty(nsGkAtoms::DisplayPortBase))) { nsRect base = *baseData; if ((std::abs(newDisplayPort.X() - oldDisplayPort.X()) > base.width) || (std::abs(newDisplayPort.XMost() - oldDisplayPort.XMost()) > base.width) || (std::abs(newDisplayPort.Y() - oldDisplayPort.Y()) > base.height) || (std::abs(newDisplayPort.YMost() - oldDisplayPort.YMost()) > base.height)) { needVisibilityUpdate = true; } } } if (needVisibilityUpdate) { aPresShell->ScheduleApproximateFrameVisibilityUpdateNow(); } return true; } void DisplayPortUtils::SetDisplayPortBase(nsIContent* aContent, const nsRect& aBase) { if (MOZ_LOG_TEST(sDisplayportLog, LogLevel::Verbose)) { ViewID viewId = nsLayoutUtils::FindOrCreateIDFor(aContent); MOZ_LOG(sDisplayportLog, LogLevel::Verbose, ("Setting base rect %s for scrollId=%" PRIu64 "\n", ToString(aBase).c_str(), viewId)); } aContent->SetProperty(nsGkAtoms::DisplayPortBase, new nsRect(aBase), nsINode::DeleteProperty); } void DisplayPortUtils::SetDisplayPortBaseIfNotSet(nsIContent* aContent, const nsRect& aBase) { if (!aContent->GetProperty(nsGkAtoms::DisplayPortBase)) { SetDisplayPortBase(aContent, aBase); } } bool DisplayPortUtils::GetCriticalDisplayPort(nsIContent* aContent, nsRect* aResult) { if (StaticPrefs::layers_low_precision_buffer()) { return GetDisplayPortImpl(aContent, aResult, 1.0f, MaxSizeExceededBehaviour::Assert); } return false; } bool DisplayPortUtils::HasCriticalDisplayPort(nsIContent* aContent) { return GetCriticalDisplayPort(aContent, nullptr); } bool DisplayPortUtils::GetHighResolutionDisplayPort(nsIContent* aContent, nsRect* aResult) { if (StaticPrefs::layers_low_precision_buffer()) { return GetCriticalDisplayPort(aContent, aResult); } return GetDisplayPort(aContent, aResult, DisplayportRelativeTo::ScrollPort); } void DisplayPortUtils::RemoveDisplayPort(nsIContent* aContent) { aContent->RemoveProperty(nsGkAtoms::DisplayPort); aContent->RemoveProperty(nsGkAtoms::DisplayPortMargins); } bool DisplayPortUtils::ViewportHasDisplayPort(nsPresContext* aPresContext) { nsIFrame* rootScrollFrame = aPresContext->PresShell()->GetRootScrollFrame(); return rootScrollFrame && HasDisplayPort(rootScrollFrame->GetContent()); } bool DisplayPortUtils::IsFixedPosFrameInDisplayPort(const nsIFrame* aFrame) { // Fixed-pos frames are parented by the viewport frame or the page content // frame. We'll assume that printing/print preview don't have displayports for // their pages! nsIFrame* parent = aFrame->GetParent(); if (!parent || parent->GetParent() || aFrame->StyleDisplay()->mPosition != StylePositionProperty::Fixed) { return false; } return ViewportHasDisplayPort(aFrame->PresContext()); } // We want to this return true for the scroll frame, but not the // scrolled frame (which has the same content). bool DisplayPortUtils::FrameHasDisplayPort(nsIFrame* aFrame, const nsIFrame* aScrolledFrame) { if (!aFrame->GetContent() || !HasDisplayPort(aFrame->GetContent())) { return false; } nsIScrollableFrame* sf = do_QueryFrame(aFrame); if (sf) { if (aScrolledFrame && aScrolledFrame != sf->GetScrolledFrame()) { return false; } return true; } return false; } bool DisplayPortUtils::CalculateAndSetDisplayPortMargins( nsIScrollableFrame* aScrollFrame, RepaintMode aRepaintMode) { nsIFrame* frame = do_QueryFrame(aScrollFrame); MOZ_ASSERT(frame); nsIContent* content = frame->GetContent(); MOZ_ASSERT(content); FrameMetrics metrics = nsLayoutUtils::CalculateBasicFrameMetrics(aScrollFrame); ScreenMargin displayportMargins = layers::apz::CalculatePendingDisplayPort( metrics, ParentLayerPoint(0.0f, 0.0f)); PresShell* presShell = frame->PresContext()->GetPresShell(); return SetDisplayPortMargins(content, presShell, displayportMargins, 0, aRepaintMode); } bool DisplayPortUtils::MaybeCreateDisplayPort(nsDisplayListBuilder* aBuilder, nsIFrame* aScrollFrame, RepaintMode aRepaintMode) { nsIContent* content = aScrollFrame->GetContent(); nsIScrollableFrame* scrollableFrame = do_QueryFrame(aScrollFrame); if (!content || !scrollableFrame) { return false; } bool haveDisplayPort = HasDisplayPort(content); // We perform an optimization where we ensure that at least one // async-scrollable frame (i.e. one that WantsAsyncScroll()) has a // displayport. If that's not the case yet, and we are async-scrollable, we // will get a displayport. if (aBuilder->IsPaintingToWindow() && nsLayoutUtils::AsyncPanZoomEnabled(aScrollFrame) && !aBuilder->HaveScrollableDisplayPort() && scrollableFrame->WantAsyncScroll()) { // If we don't already have a displayport, calculate and set one. if (!haveDisplayPort) { // We only use the viewId for logging purposes, but create it // unconditionally to minimize impact of enabling logging. If we don't // assign a viewId here it will get assigned later anyway so functionally // there should be no difference. ViewID viewId = nsLayoutUtils::FindOrCreateIDFor(content); MOZ_LOG( sDisplayportLog, LogLevel::Debug, ("Setting DP on first-encountered scrollId=%" PRIu64 "\n", viewId)); CalculateAndSetDisplayPortMargins(scrollableFrame, aRepaintMode); #ifdef DEBUG haveDisplayPort = HasDisplayPort(content); MOZ_ASSERT(haveDisplayPort, "should have a displayport after having just set it"); #endif } // Record that the we now have a scrollable display port. aBuilder->SetHaveScrollableDisplayPort(); return true; } return false; } void DisplayPortUtils::SetZeroMarginDisplayPortOnAsyncScrollableAncestors( nsIFrame* aFrame) { nsIFrame* frame = aFrame; while (frame) { frame = nsLayoutUtils::GetCrossDocParentFrame(frame); if (!frame) { break; } nsIScrollableFrame* scrollAncestor = nsLayoutUtils::GetAsyncScrollableAncestorFrame(frame); if (!scrollAncestor) { break; } frame = do_QueryFrame(scrollAncestor); MOZ_ASSERT(frame); MOZ_ASSERT(scrollAncestor->WantAsyncScroll() || frame->PresShell()->GetRootScrollFrame() == frame); if (nsLayoutUtils::AsyncPanZoomEnabled(frame) && !HasDisplayPort(frame->GetContent())) { SetDisplayPortMargins(frame->GetContent(), frame->PresShell(), ScreenMargin(), 0, RepaintMode::Repaint); } } } bool DisplayPortUtils::MaybeCreateDisplayPortInFirstScrollFrameEncountered( nsIFrame* aFrame, nsDisplayListBuilder* aBuilder) { nsIScrollableFrame* sf = do_QueryFrame(aFrame); if (sf) { if (MaybeCreateDisplayPort(aBuilder, aFrame, RepaintMode::Repaint)) { return true; } } if (aFrame->IsPlaceholderFrame()) { nsPlaceholderFrame* placeholder = static_cast(aFrame); if (MaybeCreateDisplayPortInFirstScrollFrameEncountered( placeholder->GetOutOfFlowFrame(), aBuilder)) { return true; } } if (aFrame->IsSubDocumentFrame()) { PresShell* presShell = static_cast(aFrame) ->GetSubdocumentPresShellForPainting(0); nsIFrame* root = presShell ? presShell->GetRootFrame() : nullptr; if (root) { if (MaybeCreateDisplayPortInFirstScrollFrameEncountered(root, aBuilder)) { return true; } } } if (aFrame->IsDeckFrame()) { // only descend the visible card of a decks nsIFrame* child = static_cast(aFrame)->GetSelectedBox(); if (child) { return MaybeCreateDisplayPortInFirstScrollFrameEncountered(child, aBuilder); } } for (nsIFrame* child : aFrame->PrincipalChildList()) { if (MaybeCreateDisplayPortInFirstScrollFrameEncountered(child, aBuilder)) { return true; } } return false; } void DisplayPortUtils::ExpireDisplayPortOnAsyncScrollableAncestor( nsIFrame* aFrame) { nsIFrame* frame = aFrame; while (frame) { frame = nsLayoutUtils::GetCrossDocParentFrame(frame); if (!frame) { break; } nsIScrollableFrame* scrollAncestor = nsLayoutUtils::GetAsyncScrollableAncestorFrame(frame); if (!scrollAncestor) { break; } frame = do_QueryFrame(scrollAncestor); MOZ_ASSERT(frame); if (!frame) { break; } MOZ_ASSERT(scrollAncestor->WantAsyncScroll() || frame->PresShell()->GetRootScrollFrame() == frame); if (HasDisplayPort(frame->GetContent())) { scrollAncestor->TriggerDisplayPortExpiration(); // Stop after the first trigger. If it failed, there's no point in // continuing because all the rest of the frames we encounter are going // to be ancestors of |scrollAncestor| which will keep its displayport. // If the trigger succeeded, we stop because when the trigger executes // it will call this function again to trigger the next ancestor up the // chain. break; } } } static PresShell* GetPresShell(const nsIContent* aContent) { if (dom::Document* doc = aContent->GetComposedDoc()) { return doc->GetPresShell(); } return nullptr; } static void UpdateDisplayPortMarginsForPendingMetrics( const RepaintRequest& aMetrics) { nsIContent* content = nsLayoutUtils::FindContentFor(aMetrics.GetScrollId()); if (!content) { return; } RefPtr presShell = GetPresShell(content); if (!presShell) { return; } if (nsLayoutUtils::AllowZoomingForDocument(presShell->GetDocument()) && aMetrics.IsRootContent()) { // See APZCCallbackHelper::UpdateRootFrame for details. float presShellResolution = presShell->GetResolution(); if (presShellResolution != aMetrics.GetPresShellResolution()) { return; } } nsIScrollableFrame* frame = nsLayoutUtils::FindScrollableFrameFor(aMetrics.GetScrollId()); if (!frame) { return; } if (APZCCallbackHelper::IsScrollInProgress(frame)) { // If these conditions are true, then the UpdateFrame // message may be ignored by the main-thread, so we // shouldn't update the displayport based on it. return; } DisplayPortMarginsPropertyData* currentData = static_cast( content->GetProperty(nsGkAtoms::DisplayPortMargins)); if (!currentData) { return; } CSSPoint frameScrollOffset = CSSPoint::FromAppUnits(frame->GetScrollPosition()); CSSPoint scrollDelta = aMetrics.GetVisualScrollOffset() - frameScrollOffset; ScreenMargin displayPortMargins = APZCCallbackHelper::AdjustDisplayPortForScrollDelta( aMetrics.GetDisplayPortMargins(), scrollDelta * aMetrics.DisplayportPixelsPerCSSPixel()); DisplayPortUtils::SetDisplayPortMargins(content, presShell, displayPortMargins, 0); } /* static */ void DisplayPortUtils::UpdateDisplayPortMarginsFromPendingMessages() { if (XRE_IsContentProcess() && layers::CompositorBridgeChild::Get() && layers::CompositorBridgeChild::Get()->GetIPCChannel()) { layers::CompositorBridgeChild::Get()->GetIPCChannel()->PeekMessages( [](const IPC::Message& aMsg) -> bool { if (aMsg.type() == layers::PAPZ::Msg_RequestContentRepaint__ID) { PickleIterator iter(aMsg); RepaintRequest request; if (!IPC::ReadParam(&aMsg, &iter, &request)) { MOZ_ASSERT(false); return true; } UpdateDisplayPortMarginsForPendingMetrics(request); } return true; }); } } } // namespace mozilla