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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "mozilla/dom/ResizeObserver.h"
#include "mozilla/dom/DOMRect.h"
#include "mozilla/dom/Document.h"
#include "mozilla/SVGUtils.h"
#include "nsIContent.h"
#include "nsIContentInlines.h"
#include "nsIScrollableFrame.h"
#include "nsLayoutUtils.h"
#include <limits>
namespace mozilla::dom {
/**
* Returns the length of the parent-traversal path (in terms of the number of
* nodes) to an unparented/root node from aNode. An unparented/root node is
* considered to have a depth of 1, its children have a depth of 2, etc.
* aNode is expected to be non-null.
* Note: The shadow root is not part of the calculation because the caller,
* ResizeObserver, doesn't observe the shadow root, and only needs relative
* depths among all the observed targets. In other words, we calculate the
* depth of the flattened tree.
*
* However, these is a spec issue about how to handle shadow DOM case. We
* may need to update this function later:
* https://github.com/w3c/csswg-drafts/issues/3840
*
* https://drafts.csswg.org/resize-observer/#calculate-depth-for-node-h
*/
static uint32_t GetNodeDepth(nsINode* aNode) {
uint32_t depth = 1;
MOZ_ASSERT(aNode, "Node shouldn't be null");
// Use GetFlattenedTreeParentNode to bypass the shadow root and cross the
// shadow boundary to calculate the node depth without the shadow root.
while ((aNode = aNode->GetFlattenedTreeParentNode())) {
++depth;
}
return depth;
}
static nsSize GetContentRectSize(const nsIFrame& aFrame) {
if (const nsIScrollableFrame* f = do_QueryFrame(&aFrame)) {
// We return the scrollport rect for compat with other UAs, see bug 1733042.
// But the scrollPort includes padding (but not border!), so remove it.
nsRect scrollPort = f->GetScrollPortRect();
nsMargin padding =
aFrame.GetUsedPadding().ApplySkipSides(aFrame.GetSkipSides());
scrollPort.Deflate(padding);
// This can break in some edge cases like when layout overflows sizes or
// what not.
NS_ASSERTION(
!aFrame.PresContext()->UseOverlayScrollbars() ||
scrollPort.Size() == aFrame.GetContentRectRelativeToSelf().Size(),
"Wrong scrollport?");
return scrollPort.Size();
}
return aFrame.GetContentRectRelativeToSelf().Size();
}
AutoTArray<LogicalPixelSize, 1> ResizeObserver::CalculateBoxSize(
Element* aTarget, ResizeObserverBoxOptions aBox,
bool aForceFragmentHandling) {
nsIFrame* frame = aTarget->GetPrimaryFrame();
if (!frame) {
// TODO: Should this return an empty array instead?
// https://github.com/w3c/csswg-drafts/issues/7734
return {LogicalPixelSize()};
}
if (frame->HasAnyStateBits(NS_FRAME_SVG_LAYOUT)) {
// Per the spec, this target's SVG size is always its bounding box size no
// matter what box option you choose, because SVG elements do not use
// standard CSS box model.
// TODO: what if the SVG is fragmented?
// https://github.com/w3c/csswg-drafts/issues/7736
const gfxRect bbox = SVGUtils::GetBBox(frame);
gfx::Size size(static_cast<float>(bbox.width),
static_cast<float>(bbox.height));
const WritingMode wm = frame->GetWritingMode();
if (aBox == ResizeObserverBoxOptions::Device_pixel_content_box) {
// Per spec, we calculate the inline/block sizes to target’s bounding box
// {inline|block} length, in integral device pixels, so we round the final
// result.
// https://drafts.csswg.org/resize-observer/#dom-resizeobserverboxoptions-device-pixel-content-box
const LayoutDeviceIntSize snappedSize =
RoundedToInt(CSSSize::FromUnknownSize(size) *
frame->PresContext()->CSSToDevPixelScale());
return {LogicalPixelSize(wm, gfx::Size(snappedSize.ToUnknownSize()))};
}
return {LogicalPixelSize(wm, size)};
}
// Per the spec, non-replaced inline Elements will always have an empty
// content rect. Therefore, we always use the same trivially-empty size
// for non-replaced inline elements here, and their IsActive() will
// always return false. (So its observation won't be fired.)
// TODO: Should we use an empty array instead?
// https://github.com/w3c/csswg-drafts/issues/7734
if (!frame->IsReplaced() && frame->IsLineParticipant()) {
return {LogicalPixelSize()};
}
auto GetFrameSize = [aBox](nsIFrame* aFrame) {
switch (aBox) {
case ResizeObserverBoxOptions::Border_box:
return CSSPixel::FromAppUnits(aFrame->GetSize()).ToUnknownSize();
case ResizeObserverBoxOptions::Device_pixel_content_box: {
// Simply converting from app units to device units is insufficient - we
// need to take subpixel snapping into account. Subpixel snapping
// happens with respect to the reference frame, so do the dev pixel
// conversion with our rectangle positioned relative to the reference
// frame, then get the size from there.
const auto* referenceFrame = nsLayoutUtils::GetReferenceFrame(aFrame);
// GetOffsetToCrossDoc version handles <iframe>s in addition to normal
// cases. We don't expect this to tight loop for additional checks to
// matter.
const auto offset = aFrame->GetOffsetToCrossDoc(referenceFrame);
const auto contentSize = GetContentRectSize(*aFrame);
// Casting to double here is deliberate to minimize rounding error in
// upcoming operations.
const auto appUnitsPerDevPixel =
static_cast<double>(aFrame->PresContext()->AppUnitsPerDevPixel());
// Calculation here is a greatly simplified version of
// `NSRectToSnappedRect` as 1) we're not actually drawing (i.e. no draw
// target), and 2) transform does not need to be taken into account.
gfx::Rect rect{gfx::Float(offset.X() / appUnitsPerDevPixel),
gfx::Float(offset.Y() / appUnitsPerDevPixel),
gfx::Float(contentSize.Width() / appUnitsPerDevPixel),
gfx::Float(contentSize.Height() / appUnitsPerDevPixel)};
gfx::Point tl = rect.TopLeft().Round();
gfx::Point br = rect.BottomRight().Round();
rect.SizeTo(gfx::Size(br.x - tl.x, br.y - tl.y));
rect.NudgeToIntegers();
return rect.Size().ToUnknownSize();
}
case ResizeObserverBoxOptions::Content_box:
default:
break;
}
return CSSPixel::FromAppUnits(GetContentRectSize(*aFrame)).ToUnknownSize();
};
if (!StaticPrefs::dom_resize_observer_support_fragments() &&
!aForceFragmentHandling) {
return {LogicalPixelSize(frame->GetWritingMode(), GetFrameSize(frame))};
}
AutoTArray<LogicalPixelSize, 1> size;
for (nsIFrame* cur = frame; cur; cur = cur->GetNextContinuation()) {
const WritingMode wm = cur->GetWritingMode();
size.AppendElement(LogicalPixelSize(wm, GetFrameSize(cur)));
}
return size;
}
NS_IMPL_CYCLE_COLLECTION_CLASS(ResizeObservation)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(ResizeObservation)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mTarget);
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END
NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(ResizeObservation)
tmp->Unlink(RemoveFromObserver::Yes);
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
ResizeObservation::ResizeObservation(Element& aTarget,
ResizeObserver& aObserver,
ResizeObserverBoxOptions aBox)
: mTarget(&aTarget),
mObserver(&aObserver),
mObservedBox(aBox),
mLastReportedSize({LogicalPixelSize(WritingMode(), gfx::Size(-1, -1))}) {
aTarget.BindObject(mObserver);
}
void ResizeObservation::Unlink(RemoveFromObserver aRemoveFromObserver) {
ResizeObserver* observer = std::exchange(mObserver, nullptr);
nsCOMPtr<Element> target = std::move(mTarget);
if (observer && target) {
if (aRemoveFromObserver == RemoveFromObserver::Yes) {
observer->Unobserve(*target);
}
target->UnbindObject(observer);
}
}
bool ResizeObservation::IsActive() const {
// As detailed in the css-contain specification, if the target is hidden by
// `content-visibility` it should not call its ResizeObservation callbacks.
nsIFrame* frame = mTarget->GetPrimaryFrame();
if (frame && frame->IsHiddenByContentVisibilityOnAnyAncestor()) {
return false;
}
return mLastReportedSize !=
ResizeObserver::CalculateBoxSize(mTarget, mObservedBox);
}
void ResizeObservation::UpdateLastReportedSize(
const nsTArray<LogicalPixelSize>& aSize) {
mLastReportedSize.Assign(aSize);
}
// Only needed for refcounted objects.
NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE_CLASS(ResizeObserver)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(ResizeObserver)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mOwner, mDocument, mCallback,
mActiveTargets, mObservationMap);
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END
NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(ResizeObserver)
tmp->Disconnect();
NS_IMPL_CYCLE_COLLECTION_UNLINK(mOwner, mDocument, mCallback, mActiveTargets,
mObservationMap);
NS_IMPL_CYCLE_COLLECTION_UNLINK_PRESERVED_WRAPPER
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
NS_IMPL_CYCLE_COLLECTING_ADDREF(ResizeObserver)
NS_IMPL_CYCLE_COLLECTING_RELEASE(ResizeObserver)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(ResizeObserver)
NS_WRAPPERCACHE_INTERFACE_MAP_ENTRY
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END
already_AddRefed<ResizeObserver> ResizeObserver::Constructor(
const GlobalObject& aGlobal, ResizeObserverCallback& aCb,
ErrorResult& aRv) {
nsCOMPtr<nsPIDOMWindowInner> window =
do_QueryInterface(aGlobal.GetAsSupports());
if (!window) {
aRv.Throw(NS_ERROR_FAILURE);
return nullptr;
}
Document* doc = window->GetExtantDoc();
if (!doc) {
aRv.Throw(NS_ERROR_FAILURE);
return nullptr;
}
return do_AddRef(new ResizeObserver(std::move(window), doc, aCb));
}
void ResizeObserver::Observe(Element& aTarget,
const ResizeObserverOptions& aOptions) {
if (MOZ_UNLIKELY(!mDocument)) {
MOZ_ASSERT_UNREACHABLE("How did we call observe() after unlink?");
return;
}
// NOTE(emilio): Per spec, this is supposed to happen on construction, but the
// spec isn't particularly sane here, see
// https://github.com/w3c/csswg-drafts/issues/4518
if (mObservationList.isEmpty()) {
MOZ_ASSERT(mObservationMap.IsEmpty());
mDocument->AddResizeObserver(*this);
}
auto& observation = mObservationMap.LookupOrInsert(&aTarget);
if (observation) {
if (observation->BoxOptions() == aOptions.mBox) {
// Already observed this target and the observed box is the same, so
// return.
// Note: Based on the spec, we should unobserve it first. However,
// calling Unobserve() when we observe the same box will remove original
// ResizeObservation and then add a new one, this may cause an unexpected
// result because ResizeObservation stores the mLastReportedSize which
// should be kept to make sure IsActive() returns the correct result.
return;
}
// Remove the pre-existing entry, but without unregistering ourselves from
// the controller.
observation->remove();
observation = nullptr;
}
observation = new ResizeObservation(aTarget, *this, aOptions.mBox);
mObservationList.insertBack(observation);
// Per the spec, we need to trigger notification in event loop that
// contains ResizeObserver observe call even when resize/reflow does
// not happen.
mDocument->ScheduleResizeObserversNotification();
}
void ResizeObserver::Unobserve(Element& aTarget) {
RefPtr<ResizeObservation> observation;
if (!mObservationMap.Remove(&aTarget, getter_AddRefs(observation))) {
return;
}
MOZ_ASSERT(!mObservationList.isEmpty(),
"If ResizeObservation found for an element, observation list "
"must be not empty.");
observation->remove();
if (mObservationList.isEmpty()) {
if (MOZ_LIKELY(mDocument)) {
mDocument->RemoveResizeObserver(*this);
}
}
}
void ResizeObserver::Disconnect() {
const bool registered = !mObservationList.isEmpty();
while (auto* observation = mObservationList.popFirst()) {
observation->Unlink(ResizeObservation::RemoveFromObserver::No);
}
MOZ_ASSERT(mObservationList.isEmpty());
mObservationMap.Clear();
mActiveTargets.Clear();
if (registered && MOZ_LIKELY(mDocument)) {
mDocument->RemoveResizeObserver(*this);
}
}
void ResizeObserver::GatherActiveObservations(uint32_t aDepth) {
mActiveTargets.Clear();
mHasSkippedTargets = false;
for (auto* observation : mObservationList) {
if (!observation->IsActive()) {
continue;
}
uint32_t targetDepth = GetNodeDepth(observation->Target());
if (targetDepth > aDepth) {
mActiveTargets.AppendElement(observation);
} else {
mHasSkippedTargets = true;
}
}
}
uint32_t ResizeObserver::BroadcastActiveObservations() {
uint32_t shallowestTargetDepth = std::numeric_limits<uint32_t>::max();
if (!HasActiveObservations()) {
return shallowestTargetDepth;
}
Sequence<OwningNonNull<ResizeObserverEntry>> entries;
for (auto& observation : mActiveTargets) {
Element* target = observation->Target();
auto borderBoxSize = ResizeObserver::CalculateBoxSize(
target, ResizeObserverBoxOptions::Border_box);
auto contentBoxSize = ResizeObserver::CalculateBoxSize(
target, ResizeObserverBoxOptions::Content_box);
auto devicePixelContentBoxSize = ResizeObserver::CalculateBoxSize(
target, ResizeObserverBoxOptions::Device_pixel_content_box);
RefPtr<ResizeObserverEntry> entry =
new ResizeObserverEntry(mOwner, *target, borderBoxSize, contentBoxSize,
devicePixelContentBoxSize);
if (!entries.AppendElement(entry.forget(), fallible)) {
// Out of memory.
break;
}
// Sync the broadcast size of observation so the next size inspection
// will be based on the updated size from last delivered observations.
switch (observation->BoxOptions()) {
case ResizeObserverBoxOptions::Border_box:
observation->UpdateLastReportedSize(borderBoxSize);
break;
case ResizeObserverBoxOptions::Device_pixel_content_box:
observation->UpdateLastReportedSize(devicePixelContentBoxSize);
break;
case ResizeObserverBoxOptions::Content_box:
default:
observation->UpdateLastReportedSize(contentBoxSize);
}
uint32_t targetDepth = GetNodeDepth(observation->Target());
if (targetDepth < shallowestTargetDepth) {
shallowestTargetDepth = targetDepth;
}
}
RefPtr<ResizeObserverCallback> callback(mCallback);
callback->Call(this, entries, *this);
mActiveTargets.Clear();
mHasSkippedTargets = false;
return shallowestTargetDepth;
}
NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE(ResizeObserverEntry, mOwner, mTarget,
mContentRect, mBorderBoxSize,
mContentBoxSize,
mDevicePixelContentBoxSize)
NS_IMPL_CYCLE_COLLECTING_ADDREF(ResizeObserverEntry)
NS_IMPL_CYCLE_COLLECTING_RELEASE(ResizeObserverEntry)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(ResizeObserverEntry)
NS_WRAPPERCACHE_INTERFACE_MAP_ENTRY
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END
void ResizeObserverEntry::GetBorderBoxSize(
nsTArray<RefPtr<ResizeObserverSize>>& aRetVal) const {
// In the resize-observer-1 spec, there will only be a single
// ResizeObserverSize returned in the FrozenArray for now.
//
// Note: the usage of FrozenArray is to support elements that have multiple
// fragments, which occur in multi-column scenarios.
// https://drafts.csswg.org/resize-observer/#resize-observer-entry-interface
aRetVal.Assign(mBorderBoxSize);
}
void ResizeObserverEntry::GetContentBoxSize(
nsTArray<RefPtr<ResizeObserverSize>>& aRetVal) const {
// In the resize-observer-1 spec, there will only be a single
// ResizeObserverSize returned in the FrozenArray for now.
//
// Note: the usage of FrozenArray is to support elements that have multiple
// fragments, which occur in multi-column scenarios.
// https://drafts.csswg.org/resize-observer/#resize-observer-entry-interface
aRetVal.Assign(mContentBoxSize);
}
void ResizeObserverEntry::GetDevicePixelContentBoxSize(
nsTArray<RefPtr<ResizeObserverSize>>& aRetVal) const {
// In the resize-observer-1 spec, there will only be a single
// ResizeObserverSize returned in the FrozenArray for now.
//
// Note: the usage of FrozenArray is to support elements that have multiple
// fragments, which occur in multi-column scenarios.
// https://drafts.csswg.org/resize-observer/#resize-observer-entry-interface
aRetVal.Assign(mDevicePixelContentBoxSize);
}
void ResizeObserverEntry::SetBorderBoxSize(
const nsTArray<LogicalPixelSize>& aSize) {
mBorderBoxSize.Clear();
mBorderBoxSize.SetCapacity(aSize.Length());
for (const LogicalPixelSize& size : aSize) {
mBorderBoxSize.AppendElement(new ResizeObserverSize(mOwner, size));
}
}
void ResizeObserverEntry::SetContentRectAndSize(
const nsTArray<LogicalPixelSize>& aSize) {
nsIFrame* frame = mTarget->GetPrimaryFrame();
// 1. Update mContentRect.
nsMargin padding = frame ? frame->GetUsedPadding() : nsMargin();
// Per the spec, we need to use the top-left padding offset as the origin of
// our contentRect.
gfx::Size sizeForRect;
MOZ_DIAGNOSTIC_ASSERT(!aSize.IsEmpty());
if (!aSize.IsEmpty()) {
const WritingMode wm = frame ? frame->GetWritingMode() : WritingMode();
sizeForRect = aSize[0].PhysicalSize(wm);
}
nsRect rect(nsPoint(padding.left, padding.top),
CSSPixel::ToAppUnits(CSSSize::FromUnknownSize(sizeForRect)));
RefPtr<DOMRect> contentRect = new DOMRect(mOwner);
contentRect->SetLayoutRect(rect);
mContentRect = std::move(contentRect);
// 2. Update mContentBoxSize.
mContentBoxSize.Clear();
mContentBoxSize.SetCapacity(aSize.Length());
for (const LogicalPixelSize& size : aSize) {
mContentBoxSize.AppendElement(new ResizeObserverSize(mOwner, size));
}
}
void ResizeObserverEntry::SetDevicePixelContentSize(
const nsTArray<LogicalPixelSize>& aSize) {
mDevicePixelContentBoxSize.Clear();
mDevicePixelContentBoxSize.SetCapacity(aSize.Length());
for (const LogicalPixelSize& size : aSize) {
mDevicePixelContentBoxSize.AppendElement(
new ResizeObserverSize(mOwner, size));
}
}
NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE(ResizeObserverSize, mOwner)
NS_IMPL_CYCLE_COLLECTING_ADDREF(ResizeObserverSize)
NS_IMPL_CYCLE_COLLECTING_RELEASE(ResizeObserverSize)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(ResizeObserverSize)
NS_WRAPPERCACHE_INTERFACE_MAP_ENTRY
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END
} // namespace mozilla::dom
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