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|
/* -*- 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 "WebRenderCommandBuilder.h"
#include "mozilla/AutoRestore.h"
#include "mozilla/DebugOnly.h"
#include "mozilla/EffectCompositor.h"
#include "mozilla/ProfilerLabels.h"
#include "mozilla/StaticPrefs_gfx.h"
#include "mozilla/SVGGeometryFrame.h"
#include "mozilla/SVGImageFrame.h"
#include "mozilla/UniquePtr.h"
#include "mozilla/gfx/2D.h"
#include "mozilla/gfx/Logging.h"
#include "mozilla/gfx/Types.h"
#include "mozilla/image/WebRenderImageProvider.h"
#include "mozilla/layers/AnimationHelper.h"
#include "mozilla/layers/ClipManager.h"
#include "mozilla/layers/ImageClient.h"
#include "mozilla/layers/RenderRootStateManager.h"
#include "mozilla/layers/WebRenderBridgeChild.h"
#include "mozilla/layers/WebRenderLayerManager.h"
#include "mozilla/layers/IpcResourceUpdateQueue.h"
#include "mozilla/layers/SharedSurfacesChild.h"
#include "mozilla/layers/SourceSurfaceSharedData.h"
#include "mozilla/layers/StackingContextHelper.h"
#include "mozilla/layers/UpdateImageHelper.h"
#include "mozilla/layers/WebRenderDrawEventRecorder.h"
#include "UnitTransforms.h"
#include "gfxEnv.h"
#include "nsDisplayListInvalidation.h"
#include "nsLayoutUtils.h"
#include "nsTHashSet.h"
#include "WebRenderCanvasRenderer.h"
#include <cstdint>
namespace mozilla {
namespace layers {
using namespace gfx;
using namespace image;
static int sIndent;
#include <stdarg.h>
#include <stdio.h>
static void GP(const char* fmt, ...) {
va_list args;
va_start(args, fmt);
#if 0
for (int i = 0; i < sIndent; i++) { printf(" "); }
vprintf(fmt, args);
#endif
va_end(args);
}
bool FitsInt32(const float aVal) {
// Although int32_t min and max can't be represented exactly with floats, the
// cast truncates towards zero which is what we want here.
const float min = static_cast<float>(std::numeric_limits<int32_t>::min());
const float max = static_cast<float>(std::numeric_limits<int32_t>::max());
return aVal > min && aVal < max;
}
// XXX: problems:
// - How do we deal with scrolling while having only a single invalidation rect?
// We can have a valid rect and an invalid rect. As we scroll the valid rect
// will move and the invalid rect will be the new area
struct BlobItemData;
static void DestroyBlobGroupDataProperty(nsTArray<BlobItemData*>* aArray);
NS_DECLARE_FRAME_PROPERTY_WITH_DTOR(BlobGroupDataProperty,
nsTArray<BlobItemData*>,
DestroyBlobGroupDataProperty);
// These are currently manually allocated and ownership is help by the
// mDisplayItems hash table in DIGroup
struct BlobItemData {
// a weak pointer to the frame for this item.
// DisplayItemData has a mFrameList to deal with merged frames. Hopefully we
// don't need to worry about that.
nsIFrame* mFrame;
uint32_t mDisplayItemKey;
nsTArray<BlobItemData*>*
mArray; // a weak pointer to the array that's owned by the frame property
LayerIntRect mRect;
// It would be nice to not need this. We need to be able to call
// ComputeInvalidationRegion. ComputeInvalidationRegion will sometimes reach
// into parent style structs to get information that can change the
// invalidation region
UniquePtr<nsDisplayItemGeometry> mGeometry;
DisplayItemClip mClip;
bool mInvisible;
bool mUsed; // initialized near construction
// XXX: only used for debugging
bool mInvalid;
// a weak pointer to the group that owns this item
// we use this to track whether group for a particular item has changed
struct DIGroup* mGroup;
// We need to keep a list of all the external surfaces used by the blob image.
// We do this on a per-display item basis so that the lists remains correct
// during invalidations.
std::vector<RefPtr<SourceSurface>> mExternalSurfaces;
BlobItemData(DIGroup* aGroup, nsDisplayItem* aItem)
: mInvisible(false), mUsed(false), mGroup(aGroup) {
mInvalid = false;
mDisplayItemKey = aItem->GetPerFrameKey();
AddFrame(aItem->Frame());
}
private:
void AddFrame(nsIFrame* aFrame) {
mFrame = aFrame;
nsTArray<BlobItemData*>* array =
aFrame->GetProperty(BlobGroupDataProperty());
if (!array) {
array = new nsTArray<BlobItemData*>();
aFrame->SetProperty(BlobGroupDataProperty(), array);
}
array->AppendElement(this);
mArray = array;
}
public:
void ClearFrame() {
// Delete the weak pointer to this BlobItemData on the frame
MOZ_RELEASE_ASSERT(mFrame);
// the property may already be removed if WebRenderUserData got deleted
// first so we use our own mArray pointer.
mArray->RemoveElement(this);
// drop the entire property if nothing's left in the array
if (mArray->IsEmpty()) {
// If the frame is in the process of being destroyed this will fail
// but that's ok, because the the property will be removed then anyways
mFrame->RemoveProperty(BlobGroupDataProperty());
}
mFrame = nullptr;
}
~BlobItemData() {
if (mFrame) {
ClearFrame();
}
}
};
static BlobItemData* GetBlobItemData(nsDisplayItem* aItem) {
nsIFrame* frame = aItem->Frame();
uint32_t key = aItem->GetPerFrameKey();
const nsTArray<BlobItemData*>* array =
frame->GetProperty(BlobGroupDataProperty());
if (array) {
for (BlobItemData* item : *array) {
if (item->mDisplayItemKey == key) {
return item;
}
}
}
return nullptr;
}
// We keep around the BlobItemData so that when we invalidate it get properly
// included in the rect
static void DestroyBlobGroupDataProperty(nsTArray<BlobItemData*>* aArray) {
for (BlobItemData* item : *aArray) {
GP("DestroyBlobGroupDataProperty: %p-%d\n", item->mFrame,
item->mDisplayItemKey);
item->mFrame = nullptr;
}
delete aArray;
}
static void TakeExternalSurfaces(
WebRenderDrawEventRecorder* aRecorder,
std::vector<RefPtr<SourceSurface>>& aExternalSurfaces,
RenderRootStateManager* aManager, wr::IpcResourceUpdateQueue& aResources) {
aRecorder->TakeExternalSurfaces(aExternalSurfaces);
for (auto& surface : aExternalSurfaces) {
// While we don't use the image key with the surface, because the blob image
// renderer doesn't have easy access to the resource set, we still want to
// ensure one is generated. That will ensure the surface remains alive until
// at least the last epoch which the blob image could be used in.
wr::ImageKey key;
DebugOnly<nsresult> rv =
SharedSurfacesChild::Share(surface, aManager, aResources, key);
MOZ_ASSERT(rv.value != NS_ERROR_NOT_IMPLEMENTED);
}
}
struct DIGroup;
struct Grouper {
explicit Grouper(ClipManager& aClipManager)
: mAppUnitsPerDevPixel(0),
mDisplayListBuilder(nullptr),
mClipManager(aClipManager) {}
int32_t mAppUnitsPerDevPixel;
nsDisplayListBuilder* mDisplayListBuilder;
ClipManager& mClipManager;
HitTestInfoManager mHitTestInfoManager;
Matrix mTransform;
// Paint the list of aChildren display items.
void PaintContainerItem(DIGroup* aGroup, nsDisplayItem* aItem,
BlobItemData* aData, const IntRect& aItemBounds,
bool aDirty, nsDisplayList* aChildren,
gfxContext* aContext,
WebRenderDrawEventRecorder* aRecorder,
RenderRootStateManager* aRootManager,
wr::IpcResourceUpdateQueue& aResources);
// Builds groups of display items split based on 'layer activity'
void ConstructGroups(nsDisplayListBuilder* aDisplayListBuilder,
WebRenderCommandBuilder* aCommandBuilder,
wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResources, DIGroup* aGroup,
nsDisplayList* aList, nsDisplayItem* aWrappingItem,
const StackingContextHelper& aSc);
// Builds a group of display items without promoting anything to active.
bool ConstructGroupInsideInactive(WebRenderCommandBuilder* aCommandBuilder,
wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResources,
DIGroup* aGroup, nsDisplayList* aList,
const StackingContextHelper& aSc);
// Helper method for processing a single inactive item
bool ConstructItemInsideInactive(WebRenderCommandBuilder* aCommandBuilder,
wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResources,
DIGroup* aGroup, nsDisplayItem* aItem,
const StackingContextHelper& aSc,
bool* aOutIsInvisible);
~Grouper() = default;
};
// Returns whether this is an item for which complete invalidation was
// reliant on LayerTreeInvalidation in the pre-webrender world.
static bool IsContainerLayerItem(nsDisplayItem* aItem) {
switch (aItem->GetType()) {
case DisplayItemType::TYPE_WRAP_LIST:
case DisplayItemType::TYPE_CONTAINER:
case DisplayItemType::TYPE_TRANSFORM:
case DisplayItemType::TYPE_OPACITY:
case DisplayItemType::TYPE_FILTER:
case DisplayItemType::TYPE_BLEND_CONTAINER:
case DisplayItemType::TYPE_BLEND_MODE:
case DisplayItemType::TYPE_MASK:
case DisplayItemType::TYPE_PERSPECTIVE: {
return true;
}
default: {
return false;
}
}
}
#include <sstream>
static bool DetectContainerLayerPropertiesBoundsChange(
nsDisplayItem* aItem, BlobItemData* aData,
nsDisplayItemGeometry& aGeometry) {
if (aItem->GetType() == DisplayItemType::TYPE_FILTER) {
// Filters get clipped to the BuildingRect since they can
// have huge bounds outside of the visible area.
aGeometry.mBounds = aGeometry.mBounds.Intersect(aItem->GetBuildingRect());
}
return !aGeometry.mBounds.IsEqualEdges(aData->mGeometry->mBounds);
}
/* A Display Item Group. This represents a set of diplay items that
* have been grouped together for rasterization and can be partially
* invalidated. It also tracks a number of properties from the environment
* that when changed would cause us to repaint like mScale. */
struct DIGroup {
// XXX: Storing owning pointers to the BlobItemData in a hash table is not
// a good choice. There are two better options:
//
// 1. We should just be using a linked list for this stuff.
// That we can iterate over only the used items.
// We remove from the unused list and add to the used list
// when we see an item.
//
// we allocate using a free list.
//
// 2. We can use a Vec and use SwapRemove().
// We'll just need to be careful when iterating.
// The advantage of a Vec is that everything stays compact
// and we don't need to heap allocate the BlobItemData's
nsTHashSet<BlobItemData*> mDisplayItems;
LayerIntRect mInvalidRect;
LayerIntRect mVisibleRect;
// This is the last visible rect sent to WebRender. It's used
// to compute the invalid rect and ensure that we send
// the appropriate data to WebRender for merging.
LayerIntRect mLastVisibleRect;
// This is the intersection of mVisibleRect and mLastVisibleRect
// we ensure that mInvalidRect is contained in mPreservedRect
LayerIntRect mPreservedRect;
// mHitTestBounds is the same as mActualBounds except for the bounds
// of invisible items which are accounted for in the former but not
// in the latter.
LayerIntRect mHitTestBounds;
LayerIntRect mActualBounds;
int32_t mAppUnitsPerDevPixel;
gfx::MatrixScales mScale;
ScrollableLayerGuid::ViewID mScrollId;
CompositorHitTestInfo mHitInfo;
LayerPoint mResidualOffset;
LayerIntRect mLayerBounds; // mGroupBounds converted to Layer space
// mLayerBounds clipped to the container/parent of the
// current item being processed.
LayerIntRect mClippedImageBounds; // mLayerBounds with the clipping of any
// containers applied
Maybe<wr::BlobImageKey> mKey;
std::vector<RefPtr<ScaledFont>> mFonts;
DIGroup()
: mAppUnitsPerDevPixel(0),
mScrollId(ScrollableLayerGuid::NULL_SCROLL_ID),
mHitInfo(CompositorHitTestInvisibleToHit) {}
void InvalidateRect(const LayerIntRect& aRect) {
auto r = aRect.Intersect(mPreservedRect);
// Empty rects get dropped
if (!r.IsEmpty()) {
mInvalidRect = mInvalidRect.Union(r);
}
}
LayerIntRect ItemBounds(nsDisplayItem* aItem) {
BlobItemData* data = GetBlobItemData(aItem);
return data->mRect;
}
void ClearItems() {
GP("items: %d\n", mDisplayItems.Count());
for (BlobItemData* data : mDisplayItems) {
GP("Deleting %p-%d\n", data->mFrame, data->mDisplayItemKey);
delete data;
}
mDisplayItems.Clear();
}
void ClearImageKey(RenderRootStateManager* aManager, bool aForce = false) {
if (mKey) {
MOZ_RELEASE_ASSERT(aForce || mInvalidRect.IsEmpty());
aManager->AddBlobImageKeyForDiscard(*mKey);
mKey = Nothing();
}
mFonts.clear();
}
static LayerIntRect ToDeviceSpace(nsRect aBounds, Matrix& aMatrix,
int32_t aAppUnitsPerDevPixel) {
// RoundedOut can convert empty rectangles to non-empty ones
// so special case them here
if (aBounds.IsEmpty()) {
return LayerIntRect();
}
return LayerIntRect::FromUnknownRect(RoundedOut(aMatrix.TransformBounds(
ToRect(nsLayoutUtils::RectToGfxRect(aBounds, aAppUnitsPerDevPixel)))));
}
bool ComputeGeometryChange(nsDisplayItem* aItem, BlobItemData* aData,
Matrix& aMatrix, nsDisplayListBuilder* aBuilder) {
// If the frame is marked as invalidated, and didn't specify a rect to
// invalidate then we want to invalidate both the old and new bounds,
// otherwise we only want to invalidate the changed areas. If we do get an
// invalid rect, then we want to add this on top of the change areas.
nsRect invalid;
bool invalidated = false;
const DisplayItemClip& clip = aItem->GetClip();
int32_t appUnitsPerDevPixel =
aItem->Frame()->PresContext()->AppUnitsPerDevPixel();
MOZ_RELEASE_ASSERT(mAppUnitsPerDevPixel == appUnitsPerDevPixel);
GP("\n");
GP("clippedImageRect %d %d %d %d\n", mClippedImageBounds.x,
mClippedImageBounds.y, mClippedImageBounds.width,
mClippedImageBounds.height);
LayerIntSize size = mVisibleRect.Size();
GP("imageSize: %d %d\n", size.width, size.height);
/*if (aItem->IsReused() && aData->mGeometry) {
return;
}*/
GP("pre mInvalidRect: %s %p-%d - inv: %d %d %d %d\n", aItem->Name(),
aItem->Frame(), aItem->GetPerFrameKey(), mInvalidRect.x, mInvalidRect.y,
mInvalidRect.width, mInvalidRect.height);
if (!aData->mGeometry) {
// This item is being added for the first time, invalidate its entire
// area.
UniquePtr<nsDisplayItemGeometry> geometry(
aItem->AllocateGeometry(aBuilder));
nsRect clippedBounds = clip.ApplyNonRoundedIntersection(
geometry->ComputeInvalidationRegion());
aData->mGeometry = std::move(geometry);
LayerIntRect transformedRect =
ToDeviceSpace(clippedBounds, aMatrix, appUnitsPerDevPixel);
aData->mRect = transformedRect.Intersect(mClippedImageBounds);
GP("CGC %s %d %d %d %d\n", aItem->Name(), clippedBounds.x,
clippedBounds.y, clippedBounds.width, clippedBounds.height);
GP("%d %d, %f %f\n", mVisibleRect.TopLeft().x.value,
mVisibleRect.TopLeft().y.value, aMatrix._11, aMatrix._22);
GP("mRect %d %d %d %d\n", aData->mRect.x, aData->mRect.y,
aData->mRect.width, aData->mRect.height);
InvalidateRect(aData->mRect);
aData->mInvalid = true;
invalidated = true;
} else if (aItem->IsInvalid(invalid) && invalid.IsEmpty()) {
UniquePtr<nsDisplayItemGeometry> geometry(
aItem->AllocateGeometry(aBuilder));
nsRect clippedBounds = clip.ApplyNonRoundedIntersection(
geometry->ComputeInvalidationRegion());
aData->mGeometry = std::move(geometry);
GP("matrix: %f %f\n", aMatrix._31, aMatrix._32);
GP("frame invalid invalidate: %s\n", aItem->Name());
GP("old rect: %d %d %d %d\n", aData->mRect.x, aData->mRect.y,
aData->mRect.width, aData->mRect.height);
InvalidateRect(aData->mRect);
// We want to snap to outside pixels. When should we multiply by the
// matrix?
// XXX: TransformBounds is expensive. We should avoid doing it if we have
// no transform
LayerIntRect transformedRect =
ToDeviceSpace(clippedBounds, aMatrix, appUnitsPerDevPixel);
aData->mRect = transformedRect.Intersect(mClippedImageBounds);
InvalidateRect(aData->mRect);
GP("new rect: %d %d %d %d\n", aData->mRect.x, aData->mRect.y,
aData->mRect.width, aData->mRect.height);
aData->mInvalid = true;
invalidated = true;
} else {
GP("else invalidate: %s\n", aItem->Name());
nsRegion combined;
// this includes situations like reflow changing the position
aItem->ComputeInvalidationRegion(aBuilder, aData->mGeometry.get(),
&combined);
if (!combined.IsEmpty()) {
// There might be no point in doing this elaborate tracking here to get
// smaller areas
InvalidateRect(aData->mRect); // invalidate the old area -- in theory
// combined should take care of this
UniquePtr<nsDisplayItemGeometry> geometry(
aItem->AllocateGeometry(aBuilder));
// invalidate the invalidated area.
aData->mGeometry = std::move(geometry);
nsRect clippedBounds = clip.ApplyNonRoundedIntersection(
aData->mGeometry->ComputeInvalidationRegion());
LayerIntRect transformedRect =
ToDeviceSpace(clippedBounds, aMatrix, appUnitsPerDevPixel);
aData->mRect = transformedRect.Intersect(mClippedImageBounds);
InvalidateRect(aData->mRect);
aData->mInvalid = true;
invalidated = true;
} else {
if (aData->mClip != clip) {
UniquePtr<nsDisplayItemGeometry> geometry(
aItem->AllocateGeometry(aBuilder));
if (!IsContainerLayerItem(aItem)) {
// the bounds of layer items can change on us without
// ComputeInvalidationRegion returning any change. Other items
// shouldn't have any hidden geometry change.
MOZ_RELEASE_ASSERT(
geometry->mBounds.IsEqualEdges(aData->mGeometry->mBounds));
} else {
aData->mGeometry = std::move(geometry);
}
nsRect clippedBounds = clip.ApplyNonRoundedIntersection(
aData->mGeometry->ComputeInvalidationRegion());
LayerIntRect transformedRect =
ToDeviceSpace(clippedBounds, aMatrix, appUnitsPerDevPixel);
InvalidateRect(aData->mRect);
aData->mRect = transformedRect.Intersect(mClippedImageBounds);
InvalidateRect(aData->mRect);
invalidated = true;
GP("ClipChange: %s %d %d %d %d\n", aItem->Name(), aData->mRect.x,
aData->mRect.y, aData->mRect.XMost(), aData->mRect.YMost());
} else if (IsContainerLayerItem(aItem)) {
UniquePtr<nsDisplayItemGeometry> geometry(
aItem->AllocateGeometry(aBuilder));
// we need to catch bounds changes of containers so that we continue
// to have the correct bounds rects in the recording
if (DetectContainerLayerPropertiesBoundsChange(aItem, aData,
*geometry)) {
nsRect clippedBounds = clip.ApplyNonRoundedIntersection(
geometry->ComputeInvalidationRegion());
aData->mGeometry = std::move(geometry);
LayerIntRect transformedRect =
ToDeviceSpace(clippedBounds, aMatrix, appUnitsPerDevPixel);
InvalidateRect(aData->mRect);
aData->mRect = transformedRect.Intersect(mClippedImageBounds);
InvalidateRect(aData->mRect);
invalidated = true;
GP("DetectContainerLayerPropertiesBoundsChange change\n");
} else {
// Handle changes in mClippedImageBounds
nsRect clippedBounds = clip.ApplyNonRoundedIntersection(
geometry->ComputeInvalidationRegion());
LayerIntRect transformedRect =
ToDeviceSpace(clippedBounds, aMatrix, appUnitsPerDevPixel);
auto rect = transformedRect.Intersect(mClippedImageBounds);
if (!rect.IsEqualEdges(aData->mRect)) {
GP("ContainerLayer image rect bounds change\n");
InvalidateRect(aData->mRect);
aData->mRect = rect;
InvalidateRect(aData->mRect);
invalidated = true;
} else {
GP("Layer NoChange: %s %d %d %d %d\n", aItem->Name(),
aData->mRect.x, aData->mRect.y, aData->mRect.XMost(),
aData->mRect.YMost());
}
}
} else {
UniquePtr<nsDisplayItemGeometry> geometry(
aItem->AllocateGeometry(aBuilder));
nsRect clippedBounds = clip.ApplyNonRoundedIntersection(
geometry->ComputeInvalidationRegion());
LayerIntRect transformedRect =
ToDeviceSpace(clippedBounds, aMatrix, appUnitsPerDevPixel);
auto rect = transformedRect.Intersect(mClippedImageBounds);
// Make sure we update mRect for mClippedImageBounds changes
if (!rect.IsEqualEdges(aData->mRect)) {
GP("ContainerLayer image rect bounds change\n");
InvalidateRect(aData->mRect);
aData->mRect = rect;
InvalidateRect(aData->mRect);
invalidated = true;
} else {
GP("NoChange: %s %d %d %d %d\n", aItem->Name(), aData->mRect.x,
aData->mRect.y, aData->mRect.XMost(), aData->mRect.YMost());
}
}
}
}
mHitTestBounds.OrWith(aData->mRect);
if (!aData->mInvisible) {
mActualBounds.OrWith(aData->mRect);
}
aData->mClip = clip;
GP("post mInvalidRect: %d %d %d %d\n", mInvalidRect.x, mInvalidRect.y,
mInvalidRect.width, mInvalidRect.height);
return invalidated;
}
void EndGroup(WebRenderLayerManager* aWrManager,
nsDisplayListBuilder* aDisplayListBuilder,
wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResources, Grouper* aGrouper,
nsDisplayList::iterator aStartItem,
nsDisplayList::iterator aEndItem) {
GP("\n\n");
GP("Begin EndGroup\n");
auto scale = LayoutDeviceToLayerScale2D::FromUnknownScale(mScale);
auto hitTestRect = mVisibleRect.Intersect(ViewAs<LayerPixel>(
mHitTestBounds, PixelCastJustification::LayerIsImage));
if (!hitTestRect.IsEmpty()) {
auto deviceHitTestRect =
(LayerRect(hitTestRect) - mResidualOffset) / scale;
PushHitTest(aBuilder, deviceHitTestRect);
}
mVisibleRect = mVisibleRect.Intersect(ViewAs<LayerPixel>(
mActualBounds, PixelCastJustification::LayerIsImage));
if (mVisibleRect.IsEmpty()) {
return;
}
// Invalidate any unused items
GP("mDisplayItems\n");
mDisplayItems.RemoveIf([&](BlobItemData* data) {
GP(" : %p-%d\n", data->mFrame, data->mDisplayItemKey);
if (!data->mUsed) {
GP("Invalidate unused: %p-%d\n", data->mFrame, data->mDisplayItemKey);
InvalidateRect(data->mRect);
delete data;
return true;
}
data->mUsed = false;
return false;
});
IntSize dtSize = mVisibleRect.Size().ToUnknownSize();
// The actual display item's size shouldn't have the scale factored in
// Round the bounds out to leave space for unsnapped content
LayoutDeviceRect itemBounds =
(LayerRect(mVisibleRect) - mResidualOffset) / scale;
if (mInvalidRect.IsEmpty() && mVisibleRect.IsEqualEdges(mLastVisibleRect)) {
GP("Not repainting group because it's empty\n");
GP("End EndGroup\n");
if (mKey) {
// Although the contents haven't changed, the visible area *may* have,
// so request it be updated unconditionally (wr should be able to easily
// detect if this is a no-op on its side, if that matters)
aResources.SetBlobImageVisibleArea(
*mKey, ViewAs<ImagePixel>(mVisibleRect,
PixelCastJustification::LayerIsImage));
mLastVisibleRect = mVisibleRect;
PushImage(aBuilder, itemBounds);
}
return;
}
std::vector<RefPtr<ScaledFont>> fonts;
bool validFonts = true;
RefPtr<WebRenderDrawEventRecorder> recorder =
MakeAndAddRef<WebRenderDrawEventRecorder>(
[&](MemStream& aStream,
std::vector<RefPtr<ScaledFont>>& aScaledFonts) {
size_t count = aScaledFonts.size();
aStream.write((const char*)&count, sizeof(count));
for (auto& scaled : aScaledFonts) {
Maybe<wr::FontInstanceKey> key =
aWrManager->WrBridge()->GetFontKeyForScaledFont(scaled,
aResources);
if (key.isNothing()) {
validFonts = false;
break;
}
BlobFont font = {key.value(), scaled};
aStream.write((const char*)&font, sizeof(font));
}
fonts = std::move(aScaledFonts);
});
RefPtr<gfx::DrawTarget> dummyDt =
gfxPlatform::GetPlatform()->ScreenReferenceDrawTarget();
RefPtr<gfx::DrawTarget> dt = gfx::Factory::CreateRecordingDrawTarget(
recorder, dummyDt, mLayerBounds.ToUnknownRect());
if (!dt || !dt->IsValid()) {
gfxCriticalNote << "Failed to create drawTarget for blob image";
return;
}
gfxContext context(dt);
context.SetMatrix(Matrix::Scaling(mScale).PostTranslate(mResidualOffset.x,
mResidualOffset.y));
GP("mInvalidRect: %d %d %d %d\n", mInvalidRect.x, mInvalidRect.y,
mInvalidRect.width, mInvalidRect.height);
RenderRootStateManager* rootManager =
aWrManager->GetRenderRootStateManager();
bool empty = aStartItem == aEndItem;
if (empty) {
ClearImageKey(rootManager, true);
return;
}
PaintItemRange(aGrouper, aStartItem, aEndItem, &context, recorder,
rootManager, aResources);
// XXX: set this correctly perhaps using
// aItem->GetOpaqueRegion(aDisplayListBuilder, &snapped).
// Contains(paintBounds);?
wr::OpacityType opacity = wr::OpacityType::HasAlphaChannel;
bool hasItems = recorder->Finish();
GP("%d Finish\n", hasItems);
if (!validFonts) {
gfxCriticalNote << "Failed serializing fonts for blob image";
return;
}
Range<uint8_t> bytes((uint8_t*)recorder->mOutputStream.mData,
recorder->mOutputStream.mLength);
if (!mKey) {
// we don't want to send a new image that doesn't have any
// items in it
if (!hasItems || mVisibleRect.IsEmpty()) {
GP("Skipped group with no items\n");
return;
}
wr::BlobImageKey key =
wr::BlobImageKey{aWrManager->WrBridge()->GetNextImageKey()};
GP("No previous key making new one %d\n", key._0.mHandle);
wr::ImageDescriptor descriptor(dtSize, 0, dt->GetFormat(), opacity);
MOZ_RELEASE_ASSERT(bytes.length() > sizeof(size_t));
if (!aResources.AddBlobImage(
key, descriptor, bytes,
ViewAs<ImagePixel>(mVisibleRect,
PixelCastJustification::LayerIsImage))) {
return;
}
mKey = Some(key);
} else {
MOZ_DIAGNOSTIC_ASSERT(
aWrManager->WrBridge()->MatchesNamespace(mKey.ref()),
"Stale blob key for group!");
wr::ImageDescriptor descriptor(dtSize, 0, dt->GetFormat(), opacity);
// Convert mInvalidRect to image space by subtracting the corner of the
// image bounds
auto dirtyRect = ViewAs<ImagePixel>(mInvalidRect,
PixelCastJustification::LayerIsImage);
auto bottomRight = dirtyRect.BottomRight();
GP("check invalid %d %d - %d %d\n", bottomRight.x.value,
bottomRight.y.value, dtSize.width, dtSize.height);
GP("Update Blob %d %d %d %d\n", mInvalidRect.x, mInvalidRect.y,
mInvalidRect.width, mInvalidRect.height);
if (!aResources.UpdateBlobImage(
*mKey, descriptor, bytes,
ViewAs<ImagePixel>(mVisibleRect,
PixelCastJustification::LayerIsImage),
dirtyRect)) {
return;
}
}
mFonts = std::move(fonts);
aResources.SetBlobImageVisibleArea(
*mKey,
ViewAs<ImagePixel>(mVisibleRect, PixelCastJustification::LayerIsImage));
mLastVisibleRect = mVisibleRect;
PushImage(aBuilder, itemBounds);
GP("End EndGroup\n\n");
}
void PushImage(wr::DisplayListBuilder& aBuilder,
const LayoutDeviceRect& bounds) {
wr::LayoutRect dest = wr::ToLayoutRect(bounds);
GP("PushImage: %f %f %f %f\n", dest.min.x, dest.min.y, dest.max.x,
dest.max.y);
// wr::ToImageRendering(aItem->Frame()->UsedImageRendering());
auto rendering = wr::ImageRendering::Auto;
bool backfaceHidden = false;
// XXX - clipping the item against the paint rect breaks some content.
// cf. Bug 1455422.
// wr::LayoutRect clip = wr::ToLayoutRect(bounds.Intersect(mVisibleRect));
aBuilder.PushImage(dest, dest, !backfaceHidden, false, rendering,
wr::AsImageKey(*mKey));
}
void PushHitTest(wr::DisplayListBuilder& aBuilder,
const LayoutDeviceRect& bounds) {
wr::LayoutRect dest = wr::ToLayoutRect(bounds);
GP("PushHitTest: %f %f %f %f\n", dest.min.x, dest.min.y, dest.max.x,
dest.max.y);
// We don't really know the exact shape of this blob because it may contain
// SVG shapes. Also mHitInfo may be a combination of hit info flags from
// different shapes so generate an irregular-area hit-test region for it.
CompositorHitTestInfo hitInfo = mHitInfo;
if (hitInfo.contains(CompositorHitTestFlags::eVisibleToHitTest)) {
hitInfo += CompositorHitTestFlags::eIrregularArea;
}
bool backfaceHidden = false;
aBuilder.PushHitTest(dest, dest, !backfaceHidden, mScrollId, hitInfo,
SideBits::eNone);
}
void PaintItemRange(Grouper* aGrouper, nsDisplayList::iterator aStartItem,
nsDisplayList::iterator aEndItem, gfxContext* aContext,
WebRenderDrawEventRecorder* aRecorder,
RenderRootStateManager* aRootManager,
wr::IpcResourceUpdateQueue& aResources) {
LayerIntSize size = mVisibleRect.Size();
for (auto it = aStartItem; it != aEndItem; ++it) {
nsDisplayItem* item = *it;
MOZ_ASSERT(item);
BlobItemData* data = GetBlobItemData(item);
if (data->mInvisible) {
continue;
}
LayerIntRect bounds = data->mRect;
auto bottomRight = bounds.BottomRight();
GP("Trying %s %p-%d %d %d %d %d\n", item->Name(), item->Frame(),
item->GetPerFrameKey(), bounds.x, bounds.y, bounds.XMost(),
bounds.YMost());
if (item->GetType() == DisplayItemType::TYPE_COMPOSITOR_HITTEST_INFO) {
continue;
}
GP("paint check invalid %d %d - %d %d\n", bottomRight.x.value,
bottomRight.y.value, size.width, size.height);
// skip empty items
if (bounds.IsEmpty()) {
continue;
}
bool dirty = true;
auto preservedBounds = bounds.Intersect(mPreservedRect);
if (!mInvalidRect.Contains(preservedBounds)) {
GP("Passing\n");
dirty = false;
BlobItemData* data = GetBlobItemData(item);
if (data->mInvalid) {
gfxCriticalError()
<< "DisplayItem" << item->Name() << "-should be invalid";
}
// if the item is invalid it needs to be fully contained
MOZ_RELEASE_ASSERT(!data->mInvalid);
}
nsDisplayList* children = item->GetChildren();
if (children) {
// If we aren't dirty, we still need to iterate over the children to
// ensure the blob index data is recorded the same as before to allow
// the merging of the parts inside in the invalid rect. Any items that
// are painted as a single item need to avoid repainting in that case.
GP("doing children in EndGroup\n");
aGrouper->PaintContainerItem(this, item, data, bounds.ToUnknownRect(),
dirty, children, aContext, aRecorder,
aRootManager, aResources);
continue;
}
nsPaintedDisplayItem* paintedItem = item->AsPaintedDisplayItem();
if (!paintedItem) {
continue;
}
if (dirty) {
// What should the clip settting strategy be? We can set the full
// clip everytime. this is probably easiest for now. An alternative
// would be to put the push and the pop into separate items and let
// invalidation handle it that way.
DisplayItemClip currentClip = paintedItem->GetClip();
if (currentClip.HasClip()) {
aContext->Save();
currentClip.ApplyTo(aContext, aGrouper->mAppUnitsPerDevPixel);
}
aContext->NewPath();
GP("painting %s %p-%d\n", paintedItem->Name(), paintedItem->Frame(),
paintedItem->GetPerFrameKey());
if (aGrouper->mDisplayListBuilder->IsPaintingToWindow()) {
paintedItem->Frame()->AddStateBits(NS_FRAME_PAINTED_THEBES);
}
paintedItem->Paint(aGrouper->mDisplayListBuilder, aContext);
TakeExternalSurfaces(aRecorder, data->mExternalSurfaces, aRootManager,
aResources);
if (currentClip.HasClip()) {
aContext->Restore();
}
}
aContext->GetDrawTarget()->FlushItem(bounds.ToUnknownRect());
}
}
~DIGroup() {
GP("Group destruct\n");
for (BlobItemData* data : mDisplayItems) {
GP("Deleting %p-%d\n", data->mFrame, data->mDisplayItemKey);
delete data;
}
}
};
// If we have an item we need to make sure it matches the current group
// otherwise it means the item switched groups and we need to invalidate
// it and recreate the data.
static BlobItemData* GetBlobItemDataForGroup(nsDisplayItem* aItem,
DIGroup* aGroup) {
BlobItemData* data = GetBlobItemData(aItem);
if (data) {
MOZ_RELEASE_ASSERT(data->mGroup->mDisplayItems.Contains(data));
if (data->mGroup != aGroup) {
GP("group don't match %p %p\n", data->mGroup, aGroup);
data->ClearFrame();
// the item is for another group
// it should be cleared out as being unused at the end of this paint
data = nullptr;
}
}
if (!data) {
GP("Allocating blob data\n");
data = new BlobItemData(aGroup, aItem);
aGroup->mDisplayItems.Insert(data);
}
data->mUsed = true;
return data;
}
void Grouper::PaintContainerItem(DIGroup* aGroup, nsDisplayItem* aItem,
BlobItemData* aData,
const IntRect& aItemBounds, bool aDirty,
nsDisplayList* aChildren, gfxContext* aContext,
WebRenderDrawEventRecorder* aRecorder,
RenderRootStateManager* aRootManager,
wr::IpcResourceUpdateQueue& aResources) {
switch (aItem->GetType()) {
case DisplayItemType::TYPE_TRANSFORM: {
DisplayItemClip currentClip = aItem->GetClip();
gfxContextMatrixAutoSaveRestore saveMatrix;
if (currentClip.HasClip()) {
aContext->Save();
currentClip.ApplyTo(aContext, this->mAppUnitsPerDevPixel);
aContext->GetDrawTarget()->FlushItem(aItemBounds);
} else {
saveMatrix.SetContext(aContext);
}
auto transformItem = static_cast<nsDisplayTransform*>(aItem);
Matrix4x4Flagged trans = transformItem->GetTransform();
Matrix trans2d;
if (!trans.Is2D(&trans2d)) {
// Painting will cause us to include the item's recording in the blob.
// We only want to do that if it is dirty, because otherwise the
// recording might change (e.g. due to factor of 2 scaling of images
// giving different results) and the merging will discard it because it
// is outside the invalid rect.
if (aDirty) {
// We don't currently support doing invalidation inside 3d transforms.
// For now just paint it as a single item.
aItem->AsPaintedDisplayItem()->Paint(mDisplayListBuilder, aContext);
TakeExternalSurfaces(aRecorder, aData->mExternalSurfaces,
aRootManager, aResources);
}
aContext->GetDrawTarget()->FlushItem(aItemBounds);
} else if (!trans2d.IsSingular()) {
aContext->Multiply(ThebesMatrix(trans2d));
aGroup->PaintItemRange(this, aChildren->begin(), aChildren->end(),
aContext, aRecorder, aRootManager, aResources);
}
if (currentClip.HasClip()) {
aContext->Restore();
aContext->GetDrawTarget()->FlushItem(aItemBounds);
}
break;
}
case DisplayItemType::TYPE_OPACITY: {
auto opacityItem = static_cast<nsDisplayOpacity*>(aItem);
float opacity = opacityItem->GetOpacity();
if (opacity == 0.0f) {
return;
}
aContext->GetDrawTarget()->PushLayer(false, opacityItem->GetOpacity(),
nullptr, mozilla::gfx::Matrix(),
aItemBounds);
GP("beginGroup %s %p-%d\n", aItem->Name(), aItem->Frame(),
aItem->GetPerFrameKey());
aContext->GetDrawTarget()->FlushItem(aItemBounds);
aGroup->PaintItemRange(this, aChildren->begin(), aChildren->end(),
aContext, aRecorder, aRootManager, aResources);
aContext->GetDrawTarget()->PopLayer();
GP("endGroup %s %p-%d\n", aItem->Name(), aItem->Frame(),
aItem->GetPerFrameKey());
aContext->GetDrawTarget()->FlushItem(aItemBounds);
break;
}
case DisplayItemType::TYPE_BLEND_MODE: {
auto blendItem = static_cast<nsDisplayBlendMode*>(aItem);
auto blendMode = blendItem->BlendMode();
aContext->GetDrawTarget()->PushLayerWithBlend(
false, 1.0, nullptr, mozilla::gfx::Matrix(), aItemBounds, false,
blendMode);
GP("beginGroup %s %p-%d\n", aItem->Name(), aItem->Frame(),
aItem->GetPerFrameKey());
aContext->GetDrawTarget()->FlushItem(aItemBounds);
aGroup->PaintItemRange(this, aChildren->begin(), aChildren->end(),
aContext, aRecorder, aRootManager, aResources);
aContext->GetDrawTarget()->PopLayer();
GP("endGroup %s %p-%d\n", aItem->Name(), aItem->Frame(),
aItem->GetPerFrameKey());
aContext->GetDrawTarget()->FlushItem(aItemBounds);
break;
}
case DisplayItemType::TYPE_BLEND_CONTAINER: {
aContext->GetDrawTarget()->PushLayer(false, 1.0, nullptr,
mozilla::gfx::Matrix(), aItemBounds);
GP("beginGroup %s %p-%d\n", aItem->Name(), aItem->Frame(),
aItem->GetPerFrameKey());
aContext->GetDrawTarget()->FlushItem(aItemBounds);
aGroup->PaintItemRange(this, aChildren->begin(), aChildren->end(),
aContext, aRecorder, aRootManager, aResources);
aContext->GetDrawTarget()->PopLayer();
GP("endGroup %s %p-%d\n", aItem->Name(), aItem->Frame(),
aItem->GetPerFrameKey());
aContext->GetDrawTarget()->FlushItem(aItemBounds);
break;
}
case DisplayItemType::TYPE_MASK: {
GP("Paint Mask\n");
auto maskItem = static_cast<nsDisplayMasksAndClipPaths*>(aItem);
if (maskItem->IsValidMask()) {
maskItem->PaintWithContentsPaintCallback(
mDisplayListBuilder, aContext, [&] {
GP("beginGroup %s %p-%d\n", aItem->Name(), aItem->Frame(),
aItem->GetPerFrameKey());
aContext->GetDrawTarget()->FlushItem(aItemBounds);
aGroup->PaintItemRange(this, aChildren->begin(), aChildren->end(),
aContext, aRecorder, aRootManager,
aResources);
GP("endGroup %s %p-%d\n", aItem->Name(), aItem->Frame(),
aItem->GetPerFrameKey());
});
TakeExternalSurfaces(aRecorder, aData->mExternalSurfaces, aRootManager,
aResources);
aContext->GetDrawTarget()->FlushItem(aItemBounds);
}
break;
}
case DisplayItemType::TYPE_FILTER: {
GP("Paint Filter\n");
// Painting will cause us to include the item's recording in the blob. We
// only want to do that if it is dirty, because otherwise the recording
// might change (e.g. due to factor of 2 scaling of images giving
// different results) and the merging will discard it because it is
// outside the invalid rect.
if (aDirty) {
auto filterItem = static_cast<nsDisplayFilters*>(aItem);
nsRegion visible(aItem->GetClippedBounds(mDisplayListBuilder));
nsRect buildingRect = aItem->GetBuildingRect();
visible.And(visible, buildingRect);
filterItem->Paint(mDisplayListBuilder, aContext);
TakeExternalSurfaces(aRecorder, aData->mExternalSurfaces, aRootManager,
aResources);
}
aContext->GetDrawTarget()->FlushItem(aItemBounds);
break;
}
default:
aGroup->PaintItemRange(this, aChildren->begin(), aChildren->end(),
aContext, aRecorder, aRootManager, aResources);
break;
}
}
class WebRenderGroupData : public WebRenderUserData {
public:
WebRenderGroupData(RenderRootStateManager* aWRManager, nsDisplayItem* aItem);
virtual ~WebRenderGroupData();
WebRenderGroupData* AsGroupData() override { return this; }
UserDataType GetType() override { return UserDataType::eGroup; }
static UserDataType Type() { return UserDataType::eGroup; }
DIGroup mSubGroup;
DIGroup mFollowingGroup;
};
enum class ItemActivity : uint8_t {
/// Item must not be active.
No = 0,
/// Could be active if it has no layerization cost.
/// Typically active if first of an item group.
Could = 1,
/// Should be active unless something external makes that less useful.
/// For example if the item is affected by a complex mask, it remains
/// inactive.
Should = 2,
/// Must be active regardless of external factors.
Must = 3,
};
ItemActivity CombineActivity(ItemActivity a, ItemActivity b) {
return a > b ? a : b;
}
bool ActivityAtLeast(ItemActivity rhs, ItemActivity atLeast) {
return rhs >= atLeast;
}
static ItemActivity IsItemProbablyActive(
nsDisplayItem* aItem, mozilla::wr::DisplayListBuilder& aBuilder,
mozilla::wr::IpcResourceUpdateQueue& aResources,
const mozilla::layers::StackingContextHelper& aSc,
mozilla::layers::RenderRootStateManager* aManager,
nsDisplayListBuilder* aDisplayListBuilder, bool aSiblingActive,
bool aUniformlyScaled);
static ItemActivity HasActiveChildren(
const nsDisplayList& aList, mozilla::wr::DisplayListBuilder& aBuilder,
mozilla::wr::IpcResourceUpdateQueue& aResources,
const mozilla::layers::StackingContextHelper& aSc,
mozilla::layers::RenderRootStateManager* aManager,
nsDisplayListBuilder* aDisplayListBuilder, bool aUniformlyScaled) {
ItemActivity activity = ItemActivity::No;
for (nsDisplayItem* item : aList) {
// Here we only want to know if a child must be active, so we don't specify
// when the item is first or last, which can cause an item that could be
// either decide to be active. This is a bit conservative and avoids some
// extra layers. It's a good tradeoff until we get to the point where most
// items could have been active but none *had* to. Right now this is
// unlikely but as more svg items get webrenderized it will be better to
// make them active more aggressively.
auto childActivity =
IsItemProbablyActive(item, aBuilder, aResources, aSc, aManager,
aDisplayListBuilder, false, aUniformlyScaled);
activity = CombineActivity(activity, childActivity);
if (activity == ItemActivity::Must) {
return activity;
}
}
return activity;
}
static ItemActivity AssessBounds(const StackingContextHelper& aSc,
nsDisplayListBuilder* aDisplayListBuilder,
nsDisplayItem* aItem,
bool aHasActivePrecedingSibling) {
// Arbitrary threshold up for adjustments. What we want to avoid here
// is alternating between active and non active items and create a lot
// of overlapping blobs, so we only make images active if they are
// costly enough that it's worth the risk of having more layers. As we
// move more blob items into wr display items it will become less of a
// concern.
constexpr float largeish = 512;
bool snap = false;
nsRect bounds = aItem->GetBounds(aDisplayListBuilder, &snap);
float appUnitsPerDevPixel =
static_cast<float>(aItem->Frame()->PresContext()->AppUnitsPerDevPixel());
float width =
static_cast<float>(bounds.width) * aSc.GetInheritedScale().xScale;
float height =
static_cast<float>(bounds.height) * aSc.GetInheritedScale().yScale;
// Webrender doesn't handle primitives smaller than a pixel well, so
// avoid making them active.
if (width >= appUnitsPerDevPixel && height >= appUnitsPerDevPixel) {
if (aHasActivePrecedingSibling || width > largeish || height > largeish) {
return ItemActivity::Should;
}
return ItemActivity::Could;
}
return ItemActivity::No;
}
// This function decides whether we want to treat this item as "active", which
// means that it's a container item which we will turn into a WebRender
// StackingContext, or whether we treat it as "inactive" and include it inside
// the parent blob image.
//
// We can't easily use GetLayerState because it wants a bunch of layers related
// information.
static ItemActivity IsItemProbablyActive(
nsDisplayItem* aItem, mozilla::wr::DisplayListBuilder& aBuilder,
mozilla::wr::IpcResourceUpdateQueue& aResources,
const mozilla::layers::StackingContextHelper& aSc,
mozilla::layers::RenderRootStateManager* aManager,
nsDisplayListBuilder* aDisplayListBuilder, bool aHasActivePrecedingSibling,
bool aUniformlyScaled) {
switch (aItem->GetType()) {
case DisplayItemType::TYPE_TRANSFORM: {
nsDisplayTransform* transformItem =
static_cast<nsDisplayTransform*>(aItem);
const Matrix4x4Flagged& t = transformItem->GetTransform();
Matrix t2d;
bool is2D = t.Is2D(&t2d);
if (!is2D) {
return ItemActivity::Must;
}
auto activity = HasActiveChildren(*transformItem->GetChildren(), aBuilder,
aResources, aSc, aManager,
aDisplayListBuilder, aUniformlyScaled);
if (transformItem->MayBeAnimated(aDisplayListBuilder)) {
activity = CombineActivity(activity, ItemActivity::Should);
}
return activity;
}
case DisplayItemType::TYPE_OPACITY: {
nsDisplayOpacity* opacityItem = static_cast<nsDisplayOpacity*>(aItem);
if (opacityItem->NeedsActiveLayer(aDisplayListBuilder,
opacityItem->Frame())) {
return ItemActivity::Must;
}
return HasActiveChildren(*opacityItem->GetChildren(), aBuilder,
aResources, aSc, aManager, aDisplayListBuilder,
aUniformlyScaled);
}
case DisplayItemType::TYPE_FOREIGN_OBJECT: {
return ItemActivity::Must;
}
case DisplayItemType::TYPE_SVG_GEOMETRY: {
auto* svgItem = static_cast<DisplaySVGGeometry*>(aItem);
if (StaticPrefs::gfx_webrender_svg_shapes() && aUniformlyScaled &&
svgItem->ShouldBeActive(aBuilder, aResources, aSc, aManager,
aDisplayListBuilder)) {
return AssessBounds(aSc, aDisplayListBuilder, aItem,
aHasActivePrecedingSibling);
}
return ItemActivity::No;
}
case DisplayItemType::TYPE_SVG_IMAGE: {
auto* svgItem = static_cast<DisplaySVGImage*>(aItem);
if (StaticPrefs::gfx_webrender_svg_images() && aUniformlyScaled &&
svgItem->ShouldBeActive(aBuilder, aResources, aSc, aManager,
aDisplayListBuilder)) {
return AssessBounds(aSc, aDisplayListBuilder, aItem,
aHasActivePrecedingSibling);
}
return ItemActivity::No;
}
case DisplayItemType::TYPE_BLEND_MODE: {
/* BLEND_MODE needs to be active if it might have a previous sibling
* that is active so that it's able to blend with that content. */
if (aHasActivePrecedingSibling) {
return ItemActivity::Must;
}
return HasActiveChildren(*aItem->GetChildren(), aBuilder, aResources, aSc,
aManager, aDisplayListBuilder, aUniformlyScaled);
}
case DisplayItemType::TYPE_MASK: {
if (aItem->GetChildren()) {
auto activity =
HasActiveChildren(*aItem->GetChildren(), aBuilder, aResources, aSc,
aManager, aDisplayListBuilder, aUniformlyScaled);
// For masked items, don't bother with making children active since we
// are going to have to need to paint and upload a large mask anyway.
if (activity < ItemActivity::Must) {
return ItemActivity::No;
}
return activity;
}
return ItemActivity::No;
}
case DisplayItemType::TYPE_WRAP_LIST:
case DisplayItemType::TYPE_CONTAINER:
case DisplayItemType::TYPE_PERSPECTIVE: {
if (aItem->GetChildren()) {
return HasActiveChildren(*aItem->GetChildren(), aBuilder, aResources,
aSc, aManager, aDisplayListBuilder,
aUniformlyScaled);
}
return ItemActivity::No;
}
case DisplayItemType::TYPE_FILTER: {
nsDisplayFilters* filters = static_cast<nsDisplayFilters*>(aItem);
if (filters->CanCreateWebRenderCommands()) {
// Items are usually expensive enough on the CPU that we want to
// make them active whenever we can.
return ItemActivity::Must;
}
return ItemActivity::No;
}
default:
// TODO: handle other items?
return ItemActivity::No;
}
}
// This does a pass over the display lists and will join the display items
// into groups as well as paint them
void Grouper::ConstructGroups(nsDisplayListBuilder* aDisplayListBuilder,
WebRenderCommandBuilder* aCommandBuilder,
wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResources,
DIGroup* aGroup, nsDisplayList* aList,
nsDisplayItem* aWrappingItem,
const StackingContextHelper& aSc) {
RenderRootStateManager* manager =
aCommandBuilder->mManager->GetRenderRootStateManager();
nsDisplayList::iterator startOfCurrentGroup = aList->end();
DIGroup* currentGroup = aGroup;
// We need to track whether we have active siblings for mixed blend mode.
bool encounteredActiveItem = false;
bool isFirstGroup = true;
// Track whether the item is the first (visible) of its group in which case
// making it active won't add extra layers.
bool isFirst = true;
for (auto it = aList->begin(); it != aList->end(); ++it) {
nsDisplayItem* item = *it;
MOZ_ASSERT(item);
if (item->HasHitTestInfo()) {
// Accumulate the hit-test info flags. In cases where there are multiple
// hittest-info display items with different flags, mHitInfo will have
// the union of all those flags. If that is the case, we will
// additionally set eIrregularArea (at the site that we use mHitInfo)
// so that downstream consumers of this (primarily APZ) will know that
// the exact shape of what gets hit with what is unknown.
currentGroup->mHitInfo += item->GetHitTestInfo().Info();
}
if (startOfCurrentGroup == aList->end()) {
startOfCurrentGroup = it;
if (!isFirstGroup) {
mClipManager.SwitchItem(aDisplayListBuilder, aWrappingItem);
}
}
bool isLast = it.HasNext();
// WebRender's anti-aliasing approximation is not very good under
// non-uniform scales.
bool uniformlyScaled =
fabs(aGroup->mScale.xScale - aGroup->mScale.yScale) < 0.1;
auto activity = IsItemProbablyActive(
item, aBuilder, aResources, aSc, manager, mDisplayListBuilder,
encounteredActiveItem, uniformlyScaled);
auto threshold =
isFirst || isLast ? ItemActivity::Could : ItemActivity::Should;
if (activity >= threshold) {
encounteredActiveItem = true;
// We're going to be starting a new group.
RefPtr<WebRenderGroupData> groupData =
aCommandBuilder->CreateOrRecycleWebRenderUserData<WebRenderGroupData>(
item);
groupData->mFollowingGroup.mInvalidRect.SetEmpty();
// Initialize groupData->mFollowingGroup with data from currentGroup.
// We want to copy out this information before calling EndGroup because
// EndGroup will set mLastVisibleRect depending on whether
// we send something to WebRender.
// TODO: compute the group bounds post-grouping, so that they can be
// tighter for just the sublist that made it into this group.
// We want to ensure the tight bounds are still clipped by area
// that we're building the display list for.
if (groupData->mFollowingGroup.mScale != currentGroup->mScale ||
groupData->mFollowingGroup.mAppUnitsPerDevPixel !=
currentGroup->mAppUnitsPerDevPixel ||
groupData->mFollowingGroup.mResidualOffset !=
currentGroup->mResidualOffset) {
if (groupData->mFollowingGroup.mAppUnitsPerDevPixel !=
currentGroup->mAppUnitsPerDevPixel) {
GP("app unit change following: %d %d\n",
groupData->mFollowingGroup.mAppUnitsPerDevPixel,
currentGroup->mAppUnitsPerDevPixel);
}
// The group changed size
GP("Inner group size change\n");
groupData->mFollowingGroup.ClearItems();
groupData->mFollowingGroup.ClearImageKey(
aCommandBuilder->mManager->GetRenderRootStateManager());
}
groupData->mFollowingGroup.mAppUnitsPerDevPixel =
currentGroup->mAppUnitsPerDevPixel;
groupData->mFollowingGroup.mLayerBounds = currentGroup->mLayerBounds;
groupData->mFollowingGroup.mClippedImageBounds =
currentGroup->mClippedImageBounds;
groupData->mFollowingGroup.mScale = currentGroup->mScale;
groupData->mFollowingGroup.mResidualOffset =
currentGroup->mResidualOffset;
groupData->mFollowingGroup.mVisibleRect = currentGroup->mVisibleRect;
groupData->mFollowingGroup.mPreservedRect =
groupData->mFollowingGroup.mVisibleRect.Intersect(
groupData->mFollowingGroup.mLastVisibleRect);
groupData->mFollowingGroup.mActualBounds = LayerIntRect();
groupData->mFollowingGroup.mHitTestBounds = LayerIntRect();
groupData->mFollowingGroup.mHitInfo = currentGroup->mHitInfo;
currentGroup->EndGroup(aCommandBuilder->mManager, aDisplayListBuilder,
aBuilder, aResources, this, startOfCurrentGroup,
it);
{
auto spaceAndClipChain =
mClipManager.SwitchItem(aDisplayListBuilder, item);
wr::SpaceAndClipChainHelper saccHelper(aBuilder, spaceAndClipChain);
bool hasHitTest = mHitTestInfoManager.ProcessItem(item, aBuilder,
aDisplayListBuilder);
// XXX - This is hacky. Some items have hit testing info on them but we
// also have dedicated hit testing items, the flags of which apply to
// the the group that contains them. We don't want layerization to
// affect that so if the item didn't emit any hit testing then we still
// push a hit test item if the previous group had some hit test flags
// set. This is obviously not great. Hit testing should be independent
// from how we layerize.
if (!hasHitTest &&
currentGroup->mHitInfo != gfx::CompositorHitTestInvisibleToHit) {
auto hitTestRect = item->GetBuildingRect();
if (!hitTestRect.IsEmpty()) {
currentGroup->PushHitTest(
aBuilder, LayoutDeviceRect::FromAppUnits(
hitTestRect, currentGroup->mAppUnitsPerDevPixel));
}
}
sIndent++;
// Note: this call to CreateWebRenderCommands can recurse back into
// this function.
bool createdWRCommands = item->CreateWebRenderCommands(
aBuilder, aResources, aSc, manager, mDisplayListBuilder);
MOZ_RELEASE_ASSERT(
createdWRCommands,
"active transforms should always succeed at creating "
"WebRender commands");
sIndent--;
}
isFirstGroup = false;
startOfCurrentGroup = aList->end();
currentGroup = &groupData->mFollowingGroup;
isFirst = true;
} else { // inactive item
bool isInvisible = false;
ConstructItemInsideInactive(aCommandBuilder, aBuilder, aResources,
currentGroup, item, aSc, &isInvisible);
if (!isInvisible) {
// Invisible items don't count.
isFirst = false;
}
}
}
currentGroup->EndGroup(aCommandBuilder->mManager, aDisplayListBuilder,
aBuilder, aResources, this, startOfCurrentGroup,
aList->end());
}
// This does a pass over the display lists and will join the display items
// into a single group.
bool Grouper::ConstructGroupInsideInactive(
WebRenderCommandBuilder* aCommandBuilder, wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResources, DIGroup* aGroup,
nsDisplayList* aList, const StackingContextHelper& aSc) {
bool invalidated = false;
for (nsDisplayItem* item : *aList) {
if (item->HasHitTestInfo()) {
// Accumulate the hit-test info flags. In cases where there are multiple
// hittest-info display items with different flags, mHitInfo will have
// the union of all those flags. If that is the case, we will
// additionally set eIrregularArea (at the site that we use mHitInfo)
// so that downstream consumers of this (primarily APZ) will know that
// the exact shape of what gets hit with what is unknown.
aGroup->mHitInfo += item->GetHitTestInfo().Info();
}
bool invisible = false;
invalidated |= ConstructItemInsideInactive(
aCommandBuilder, aBuilder, aResources, aGroup, item, aSc, &invisible);
}
return invalidated;
}
bool Grouper::ConstructItemInsideInactive(
WebRenderCommandBuilder* aCommandBuilder, wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResources, DIGroup* aGroup,
nsDisplayItem* aItem, const StackingContextHelper& aSc,
bool* aOutIsInvisible) {
nsDisplayList* children = aItem->GetChildren();
BlobItemData* data = GetBlobItemDataForGroup(aItem, aGroup);
/* mInvalid unfortunately persists across paints. Clear it so that if we don't
* set it to 'true' we ensure that we're not using the value from the last
* time that we painted */
data->mInvalid = false;
data->mInvisible = aItem->IsInvisible();
*aOutIsInvisible = data->mInvisible;
// we compute the geometry change here because we have the transform around
// still
bool invalidated = aGroup->ComputeGeometryChange(aItem, data, mTransform,
mDisplayListBuilder);
// Temporarily restrict the image bounds to the bounds of the container so
// that clipped children within the container know about the clip. This
// ensures that the bounds passed to FlushItem are contained in the bounds of
// the clip so that we don't include items in the recording without including
// their corresponding clipping items.
auto oldClippedImageBounds = aGroup->mClippedImageBounds;
aGroup->mClippedImageBounds =
aGroup->mClippedImageBounds.Intersect(data->mRect);
if (aItem->GetType() == DisplayItemType::TYPE_FILTER) {
// If ConstructGroupInsideInactive finds any change, we invalidate the
// entire container item. This is needed because blob merging requires the
// entire item to be within the invalid region.
Matrix m = mTransform;
mTransform = Matrix();
sIndent++;
if (ConstructGroupInsideInactive(aCommandBuilder, aBuilder, aResources,
aGroup, children, aSc)) {
data->mInvalid = true;
aGroup->InvalidateRect(data->mRect);
invalidated = true;
}
sIndent--;
mTransform = m;
} else if (aItem->GetType() == DisplayItemType::TYPE_TRANSFORM) {
Matrix m = mTransform;
nsDisplayTransform* transformItem = static_cast<nsDisplayTransform*>(aItem);
const Matrix4x4Flagged& t = transformItem->GetTransform();
Matrix t2d;
bool is2D = t.CanDraw2D(&t2d);
if (!is2D) {
// If ConstructGroupInsideInactive finds any change, we invalidate the
// entire container item. This is needed because blob merging requires the
// entire item to be within the invalid region.
mTransform = Matrix();
sIndent++;
if (ConstructGroupInsideInactive(aCommandBuilder, aBuilder, aResources,
aGroup, children, aSc)) {
data->mInvalid = true;
aGroup->InvalidateRect(data->mRect);
invalidated = true;
}
sIndent--;
} else {
GP("t2d: %f %f\n", t2d._31, t2d._32);
mTransform.PreMultiply(t2d);
GP("mTransform: %f %f\n", mTransform._31, mTransform._32);
sIndent++;
invalidated |= ConstructGroupInsideInactive(
aCommandBuilder, aBuilder, aResources, aGroup, children, aSc);
sIndent--;
}
mTransform = m;
} else if (children) {
sIndent++;
invalidated |= ConstructGroupInsideInactive(
aCommandBuilder, aBuilder, aResources, aGroup, children, aSc);
sIndent--;
}
GP("Including %s of %d\n", aItem->Name(), aGroup->mDisplayItems.Count());
aGroup->mClippedImageBounds = oldClippedImageBounds;
return invalidated;
}
/* This is just a copy of nsRect::ScaleToOutsidePixels with an offset added in.
* The offset is applied just before the rounding. It's in the scaled space. */
static mozilla::LayerIntRect ScaleToOutsidePixelsOffset(
nsRect aRect, float aXScale, float aYScale, nscoord aAppUnitsPerPixel,
LayerPoint aOffset) {
mozilla::LayerIntRect rect;
rect.SetNonEmptyBox(
NSToIntFloor(NSAppUnitsToFloatPixels(aRect.x, float(aAppUnitsPerPixel)) *
aXScale +
aOffset.x),
NSToIntFloor(NSAppUnitsToFloatPixels(aRect.y, float(aAppUnitsPerPixel)) *
aYScale +
aOffset.y),
NSToIntCeil(
NSAppUnitsToFloatPixels(aRect.XMost(), float(aAppUnitsPerPixel)) *
aXScale +
aOffset.x),
NSToIntCeil(
NSAppUnitsToFloatPixels(aRect.YMost(), float(aAppUnitsPerPixel)) *
aYScale +
aOffset.y));
return rect;
}
/* This function is the same as the above except that it rounds to the
* nearest instead of rounding out. We use it for attempting to compute the
* actual pixel bounds of opaque items */
static mozilla::gfx::IntRect ScaleToNearestPixelsOffset(
nsRect aRect, float aXScale, float aYScale, nscoord aAppUnitsPerPixel,
LayerPoint aOffset) {
mozilla::gfx::IntRect rect;
rect.SetNonEmptyBox(
NSToIntFloor(NSAppUnitsToFloatPixels(aRect.x, float(aAppUnitsPerPixel)) *
aXScale +
aOffset.x + 0.5),
NSToIntFloor(NSAppUnitsToFloatPixels(aRect.y, float(aAppUnitsPerPixel)) *
aYScale +
aOffset.y + 0.5),
NSToIntFloor(
NSAppUnitsToFloatPixels(aRect.XMost(), float(aAppUnitsPerPixel)) *
aXScale +
aOffset.x + 0.5),
NSToIntFloor(
NSAppUnitsToFloatPixels(aRect.YMost(), float(aAppUnitsPerPixel)) *
aYScale +
aOffset.y + 0.5));
return rect;
}
RenderRootStateManager* WebRenderCommandBuilder::GetRenderRootStateManager() {
return mManager->GetRenderRootStateManager();
}
void WebRenderCommandBuilder::DoGroupingForDisplayList(
nsDisplayList* aList, nsDisplayItem* aWrappingItem,
nsDisplayListBuilder* aDisplayListBuilder, const StackingContextHelper& aSc,
wr::DisplayListBuilder& aBuilder, wr::IpcResourceUpdateQueue& aResources) {
if (!aList->GetBottom()) {
return;
}
GP("DoGroupingForDisplayList\n");
mClipManager.BeginList(aSc);
mHitTestInfoManager.Reset();
Grouper g(mClipManager);
int32_t appUnitsPerDevPixel =
aWrappingItem->Frame()->PresContext()->AppUnitsPerDevPixel();
g.mDisplayListBuilder = aDisplayListBuilder;
RefPtr<WebRenderGroupData> groupData =
CreateOrRecycleWebRenderUserData<WebRenderGroupData>(aWrappingItem);
bool snapped;
nsRect groupBounds =
aWrappingItem->GetUntransformedBounds(aDisplayListBuilder, &snapped);
DIGroup& group = groupData->mSubGroup;
auto scale = aSc.GetInheritedScale();
GP("Inherited scale %f %f\n", scale.xScale, scale.yScale);
auto trans =
ViewAs<LayerPixel>(aSc.GetSnappingSurfaceTransform().GetTranslation());
auto snappedTrans = LayerIntPoint::Floor(trans);
LayerPoint residualOffset = trans - snappedTrans;
auto layerBounds =
ScaleToOutsidePixelsOffset(groupBounds, scale.xScale, scale.yScale,
appUnitsPerDevPixel, residualOffset);
const nsRect& untransformedPaintRect =
aWrappingItem->GetUntransformedPaintRect();
auto visibleRect = ScaleToOutsidePixelsOffset(
untransformedPaintRect, scale.xScale, scale.yScale,
appUnitsPerDevPixel, residualOffset)
.Intersect(layerBounds);
GP("LayerBounds: %d %d %d %d\n", layerBounds.x, layerBounds.y,
layerBounds.width, layerBounds.height);
GP("VisibleRect: %d %d %d %d\n", visibleRect.x, visibleRect.y,
visibleRect.width, visibleRect.height);
GP("Inherited scale %f %f\n", scale.xScale, scale.yScale);
group.mInvalidRect.SetEmpty();
if (group.mAppUnitsPerDevPixel != appUnitsPerDevPixel ||
group.mScale != scale || group.mResidualOffset != residualOffset) {
GP("Property change. Deleting blob\n");
if (group.mAppUnitsPerDevPixel != appUnitsPerDevPixel) {
GP(" App unit change %d -> %d\n", group.mAppUnitsPerDevPixel,
appUnitsPerDevPixel);
}
if (group.mScale != scale) {
GP(" Scale %f %f -> %f %f\n", group.mScale.xScale, group.mScale.yScale,
scale.xScale, scale.yScale);
}
if (group.mResidualOffset != residualOffset) {
GP(" Residual Offset %f %f -> %f %f\n", group.mResidualOffset.x.value,
group.mResidualOffset.y.value, residualOffset.x.value,
residualOffset.y.value);
}
group.ClearItems();
group.ClearImageKey(mManager->GetRenderRootStateManager());
}
ScrollableLayerGuid::ViewID scrollId = ScrollableLayerGuid::NULL_SCROLL_ID;
if (const ActiveScrolledRoot* asr = aWrappingItem->GetActiveScrolledRoot()) {
scrollId = asr->GetViewId();
}
g.mAppUnitsPerDevPixel = appUnitsPerDevPixel;
group.mResidualOffset = residualOffset;
group.mLayerBounds = layerBounds;
group.mVisibleRect = visibleRect;
group.mActualBounds = LayerIntRect();
group.mHitTestBounds = LayerIntRect();
group.mPreservedRect = group.mVisibleRect.Intersect(group.mLastVisibleRect);
group.mAppUnitsPerDevPixel = appUnitsPerDevPixel;
group.mClippedImageBounds = layerBounds;
g.mTransform =
Matrix::Scaling(scale).PostTranslate(residualOffset.x, residualOffset.y);
group.mScale = scale;
group.mScrollId = scrollId;
g.ConstructGroups(aDisplayListBuilder, this, aBuilder, aResources, &group,
aList, aWrappingItem, aSc);
mClipManager.EndList(aSc);
}
WebRenderCommandBuilder::WebRenderCommandBuilder(
WebRenderLayerManager* aManager)
: mManager(aManager),
mLastAsr(nullptr),
mBuilderDumpIndex(0),
mDumpIndent(0),
mDoGrouping(false),
mContainsSVGGroup(false) {}
void WebRenderCommandBuilder::Destroy() {
mLastCanvasDatas.Clear();
ClearCachedResources();
}
void WebRenderCommandBuilder::EmptyTransaction() {
// We need to update canvases that might have changed.
for (RefPtr<WebRenderCanvasData> canvasData : mLastCanvasDatas) {
WebRenderCanvasRendererAsync* canvas = canvasData->GetCanvasRenderer();
if (canvas) {
canvas->UpdateCompositableClientForEmptyTransaction();
}
}
}
bool WebRenderCommandBuilder::NeedsEmptyTransaction() {
return !mLastCanvasDatas.IsEmpty();
}
void WebRenderCommandBuilder::BuildWebRenderCommands(
wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResourceUpdates, nsDisplayList* aDisplayList,
nsDisplayListBuilder* aDisplayListBuilder, WebRenderScrollData& aScrollData,
WrFiltersHolder&& aFilters) {
AUTO_PROFILER_LABEL_CATEGORY_PAIR(GRAPHICS_WRDisplayList);
StackingContextHelper sc;
aScrollData = WebRenderScrollData(mManager, aDisplayListBuilder);
MOZ_ASSERT(mLayerScrollData.empty());
mClipManager.BeginBuild(mManager, aBuilder);
mHitTestInfoManager.Reset();
mBuilderDumpIndex = 0;
mLastCanvasDatas.Clear();
mLastAsr = nullptr;
mContainsSVGGroup = false;
MOZ_ASSERT(mDumpIndent == 0);
{
wr::StackingContextParams params;
params.mRootReferenceFrame = aDisplayListBuilder->RootReferenceFrame();
params.mFilters = std::move(aFilters.filters);
params.mFilterDatas = std::move(aFilters.filter_datas);
params.clip =
wr::WrStackingContextClip::ClipChain(aBuilder.CurrentClipChainId());
StackingContextHelper pageRootSc(sc, nullptr, nullptr, nullptr, aBuilder,
params);
if (ShouldDumpDisplayList(aDisplayListBuilder)) {
mBuilderDumpIndex =
aBuilder.Dump(mDumpIndent + 1, Some(mBuilderDumpIndex), Nothing());
}
CreateWebRenderCommandsFromDisplayList(aDisplayList, nullptr,
aDisplayListBuilder, pageRootSc,
aBuilder, aResourceUpdates);
}
// Make a "root" layer data that has everything else as descendants
mLayerScrollData.emplace_back();
mLayerScrollData.back().InitializeRoot(mLayerScrollData.size() - 1);
auto callback =
[&aScrollData](ScrollableLayerGuid::ViewID aScrollId) -> bool {
return aScrollData.HasMetadataFor(aScrollId).isSome();
};
Maybe<ScrollMetadata> rootMetadata =
nsLayoutUtils::GetRootMetadata(aDisplayListBuilder, mManager, callback);
if (rootMetadata) {
// Put the fallback root metadata on the rootmost layer that is
// a matching async zoom container, or the root layer that we just
// created above.
size_t rootMetadataTarget = mLayerScrollData.size() - 1;
for (size_t i = rootMetadataTarget; i > 0; i--) {
if (auto zoomContainerId =
mLayerScrollData[i - 1].GetAsyncZoomContainerId()) {
if (*zoomContainerId == rootMetadata->GetMetrics().GetScrollId()) {
rootMetadataTarget = i - 1;
break;
}
}
}
mLayerScrollData[rootMetadataTarget].AppendScrollMetadata(
aScrollData, rootMetadata.ref());
}
// Append the WebRenderLayerScrollData items into WebRenderScrollData
// in reverse order, from topmost to bottommost. This is in keeping with
// the semantics of WebRenderScrollData.
for (auto it = mLayerScrollData.rbegin(); it != mLayerScrollData.rend();
it++) {
aScrollData.AddLayerData(std::move(*it));
}
mLayerScrollData.clear();
mClipManager.EndBuild();
// Remove the user data those are not displayed on the screen and
// also reset the data to unused for next transaction.
RemoveUnusedAndResetWebRenderUserData();
}
bool WebRenderCommandBuilder::ShouldDumpDisplayList(
nsDisplayListBuilder* aBuilder) {
return aBuilder && aBuilder->IsInActiveDocShell() &&
((XRE_IsParentProcess() &&
StaticPrefs::gfx_webrender_debug_dl_dump_parent()) ||
(XRE_IsContentProcess() &&
StaticPrefs::gfx_webrender_debug_dl_dump_content()));
}
void WebRenderCommandBuilder::CreateWebRenderCommands(
nsDisplayItem* aItem, mozilla::wr::DisplayListBuilder& aBuilder,
mozilla::wr::IpcResourceUpdateQueue& aResources,
const StackingContextHelper& aSc,
nsDisplayListBuilder* aDisplayListBuilder) {
mHitTestInfoManager.ProcessItem(aItem, aBuilder, aDisplayListBuilder);
if (aItem->GetType() == DisplayItemType::TYPE_COMPOSITOR_HITTEST_INFO) {
// The hit test information was processed above.
return;
}
auto* item = aItem->AsPaintedDisplayItem();
MOZ_RELEASE_ASSERT(item, "Tried to paint item that cannot be painted");
if (aBuilder.ReuseItem(item)) {
// No further processing should be needed, since the item was reused.
return;
}
RenderRootStateManager* manager = mManager->GetRenderRootStateManager();
// Note: this call to CreateWebRenderCommands can recurse back into
// this function if the |item| is a wrapper for a sublist.
const bool createdWRCommands = aItem->CreateWebRenderCommands(
aBuilder, aResources, aSc, manager, aDisplayListBuilder);
if (!createdWRCommands) {
PushItemAsImage(aItem, aBuilder, aResources, aSc, aDisplayListBuilder);
}
}
// A helper struct to store information needed when creating a new
// WebRenderLayerScrollData in CreateWebRenderCommandsFromDisplayList().
// This information is gathered before the recursion, and then used to
// emit the new layer after the recursion.
struct NewLayerData {
size_t mLayerCountBeforeRecursing = 0;
const ActiveScrolledRoot* mStopAtAsr = nullptr;
// Information pertaining to the deferred transform.
nsDisplayTransform* mDeferredItem = nullptr;
ScrollableLayerGuid::ViewID mDeferredId = ScrollableLayerGuid::NULL_SCROLL_ID;
bool mTransformShouldGetOwnLayer = false;
void ComputeDeferredTransformInfo(
const StackingContextHelper& aSc, nsDisplayItem* aItem,
nsDisplayTransform* aLastDeferredTransform) {
// See the comments on StackingContextHelper::mDeferredTransformItem
// for an overview of what deferred transforms are.
// In the case where we deferred a transform, but have a child display
// item with a different ASR than the deferred transform item, we cannot
// put the transform on the WebRenderLayerScrollData item for the child.
// We cannot do this because it will not conform to APZ's expectations
// with respect to how the APZ tree ends up structured. In particular,
// the GetTransformToThis() for the child APZ (which is created for the
// child item's ASR) will not include the transform when we actually do
// want it to.
// When we run into this scenario, we solve it by creating two
// WebRenderLayerScrollData items; one that just holds the transform,
// that we deferred, and a child WebRenderLayerScrollData item that
// holds the scroll metadata for the child's ASR.
mDeferredItem = aSc.GetDeferredTransformItem();
// If this deferred transform is already slated to be emitted onto an
// ancestor layer, do not emit it on this layer as well. Note that it's
// sufficient to check the most recently deferred item here, because
// there's only one per stacking context, and we emit it when changing
// stacking contexts.
if (mDeferredItem == aLastDeferredTransform) {
mDeferredItem = nullptr;
}
if (mDeferredItem) {
// It's possible the transform's ASR is not only an ancestor of
// the item's ASR, but an ancestor of stopAtAsr. In such cases,
// don't use the transform at all at this level (it would be
// scrolled by stopAtAsr which is incorrect). The transform will
// instead be emitted as part of the ancestor WebRenderLayerScrollData
// node (the one with stopAtAsr as its item ASR), or one of its
// ancetors in turn.
if (ActiveScrolledRoot::IsProperAncestor(
mDeferredItem->GetActiveScrolledRoot(), mStopAtAsr)) {
mDeferredItem = nullptr;
}
}
if (mDeferredItem) {
if (const auto* asr = mDeferredItem->GetActiveScrolledRoot()) {
mDeferredId = asr->GetViewId();
}
if (mDeferredItem->GetActiveScrolledRoot() !=
aItem->GetActiveScrolledRoot()) {
mTransformShouldGetOwnLayer = true;
} else if (aItem->GetType() == DisplayItemType::TYPE_SCROLL_INFO_LAYER) {
// A scroll info layer has its own scroll id that's not reflected
// in item->GetActiveScrolledRoot(), but will be added to the
// WebRenderLayerScrollData node, so it needs to be treated as
// having a distinct ASR from the deferred transform item.
mTransformShouldGetOwnLayer = true;
}
}
}
};
void WebRenderCommandBuilder::CreateWebRenderCommandsFromDisplayList(
nsDisplayList* aDisplayList, nsDisplayItem* aWrappingItem,
nsDisplayListBuilder* aDisplayListBuilder, const StackingContextHelper& aSc,
wr::DisplayListBuilder& aBuilder, wr::IpcResourceUpdateQueue& aResources,
bool aNewClipList) {
if (mDoGrouping) {
MOZ_RELEASE_ASSERT(
aWrappingItem,
"Only the root list should have a null wrapping item, and mDoGrouping "
"should never be true for the root list.");
GP("actually entering the grouping code\n");
DoGroupingForDisplayList(aDisplayList, aWrappingItem, aDisplayListBuilder,
aSc, aBuilder, aResources);
return;
}
bool dumpEnabled = ShouldDumpDisplayList(aDisplayListBuilder);
if (dumpEnabled) {
// If we're inside a nested display list, print the WR DL items from the
// wrapper item before we start processing the nested items.
mBuilderDumpIndex =
aBuilder.Dump(mDumpIndent + 1, Some(mBuilderDumpIndex), Nothing());
}
FlattenedDisplayListIterator iter(aDisplayListBuilder, aDisplayList);
if (!iter.HasNext()) {
return;
}
mDumpIndent++;
if (aNewClipList) {
mClipManager.BeginList(aSc);
}
const bool apzEnabled = mManager->AsyncPanZoomEnabled();
do {
nsDisplayItem* item = iter.GetNextItem();
DisplayItemType itemType = item->GetType();
// If this is a new (not retained/reused) item, then we need to disable
// the display item cache for descendants, since it's possible that some of
// them got cached with a flattened opacity values., which may no longer be
// applied.
Maybe<AutoDisplayItemCacheSuppressor> cacheSuppressor;
if (itemType == DisplayItemType::TYPE_OPACITY) {
nsDisplayOpacity* opacity = static_cast<nsDisplayOpacity*>(item);
if (!opacity->IsReused()) {
cacheSuppressor.emplace(aBuilder.GetDisplayItemCache());
}
if (opacity->CanApplyOpacityToChildren(
mManager->GetRenderRootStateManager()->LayerManager(),
aDisplayListBuilder, aBuilder.GetInheritedOpacity())) {
// If all our children support handling the opacity directly, then push
// the opacity and clip onto the builder and skip creating a stacking
// context.
float oldOpacity = aBuilder.GetInheritedOpacity();
const DisplayItemClipChain* oldClip = aBuilder.GetInheritedClipChain();
aBuilder.SetInheritedOpacity(oldOpacity * opacity->GetOpacity());
aBuilder.PushInheritedClipChain(aDisplayListBuilder,
opacity->GetClipChain());
CreateWebRenderCommandsFromDisplayList(opacity->GetChildren(), item,
aDisplayListBuilder, aSc,
aBuilder, aResources, false);
aBuilder.SetInheritedOpacity(oldOpacity);
aBuilder.SetInheritedClipChain(oldClip);
continue;
}
}
// If this is an unscrolled background color item, in the root display list
// for the parent process, consider doing opaque checks.
if (XRE_IsParentProcess() && !aWrappingItem &&
itemType == DisplayItemType::TYPE_BACKGROUND_COLOR &&
!item->GetActiveScrolledRoot() &&
item->GetClip().GetRoundedRectCount() == 0) {
bool snap;
nsRegion opaque = item->GetOpaqueRegion(aDisplayListBuilder, &snap);
if (opaque.GetNumRects() == 1) {
nsRect clippedOpaque =
item->GetClip().ApplyNonRoundedIntersection(opaque.GetBounds());
if (!clippedOpaque.IsEmpty()) {
aDisplayListBuilder->AddWindowOpaqueRegion(item->Frame(),
clippedOpaque);
}
}
}
Maybe<NewLayerData> newLayerData;
if (apzEnabled) {
// For some types of display items we want to force a new
// WebRenderLayerScrollData object, to ensure we preserve the APZ-relevant
// data that is in the display item.
if (item->UpdateScrollData(nullptr, nullptr)) {
newLayerData = Some(NewLayerData());
}
// Anytime the ASR changes we also want to force a new layer data because
// the stack of scroll metadata is going to be different for this
// display item than previously, so we can't squash the display items
// into the same "layer".
const ActiveScrolledRoot* asr = item->GetActiveScrolledRoot();
if (asr != mLastAsr) {
mLastAsr = asr;
newLayerData = Some(NewLayerData());
}
// Refer to the comment on StackingContextHelper::mDeferredTransformItem
// for an overview of what this is about. This bit of code applies to the
// case where we are deferring a transform item, and we then need to defer
// another transform with a different ASR. In such a case we cannot just
// merge the deferred transforms, but need to force a new
// WebRenderLayerScrollData item to flush the old deferred transform, so
// that we can then start deferring the new one.
if (!newLayerData && item->CreatesStackingContextHelper() &&
aSc.GetDeferredTransformItem() &&
aSc.GetDeferredTransformItem()->GetActiveScrolledRoot() != asr) {
newLayerData = Some(NewLayerData());
}
// If we're going to create a new layer data for this item, stash the
// ASR so that if we recurse into a sublist they will know where to stop
// walking up their ASR chain when building scroll metadata.
if (newLayerData) {
newLayerData->mLayerCountBeforeRecursing = mLayerScrollData.size();
newLayerData->mStopAtAsr =
mAsrStack.empty() ? nullptr : mAsrStack.back();
newLayerData->ComputeDeferredTransformInfo(
aSc, item,
mDeferredTransformStack.empty() ? nullptr
: mDeferredTransformStack.back());
// Ensure our children's |stopAtAsr| is not be an ancestor of our
// |stopAtAsr|, otherwise we could get cyclic scroll metadata
// annotations.
const ActiveScrolledRoot* stopAtAsrForChildren =
ActiveScrolledRoot::PickDescendant(asr, newLayerData->mStopAtAsr);
// Additionally, while unusual and probably indicative of a poorly
// behaved display list, it's possible to have a deferred transform item
// which we will emit as its own layer on the way out of the recursion,
// whose ASR (let's call it T) is a *descendant* of the current item's
// ASR. In such cases, make sure our children have stopAtAsr=T,
// otherwise ASRs in the range [T, asr) may be emitted in duplicate,
// leading again to cylic scroll metadata annotations.
if (newLayerData->mTransformShouldGetOwnLayer) {
stopAtAsrForChildren = ActiveScrolledRoot::PickDescendant(
stopAtAsrForChildren,
newLayerData->mDeferredItem->GetActiveScrolledRoot());
}
mAsrStack.push_back(stopAtAsrForChildren);
// If we're going to emit a deferred transform onto this layer,
// keep track of that so descendant layers know not to emit the
// same deferred transform.
if (newLayerData->mDeferredItem) {
mDeferredTransformStack.push_back(newLayerData->mDeferredItem);
}
}
}
// This is where we emulate the clip/scroll stack that was previously
// implemented on the WR display list side.
auto spaceAndClipChain = mClipManager.SwitchItem(aDisplayListBuilder, item);
wr::SpaceAndClipChainHelper saccHelper(aBuilder, spaceAndClipChain);
{ // scope restoreDoGrouping
AutoRestore<bool> restoreDoGrouping(mDoGrouping);
if (itemType == DisplayItemType::TYPE_SVG_WRAPPER) {
// Inside an <svg>, all display items that are not LAYER_ACTIVE wrapper
// display items (like animated transforms / opacity) share the same
// animated geometry root, so we can combine subsequent items of that
// type into the same image.
mContainsSVGGroup = mDoGrouping = true;
GP("attempting to enter the grouping code\n");
}
if (dumpEnabled) {
std::stringstream ss;
nsIFrame::PrintDisplayItem(aDisplayListBuilder, item, ss,
static_cast<uint32_t>(mDumpIndent));
printf_stderr("%s", ss.str().c_str());
}
CreateWebRenderCommands(item, aBuilder, aResources, aSc,
aDisplayListBuilder);
if (dumpEnabled) {
mBuilderDumpIndex =
aBuilder.Dump(mDumpIndent + 1, Some(mBuilderDumpIndex), Nothing());
}
}
if (apzEnabled) {
if (newLayerData) {
// Pop the thing we pushed before the recursion, so the topmost item on
// the stack is enclosing display item's ASR (or the stack is empty)
mAsrStack.pop_back();
if (newLayerData->mDeferredItem) {
MOZ_ASSERT(!mDeferredTransformStack.empty());
mDeferredTransformStack.pop_back();
}
const ActiveScrolledRoot* stopAtAsr = newLayerData->mStopAtAsr;
int32_t descendants =
mLayerScrollData.size() - newLayerData->mLayerCountBeforeRecursing;
nsDisplayTransform* deferred = newLayerData->mDeferredItem;
ScrollableLayerGuid::ViewID deferredId = newLayerData->mDeferredId;
if (newLayerData->mTransformShouldGetOwnLayer) {
// This creates the child WebRenderLayerScrollData for |item|, but
// omits the transform (hence the Nothing() as the last argument to
// Initialize(...)). We also need to make sure that the ASR from
// the deferred transform item is not on this node, so we use that
// ASR as the "stop at" ASR for this WebRenderLayerScrollData.
mLayerScrollData.emplace_back();
mLayerScrollData.back().Initialize(
mManager->GetScrollData(), item, descendants,
deferred->GetActiveScrolledRoot(), Nothing(),
ScrollableLayerGuid::NULL_SCROLL_ID);
// The above WebRenderLayerScrollData will also be a descendant of
// the transform-holding WebRenderLayerScrollData we create below.
descendants++;
// This creates the WebRenderLayerScrollData for the deferred
// transform item. This holds the transform matrix and the remaining
// ASRs needed to complete the ASR chain (i.e. the ones from the
// stopAtAsr down to the deferred transform item's ASR, which must be
// "between" stopAtAsr and |item|'s ASR in the ASR tree).
mLayerScrollData.emplace_back();
mLayerScrollData.back().Initialize(
mManager->GetScrollData(), deferred, descendants, stopAtAsr,
aSc.GetDeferredTransformMatrix(), deferredId);
} else {
// This is the "simple" case where we don't need to create two
// WebRenderLayerScrollData items; we can just create one that also
// holds the deferred transform matrix, if any.
mLayerScrollData.emplace_back();
mLayerScrollData.back().Initialize(
mManager->GetScrollData(), item, descendants, stopAtAsr,
deferred ? aSc.GetDeferredTransformMatrix() : Nothing(),
deferredId);
}
}
}
} while (iter.HasNext());
mDumpIndent--;
if (aNewClipList) {
mClipManager.EndList(aSc);
}
}
void WebRenderCommandBuilder::PushOverrideForASR(
const ActiveScrolledRoot* aASR, const wr::WrSpatialId& aSpatialId) {
mClipManager.PushOverrideForASR(aASR, aSpatialId);
}
void WebRenderCommandBuilder::PopOverrideForASR(
const ActiveScrolledRoot* aASR) {
mClipManager.PopOverrideForASR(aASR);
}
Maybe<wr::ImageKey> WebRenderCommandBuilder::CreateImageKey(
nsDisplayItem* aItem, ImageContainer* aContainer,
mozilla::wr::DisplayListBuilder& aBuilder,
mozilla::wr::IpcResourceUpdateQueue& aResources,
mozilla::wr::ImageRendering aRendering, const StackingContextHelper& aSc,
gfx::IntSize& aSize, const Maybe<LayoutDeviceRect>& aAsyncImageBounds) {
RefPtr<WebRenderImageData> imageData =
CreateOrRecycleWebRenderUserData<WebRenderImageData>(aItem);
MOZ_ASSERT(imageData);
if (aContainer->IsAsync()) {
MOZ_ASSERT(aAsyncImageBounds);
LayoutDeviceRect rect = aAsyncImageBounds.value();
LayoutDeviceRect scBounds(LayoutDevicePoint(0, 0), rect.Size());
// TODO!
// We appear to be using the image bridge for a lot (most/all?) of
// layers-free image handling and that breaks frame consistency.
imageData->CreateAsyncImageWebRenderCommands(
aBuilder, aContainer, aSc, rect, scBounds, aContainer->GetRotation(),
aRendering, wr::MixBlendMode::Normal, !aItem->BackfaceIsHidden());
return Nothing();
}
AutoLockImage autoLock(aContainer);
if (!autoLock.HasImage()) {
return Nothing();
}
mozilla::layers::Image* image = autoLock.GetImage();
aSize = image->GetSize();
return imageData->UpdateImageKey(aContainer, aResources);
}
bool WebRenderCommandBuilder::PushImage(
nsDisplayItem* aItem, ImageContainer* aContainer,
mozilla::wr::DisplayListBuilder& aBuilder,
mozilla::wr::IpcResourceUpdateQueue& aResources,
const StackingContextHelper& aSc, const LayoutDeviceRect& aRect,
const LayoutDeviceRect& aClip) {
auto rendering = wr::ToImageRendering(aItem->Frame()->UsedImageRendering());
gfx::IntSize size;
Maybe<wr::ImageKey> key =
CreateImageKey(aItem, aContainer, aBuilder, aResources, rendering, aSc,
size, Some(aRect));
if (aContainer->IsAsync()) {
// Async ImageContainer does not create ImageKey, instead it uses Pipeline.
MOZ_ASSERT(key.isNothing());
return true;
}
if (!key) {
return false;
}
auto r = wr::ToLayoutRect(aRect);
auto c = wr::ToLayoutRect(aClip);
aBuilder.PushImage(r, c, !aItem->BackfaceIsHidden(), false, rendering,
key.value());
return true;
}
Maybe<wr::ImageKey> WebRenderCommandBuilder::CreateImageProviderKey(
nsDisplayItem* aItem, image::WebRenderImageProvider* aProvider,
image::ImgDrawResult aDrawResult,
mozilla::wr::IpcResourceUpdateQueue& aResources) {
RefPtr<WebRenderImageProviderData> imageData =
CreateOrRecycleWebRenderUserData<WebRenderImageProviderData>(aItem);
MOZ_ASSERT(imageData);
return imageData->UpdateImageKey(aProvider, aDrawResult, aResources);
}
bool WebRenderCommandBuilder::PushImageProvider(
nsDisplayItem* aItem, image::WebRenderImageProvider* aProvider,
image::ImgDrawResult aDrawResult, mozilla::wr::DisplayListBuilder& aBuilder,
mozilla::wr::IpcResourceUpdateQueue& aResources,
const LayoutDeviceRect& aRect, const LayoutDeviceRect& aClip) {
Maybe<wr::ImageKey> key =
CreateImageProviderKey(aItem, aProvider, aDrawResult, aResources);
if (!key) {
return false;
}
bool antialiased = aItem->GetType() == DisplayItemType::TYPE_SVG_GEOMETRY;
auto rendering = wr::ToImageRendering(aItem->Frame()->UsedImageRendering());
auto r = wr::ToLayoutRect(aRect);
auto c = wr::ToLayoutRect(aClip);
aBuilder.PushImage(r, c, !aItem->BackfaceIsHidden(), antialiased, rendering,
key.value());
return true;
}
static void PaintItemByDrawTarget(nsDisplayItem* aItem, gfx::DrawTarget* aDT,
const LayoutDevicePoint& aOffset,
const IntRect& visibleRect,
nsDisplayListBuilder* aDisplayListBuilder,
const gfx::MatrixScales& aScale,
Maybe<gfx::DeviceColor>& aHighlight) {
MOZ_ASSERT(aDT && aDT->IsValid());
// XXX Why is this ClearRect() needed?
aDT->ClearRect(Rect(visibleRect));
gfxContext context(aDT);
switch (aItem->GetType()) {
case DisplayItemType::TYPE_SVG_WRAPPER:
case DisplayItemType::TYPE_MASK: {
// These items should be handled by other code paths
MOZ_RELEASE_ASSERT(0);
break;
}
default:
if (!aItem->AsPaintedDisplayItem()) {
break;
}
context.SetMatrix(context.CurrentMatrix().PreScale(aScale).PreTranslate(
-aOffset.x, -aOffset.y));
if (aDisplayListBuilder->IsPaintingToWindow()) {
aItem->Frame()->AddStateBits(NS_FRAME_PAINTED_THEBES);
}
aItem->AsPaintedDisplayItem()->Paint(aDisplayListBuilder, &context);
break;
}
if (aHighlight && aItem->GetType() != DisplayItemType::TYPE_MASK) {
// Apply highlight fills, if the appropriate prefs are set.
// We don't do this for masks because we'd be filling the A8 mask surface,
// which isn't very useful.
aDT->SetTransform(gfx::Matrix());
aDT->FillRect(Rect(visibleRect), gfx::ColorPattern(aHighlight.value()));
}
}
bool WebRenderCommandBuilder::ComputeInvalidationForDisplayItem(
nsDisplayListBuilder* aBuilder, const nsPoint& aShift,
nsDisplayItem* aItem) {
RefPtr<WebRenderFallbackData> fallbackData =
CreateOrRecycleWebRenderUserData<WebRenderFallbackData>(aItem);
nsRect invalid;
if (!fallbackData->mGeometry || aItem->IsInvalid(invalid)) {
fallbackData->mGeometry = WrapUnique(aItem->AllocateGeometry(aBuilder));
return true;
}
fallbackData->mGeometry->MoveBy(aShift);
nsRegion combined;
aItem->ComputeInvalidationRegion(aBuilder, fallbackData->mGeometry.get(),
&combined);
UniquePtr<nsDisplayItemGeometry> geometry;
if (!combined.IsEmpty() || aItem->NeedsGeometryUpdates()) {
geometry = WrapUnique(aItem->AllocateGeometry(aBuilder));
}
fallbackData->mClip.AddOffsetAndComputeDifference(
aShift, fallbackData->mGeometry->ComputeInvalidationRegion(),
aItem->GetClip(),
geometry ? geometry->ComputeInvalidationRegion()
: fallbackData->mGeometry->ComputeInvalidationRegion(),
&combined);
if (geometry) {
fallbackData->mGeometry = std::move(geometry);
}
fallbackData->mClip = aItem->GetClip();
if (!combined.IsEmpty()) {
return true;
} else if (aItem->GetChildren()) {
return ComputeInvalidationForDisplayList(aBuilder, aShift,
aItem->GetChildren());
}
return false;
}
bool WebRenderCommandBuilder::ComputeInvalidationForDisplayList(
nsDisplayListBuilder* aBuilder, const nsPoint& aShift,
nsDisplayList* aList) {
FlattenedDisplayListIterator iter(aBuilder, aList);
while (iter.HasNext()) {
if (ComputeInvalidationForDisplayItem(aBuilder, aShift,
iter.GetNextItem())) {
return true;
}
}
return false;
}
// When drawing fallback images we create either
// a real image or a blob image that will contain the display item.
// In the case of a blob image we paint the item at 0,0 instead
// of trying to keep at aItem->GetBounds().TopLeft() like we do
// with SVG. We do this because there's not necessarily a reference frame
// between us and the rest of the world so the the coordinates
// that we get for the bounds are not necessarily stable across scrolling
// or other movement.
already_AddRefed<WebRenderFallbackData>
WebRenderCommandBuilder::GenerateFallbackData(
nsDisplayItem* aItem, wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResources, const StackingContextHelper& aSc,
nsDisplayListBuilder* aDisplayListBuilder, LayoutDeviceRect& aImageRect) {
const bool paintOnContentSide = aItem->MustPaintOnContentSide();
bool useBlobImage =
StaticPrefs::gfx_webrender_blob_images() && !paintOnContentSide;
Maybe<gfx::DeviceColor> highlight = Nothing();
if (StaticPrefs::gfx_webrender_debug_highlight_painted_layers()) {
highlight = Some(useBlobImage ? gfx::DeviceColor(1.0, 0.0, 0.0, 0.5)
: gfx::DeviceColor(1.0, 1.0, 0.0, 0.5));
}
RefPtr<WebRenderFallbackData> fallbackData =
CreateOrRecycleWebRenderUserData<WebRenderFallbackData>(aItem);
bool snap;
nsRect itemBounds = aItem->GetBounds(aDisplayListBuilder, &snap);
// Blob images will only draw the visible area of the blob so we don't need to
// clip them here and can just rely on the webrender clipping.
// TODO We also don't clip native themed widget to avoid over-invalidation
// during scrolling. It would be better to support a sort of streaming/tiling
// scheme for large ones but the hope is that we should not have large native
// themed items.
nsRect paintBounds = (useBlobImage || paintOnContentSide)
? itemBounds
: aItem->GetClippedBounds(aDisplayListBuilder);
nsRect buildingRect = aItem->GetBuildingRect();
const int32_t appUnitsPerDevPixel =
aItem->Frame()->PresContext()->AppUnitsPerDevPixel();
auto bounds =
LayoutDeviceRect::FromAppUnits(paintBounds, appUnitsPerDevPixel);
if (bounds.IsEmpty()) {
return nullptr;
}
MatrixScales scale = aSc.GetInheritedScale();
MatrixScales oldScale = fallbackData->mScale;
// We tolerate slight changes in scale so that we don't, for example,
// rerasterize on MotionMark
bool differentScale = gfx::FuzzyEqual(scale.xScale, oldScale.xScale, 1e-6f) &&
gfx::FuzzyEqual(scale.yScale, oldScale.yScale, 1e-6f);
auto layerScale = LayoutDeviceToLayerScale2D::FromUnknownScale(scale);
auto trans =
ViewAs<LayerPixel>(aSc.GetSnappingSurfaceTransform().GetTranslation());
if (!FitsInt32(trans.X()) || !FitsInt32(trans.Y())) {
// The translation overflowed int32_t.
return nullptr;
}
auto snappedTrans = LayerIntPoint::Floor(trans);
LayerPoint residualOffset = trans - snappedTrans;
nsRegion opaqueRegion = aItem->GetOpaqueRegion(aDisplayListBuilder, &snap);
wr::OpacityType opacity = opaqueRegion.Contains(paintBounds)
? wr::OpacityType::Opaque
: wr::OpacityType::HasAlphaChannel;
LayerIntRect dtRect, visibleRect;
// If we think the item is opaque we round the bounds
// to the nearest pixel instead of rounding them out. If we rounded
// out we'd potentially introduce transparent pixels.
//
// Ideally we'd be able to ask an item its bounds in pixels and whether
// they're all opaque. Unfortunately no such API exists so we currently
// just hope that we get it right.
if (aBuilder.GetInheritedOpacity() == 1.0f &&
opacity == wr::OpacityType::Opaque && snap) {
dtRect = LayerIntRect::FromUnknownRect(
ScaleToNearestPixelsOffset(paintBounds, scale.xScale, scale.yScale,
appUnitsPerDevPixel, residualOffset));
visibleRect =
LayerIntRect::FromUnknownRect(
ScaleToNearestPixelsOffset(buildingRect, scale.xScale, scale.yScale,
appUnitsPerDevPixel, residualOffset))
.Intersect(dtRect);
} else {
dtRect = ScaleToOutsidePixelsOffset(paintBounds, scale.xScale, scale.yScale,
appUnitsPerDevPixel, residualOffset);
visibleRect =
ScaleToOutsidePixelsOffset(buildingRect, scale.xScale, scale.yScale,
appUnitsPerDevPixel, residualOffset)
.Intersect(dtRect);
}
auto visibleSize = visibleRect.Size();
// these rectangles can overflow from scaling so try to
// catch that with IsEmpty() checks. See bug 1622126.
if (visibleSize.IsEmpty() || dtRect.IsEmpty()) {
return nullptr;
}
if (useBlobImage) {
// Display item bounds should be unscaled
aImageRect = visibleRect / layerScale;
} else {
// Display item bounds should be unscaled
aImageRect = dtRect / layerScale;
}
// We always paint items at 0,0 so the visibleRect that we use inside the blob
// is needs to be adjusted by the display item bounds top left.
visibleRect -= dtRect.TopLeft();
nsDisplayItemGeometry* geometry = fallbackData->mGeometry.get();
bool needPaint = true;
MOZ_RELEASE_ASSERT(aItem->GetType() != DisplayItemType::TYPE_SVG_WRAPPER);
if (geometry && !fallbackData->IsInvalid() &&
aItem->GetType() != DisplayItemType::TYPE_SVG_WRAPPER && differentScale) {
nsRect invalid;
if (!aItem->IsInvalid(invalid)) {
nsPoint shift = itemBounds.TopLeft() - geometry->mBounds.TopLeft();
geometry->MoveBy(shift);
nsRegion invalidRegion;
aItem->ComputeInvalidationRegion(aDisplayListBuilder, geometry,
&invalidRegion);
nsRect lastBounds = fallbackData->mBounds;
lastBounds.MoveBy(shift);
if (lastBounds.IsEqualInterior(paintBounds) && invalidRegion.IsEmpty() &&
aBuilder.GetInheritedOpacity() == fallbackData->mOpacity) {
if (aItem->GetType() == DisplayItemType::TYPE_FILTER) {
needPaint = ComputeInvalidationForDisplayList(
aDisplayListBuilder, shift, aItem->GetChildren());
if (!buildingRect.IsEqualInterior(fallbackData->mBuildingRect)) {
needPaint = true;
}
} else {
needPaint = false;
}
}
}
}
if (needPaint || !fallbackData->GetImageKey()) {
fallbackData->mGeometry =
WrapUnique(aItem->AllocateGeometry(aDisplayListBuilder));
gfx::SurfaceFormat format = aItem->GetType() == DisplayItemType::TYPE_MASK
? gfx::SurfaceFormat::A8
: (opacity == wr::OpacityType::Opaque
? gfx::SurfaceFormat::B8G8R8X8
: gfx::SurfaceFormat::B8G8R8A8);
if (useBlobImage) {
MOZ_ASSERT(!opaqueRegion.IsComplex());
std::vector<RefPtr<ScaledFont>> fonts;
bool validFonts = true;
RefPtr<WebRenderDrawEventRecorder> recorder =
MakeAndAddRef<WebRenderDrawEventRecorder>(
[&](MemStream& aStream,
std::vector<RefPtr<ScaledFont>>& aScaledFonts) {
size_t count = aScaledFonts.size();
aStream.write((const char*)&count, sizeof(count));
for (auto& scaled : aScaledFonts) {
Maybe<wr::FontInstanceKey> key =
mManager->WrBridge()->GetFontKeyForScaledFont(scaled,
aResources);
if (key.isNothing()) {
validFonts = false;
break;
}
BlobFont font = {key.value(), scaled};
aStream.write((const char*)&font, sizeof(font));
}
fonts = std::move(aScaledFonts);
});
RefPtr<gfx::DrawTarget> dummyDt = gfx::Factory::CreateDrawTarget(
gfx::BackendType::SKIA, gfx::IntSize(1, 1), format);
RefPtr<gfx::DrawTarget> dt = gfx::Factory::CreateRecordingDrawTarget(
recorder, dummyDt, (dtRect - dtRect.TopLeft()).ToUnknownRect());
if (aBuilder.GetInheritedOpacity() != 1.0f) {
dt->PushLayer(false, aBuilder.GetInheritedOpacity(), nullptr,
gfx::Matrix());
}
PaintItemByDrawTarget(aItem, dt, (dtRect / layerScale).TopLeft(),
/*aVisibleRect: */ dt->GetRect(),
aDisplayListBuilder, scale, highlight);
if (aBuilder.GetInheritedOpacity() != 1.0f) {
dt->PopLayer();
}
// the item bounds are relative to the blob origin which is
// dtRect.TopLeft()
recorder->FlushItem((dtRect - dtRect.TopLeft()).ToUnknownRect());
recorder->Finish();
if (!validFonts) {
gfxCriticalNote << "Failed serializing fonts for blob image";
return nullptr;
}
Range<uint8_t> bytes((uint8_t*)recorder->mOutputStream.mData,
recorder->mOutputStream.mLength);
wr::BlobImageKey key =
wr::BlobImageKey{mManager->WrBridge()->GetNextImageKey()};
wr::ImageDescriptor descriptor(visibleSize.ToUnknownSize(), 0,
dt->GetFormat(), opacity);
if (!aResources.AddBlobImage(
key, descriptor, bytes,
ViewAs<ImagePixel>(visibleRect,
PixelCastJustification::LayerIsImage))) {
return nullptr;
}
TakeExternalSurfaces(recorder, fallbackData->mExternalSurfaces,
mManager->GetRenderRootStateManager(), aResources);
fallbackData->SetBlobImageKey(key);
fallbackData->SetFonts(fonts);
} else {
WebRenderImageData* imageData = fallbackData->PaintIntoImage();
imageData->CreateImageClientIfNeeded();
RefPtr<ImageClient> imageClient = imageData->GetImageClient();
RefPtr<ImageContainer> imageContainer = MakeAndAddRef<ImageContainer>();
{
UpdateImageHelper helper(imageContainer, imageClient,
dtRect.Size().ToUnknownSize(), format);
{
RefPtr<gfx::DrawTarget> dt = helper.GetDrawTarget();
if (!dt) {
return nullptr;
}
if (aBuilder.GetInheritedOpacity() != 1.0f) {
dt->PushLayer(false, aBuilder.GetInheritedOpacity(), nullptr,
gfx::Matrix());
}
PaintItemByDrawTarget(aItem, dt,
/*aOffset: */ aImageRect.TopLeft(),
/*aVisibleRect: */ dt->GetRect(),
aDisplayListBuilder, scale, highlight);
if (aBuilder.GetInheritedOpacity() != 1.0f) {
dt->PopLayer();
}
}
// Update image if there it's invalidated.
if (!helper.UpdateImage()) {
return nullptr;
}
}
// Force update the key in fallback data since we repaint the image in
// this path. If not force update, fallbackData may reuse the original key
// because it doesn't know UpdateImageHelper already updated the image
// container.
if (!imageData->UpdateImageKey(imageContainer, aResources, true)) {
return nullptr;
}
}
fallbackData->mScale = scale;
fallbackData->mOpacity = aBuilder.GetInheritedOpacity();
fallbackData->SetInvalid(false);
}
if (useBlobImage) {
MOZ_DIAGNOSTIC_ASSERT(mManager->WrBridge()->MatchesNamespace(
fallbackData->GetBlobImageKey().ref()),
"Stale blob key for fallback!");
aResources.SetBlobImageVisibleArea(
fallbackData->GetBlobImageKey().value(),
ViewAs<ImagePixel>(visibleRect, PixelCastJustification::LayerIsImage));
}
// Update current bounds to fallback data
fallbackData->mBounds = paintBounds;
fallbackData->mBuildingRect = buildingRect;
MOZ_ASSERT(fallbackData->GetImageKey());
return fallbackData.forget();
}
void WebRenderMaskData::ClearImageKey() {
if (mBlobKey) {
mManager->AddBlobImageKeyForDiscard(mBlobKey.value());
}
mBlobKey.reset();
}
void WebRenderMaskData::Invalidate() {
mMaskStyle = nsStyleImageLayers(nsStyleImageLayers::LayerType::Mask);
}
Maybe<wr::ImageMask> WebRenderCommandBuilder::BuildWrMaskImage(
nsDisplayMasksAndClipPaths* aMaskItem, wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResources, const StackingContextHelper& aSc,
nsDisplayListBuilder* aDisplayListBuilder,
const LayoutDeviceRect& aBounds) {
RefPtr<WebRenderMaskData> maskData =
CreateOrRecycleWebRenderUserData<WebRenderMaskData>(aMaskItem);
if (!maskData) {
return Nothing();
}
bool snap;
nsRect bounds = aMaskItem->GetBounds(aDisplayListBuilder, &snap);
const int32_t appUnitsPerDevPixel =
aMaskItem->Frame()->PresContext()->AppUnitsPerDevPixel();
MatrixScales scale = aSc.GetInheritedScale();
MatrixScales oldScale = maskData->mScale;
// This scale determination should probably be done using
// ChooseScaleAndSetTransform but for now we just fake it.
// We tolerate slight changes in scale so that we don't, for example,
// rerasterize on MotionMark
bool sameScale = FuzzyEqual(scale.xScale, oldScale.xScale, 1e-6f) &&
FuzzyEqual(scale.yScale, oldScale.yScale, 1e-6f);
LayerIntRect itemRect =
LayerIntRect::FromUnknownRect(bounds.ScaleToOutsidePixels(
scale.xScale, scale.yScale, appUnitsPerDevPixel));
LayerIntRect visibleRect =
LayerIntRect::FromUnknownRect(
aMaskItem->GetBuildingRect().ScaleToOutsidePixels(
scale.xScale, scale.yScale, appUnitsPerDevPixel))
.SafeIntersect(itemRect);
if (visibleRect.IsEmpty()) {
return Nothing();
}
LayoutDeviceToLayerScale2D layerScale(scale.xScale, scale.yScale);
LayoutDeviceRect imageRect = LayerRect(visibleRect) / layerScale;
nsPoint maskOffset = aMaskItem->ToReferenceFrame() - bounds.TopLeft();
bool shouldHandleOpacity = aBuilder.GetInheritedOpacity() != 1.0f;
nsRect dirtyRect;
// If this mask item is being painted for the first time, some members of
// WebRenderMaskData are still default initialized. This is intentional.
if (aMaskItem->IsInvalid(dirtyRect) ||
!itemRect.IsEqualInterior(maskData->mItemRect) ||
!(aMaskItem->Frame()->StyleSVGReset()->mMask == maskData->mMaskStyle) ||
maskOffset != maskData->mMaskOffset || !sameScale ||
shouldHandleOpacity != maskData->mShouldHandleOpacity) {
IntSize size = itemRect.Size().ToUnknownSize();
if (!Factory::AllowedSurfaceSize(size)) {
return Nothing();
}
std::vector<RefPtr<ScaledFont>> fonts;
bool validFonts = true;
RefPtr<WebRenderDrawEventRecorder> recorder =
MakeAndAddRef<WebRenderDrawEventRecorder>(
[&](MemStream& aStream,
std::vector<RefPtr<ScaledFont>>& aScaledFonts) {
size_t count = aScaledFonts.size();
aStream.write((const char*)&count, sizeof(count));
for (auto& scaled : aScaledFonts) {
Maybe<wr::FontInstanceKey> key =
mManager->WrBridge()->GetFontKeyForScaledFont(scaled,
aResources);
if (key.isNothing()) {
validFonts = false;
break;
}
BlobFont font = {key.value(), scaled};
aStream.write((const char*)&font, sizeof(font));
}
fonts = std::move(aScaledFonts);
});
RefPtr<DrawTarget> dummyDt = Factory::CreateDrawTarget(
BackendType::SKIA, IntSize(1, 1), SurfaceFormat::A8);
RefPtr<DrawTarget> dt = Factory::CreateRecordingDrawTarget(
recorder, dummyDt, IntRect(IntPoint(0, 0), size));
if (!dt || !dt->IsValid()) {
gfxCriticalNote << "Failed to create drawTarget for blob mask image";
return Nothing();
}
gfxContext context(dt);
context.SetMatrix(context.CurrentMatrix()
.PreTranslate(-itemRect.x, -itemRect.y)
.PreScale(scale));
bool maskPainted = false;
bool maskIsComplete = aMaskItem->PaintMask(
aDisplayListBuilder, &context, shouldHandleOpacity, &maskPainted);
if (!maskPainted) {
return Nothing();
}
// If a mask is incomplete or missing (e.g. it's display: none) the proper
// behaviour depends on the masked frame being html or svg.
//
// For an HTML frame:
// According to css-masking spec, always create a mask surface when
// we have any item in maskFrame even if all of those items are
// non-resolvable <mask-sources> or <images> so continue with the
// painting code. Note that in a common case of no layer of the mask being
// complete or even partially complete then the mask surface will be
// transparent black so this results in hiding the frame.
// For an SVG frame:
// SVG 1.1 say that if we fail to resolve a mask, we should draw the
// object unmasked so return Nothing().
if (!maskIsComplete &&
aMaskItem->Frame()->HasAnyStateBits(NS_FRAME_SVG_LAYOUT)) {
return Nothing();
}
recorder->FlushItem(IntRect(0, 0, size.width, size.height));
recorder->Finish();
if (!validFonts) {
gfxCriticalNote << "Failed serializing fonts for blob mask image";
return Nothing();
}
Range<uint8_t> bytes((uint8_t*)recorder->mOutputStream.mData,
recorder->mOutputStream.mLength);
wr::BlobImageKey key =
wr::BlobImageKey{mManager->WrBridge()->GetNextImageKey()};
wr::ImageDescriptor descriptor(size, 0, dt->GetFormat(),
wr::OpacityType::HasAlphaChannel);
if (!aResources.AddBlobImage(key, descriptor, bytes,
ImageIntRect(0, 0, size.width, size.height))) {
return Nothing();
}
maskData->ClearImageKey();
maskData->mBlobKey = Some(key);
maskData->mFonts = fonts;
TakeExternalSurfaces(recorder, maskData->mExternalSurfaces,
mManager->GetRenderRootStateManager(), aResources);
if (maskIsComplete) {
maskData->mItemRect = itemRect;
maskData->mMaskOffset = maskOffset;
maskData->mScale = scale;
maskData->mMaskStyle = aMaskItem->Frame()->StyleSVGReset()->mMask;
maskData->mShouldHandleOpacity = shouldHandleOpacity;
}
}
aResources.SetBlobImageVisibleArea(
maskData->mBlobKey.value(),
ViewAs<ImagePixel>(visibleRect - itemRect.TopLeft(),
PixelCastJustification::LayerIsImage));
MOZ_DIAGNOSTIC_ASSERT(
mManager->WrBridge()->MatchesNamespace(maskData->mBlobKey.ref()),
"Stale blob key for mask!");
wr::ImageMask imageMask;
imageMask.image = wr::AsImageKey(maskData->mBlobKey.value());
imageMask.rect = wr::ToLayoutRect(imageRect);
return Some(imageMask);
}
bool WebRenderCommandBuilder::PushItemAsImage(
nsDisplayItem* aItem, wr::DisplayListBuilder& aBuilder,
wr::IpcResourceUpdateQueue& aResources, const StackingContextHelper& aSc,
nsDisplayListBuilder* aDisplayListBuilder) {
LayoutDeviceRect imageRect;
RefPtr<WebRenderFallbackData> fallbackData = GenerateFallbackData(
aItem, aBuilder, aResources, aSc, aDisplayListBuilder, imageRect);
if (!fallbackData) {
return false;
}
wr::LayoutRect dest = wr::ToLayoutRect(imageRect);
auto rendering = wr::ToImageRendering(aItem->Frame()->UsedImageRendering());
aBuilder.PushImage(dest, dest, !aItem->BackfaceIsHidden(), false, rendering,
fallbackData->GetImageKey().value());
return true;
}
void WebRenderCommandBuilder::RemoveUnusedAndResetWebRenderUserData() {
mWebRenderUserDatas.RemoveIf([&](WebRenderUserData* data) {
if (!data->IsUsed()) {
nsIFrame* frame = data->GetFrame();
MOZ_ASSERT(frame->HasProperty(WebRenderUserDataProperty::Key()));
WebRenderUserDataTable* userDataTable =
frame->GetProperty(WebRenderUserDataProperty::Key());
MOZ_ASSERT(userDataTable->Count());
userDataTable->Remove(
WebRenderUserDataKey(data->GetDisplayItemKey(), data->GetType()));
if (!userDataTable->Count()) {
frame->RemoveProperty(WebRenderUserDataProperty::Key());
userDataTable = nullptr;
}
switch (data->GetType()) {
case WebRenderUserData::UserDataType::eCanvas:
mLastCanvasDatas.Remove(data->AsCanvasData());
break;
case WebRenderUserData::UserDataType::eAnimation:
EffectCompositor::ClearIsRunningOnCompositor(
frame, GetDisplayItemTypeFromKey(data->GetDisplayItemKey()));
break;
default:
break;
}
return true;
}
data->SetUsed(false);
return false;
});
}
void WebRenderCommandBuilder::ClearCachedResources() {
RemoveUnusedAndResetWebRenderUserData();
// UserDatas should only be in the used state during a call to
// WebRenderCommandBuilder::BuildWebRenderCommands The should always be false
// upon return from BuildWebRenderCommands().
MOZ_RELEASE_ASSERT(mWebRenderUserDatas.Count() == 0);
}
WebRenderGroupData::WebRenderGroupData(
RenderRootStateManager* aRenderRootStateManager, nsDisplayItem* aItem)
: WebRenderUserData(aRenderRootStateManager, aItem) {
MOZ_COUNT_CTOR(WebRenderGroupData);
}
WebRenderGroupData::~WebRenderGroupData() {
MOZ_COUNT_DTOR(WebRenderGroupData);
GP("Group data destruct\n");
mSubGroup.ClearImageKey(mManager, true);
mFollowingGroup.ClearImageKey(mManager, true);
}
} // namespace layers
} // namespace mozilla
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