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/*
* Copyright (C) 2016 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "IntersectionObserver.h"
#include "CSSParserTokenRange.h"
#include "CSSPropertyParserHelpers.h"
#include "CSSTokenizer.h"
#include "DOMWindow.h"
#include "Element.h"
#include "InspectorInstrumentation.h"
#include "IntersectionObserverCallback.h"
#include "IntersectionObserverEntry.h"
#include "Performance.h"
#include <JavaScriptCore/AbstractSlotVisitorInlines.h>
#include <wtf/Vector.h>
namespace WebCore {
static ExceptionOr<LengthBox> parseRootMargin(String& rootMargin)
{
CSSTokenizer tokenizer(rootMargin);
auto tokenRange = tokenizer.tokenRange();
Vector<Length, 4> margins;
while (!tokenRange.atEnd()) {
if (margins.size() == 4)
return Exception { SyntaxError, "Failed to construct 'IntersectionObserver': Extra text found at the end of rootMargin." };
RefPtr<CSSPrimitiveValue> parsedValue = CSSPropertyParserHelpers::consumeLengthOrPercent(tokenRange, HTMLStandardMode, ValueRange::All);
if (!parsedValue || parsedValue->isCalculated())
return Exception { SyntaxError, "Failed to construct 'IntersectionObserver': rootMargin must be specified in pixels or percent." };
if (parsedValue->isPercentage())
margins.append(Length(parsedValue->doubleValue(), LengthType::Percent));
else if (parsedValue->isPx())
margins.append(Length(parsedValue->intValue(), LengthType::Fixed));
else
return Exception { SyntaxError, "Failed to construct 'IntersectionObserver': rootMargin must be specified in pixels or percent." };
}
switch (margins.size()) {
case 0:
for (unsigned i = 0; i < 4; ++i)
margins.append(Length(0, LengthType::Fixed));
break;
case 1:
for (unsigned i = 0; i < 3; ++i)
margins.append(margins[0]);
break;
case 2:
margins.append(margins[0]);
margins.append(margins[1]);
break;
case 3:
margins.append(margins[1]);
break;
case 4:
break;
default:
ASSERT_NOT_REACHED();
}
return LengthBox(WTFMove(margins[0]), WTFMove(margins[1]), WTFMove(margins[2]), WTFMove(margins[3]));
}
ExceptionOr<Ref<IntersectionObserver>> IntersectionObserver::create(Document& document, Ref<IntersectionObserverCallback>&& callback, IntersectionObserver::Init&& init)
{
RefPtr<ContainerNode> root;
if (init.root) {
WTF::switchOn(*init.root, [&root] (RefPtr<Element> element) {
root = element.get();
}, [&root] (RefPtr<Document> document) {
root = document.get();
});
}
auto rootMarginOrException = parseRootMargin(init.rootMargin);
if (rootMarginOrException.hasException())
return rootMarginOrException.releaseException();
Vector<double> thresholds;
WTF::switchOn(init.threshold, [&thresholds] (double initThreshold) {
thresholds.reserveInitialCapacity(1);
thresholds.uncheckedAppend(initThreshold);
}, [&thresholds] (Vector<double>& initThresholds) {
thresholds = WTFMove(initThresholds);
});
for (auto threshold : thresholds) {
if (!(threshold >= 0 && threshold <= 1))
return Exception { RangeError, "Failed to construct 'IntersectionObserver': all thresholds must lie in the range [0.0, 1.0]." };
}
return adoptRef(*new IntersectionObserver(document, WTFMove(callback), root.get(), rootMarginOrException.releaseReturnValue(), WTFMove(thresholds)));
}
IntersectionObserver::IntersectionObserver(Document& document, Ref<IntersectionObserverCallback>&& callback, ContainerNode* root, LengthBox&& parsedRootMargin, Vector<double>&& thresholds)
: m_root(root)
, m_rootMargin(WTFMove(parsedRootMargin))
, m_thresholds(WTFMove(thresholds))
, m_callback(WTFMove(callback))
{
if (is<Document>(root)) {
auto& observerData = downcast<Document>(*root).ensureIntersectionObserverData();
observerData.observers.append(*this);
} else if (root) {
auto& observerData = downcast<Element>(*root).ensureIntersectionObserverData();
observerData.observers.append(*this);
} else if (auto* frame = document.frame())
m_implicitRootDocument = frame->mainFrame().document();
std::sort(m_thresholds.begin(), m_thresholds.end());
}
IntersectionObserver::~IntersectionObserver()
{
RefPtr root = m_root.get();
if (is<Document>(root))
downcast<Document>(*root).intersectionObserverDataIfExists()->observers.removeFirst(this);
else if (root)
downcast<Element>(*root).intersectionObserverDataIfExists()->observers.removeFirst(this);
disconnect();
}
String IntersectionObserver::rootMargin() const
{
StringBuilder stringBuilder;
for (auto side : allBoxSides) {
auto& length = m_rootMargin.at(side);
stringBuilder.append(length.intValue(), length.isPercent() ? "%" : "px", side != BoxSide::Left ? " " : "");
}
return stringBuilder.toString();
}
bool IntersectionObserver::isObserving(const Element& element) const
{
return m_observationTargets.findMatching([&](auto& target) {
return target.get() == &element;
}) != notFound;
}
void IntersectionObserver::observe(Element& target)
{
if (!trackingDocument() || !m_callback || isObserving(target))
return;
target.ensureIntersectionObserverData().registrations.append({ *this, std::nullopt });
bool hadObservationTargets = hasObservationTargets();
m_observationTargets.append(target);
// Per the specification, we should dispatch at least one observation for the target. For this reason, we make sure to keep the
// target alive until this first observation. This, in turn, will keep the IntersectionObserver's JS wrapper alive via
// isReachableFromOpaqueRoots(), so the callback stays alive.
m_targetsWaitingForFirstObservation.append(target);
auto* document = trackingDocument();
if (!hadObservationTargets)
document->addIntersectionObserver(*this);
document->scheduleInitialIntersectionObservationUpdate();
}
void IntersectionObserver::unobserve(Element& target)
{
if (!removeTargetRegistration(target))
return;
bool removed = m_observationTargets.removeFirst(&target);
ASSERT_UNUSED(removed, removed);
m_targetsWaitingForFirstObservation.removeFirstMatching([&](auto& pendingTarget) { return pendingTarget.ptr() == &target; });
if (!hasObservationTargets()) {
if (auto* document = trackingDocument())
document->removeIntersectionObserver(*this);
}
}
void IntersectionObserver::disconnect()
{
if (!hasObservationTargets())
return;
removeAllTargets();
if (auto* document = trackingDocument())
document->removeIntersectionObserver(*this);
}
auto IntersectionObserver::takeRecords() -> TakenRecords
{
return { WTFMove(m_queuedEntries), WTFMove(m_pendingTargets) };
}
void IntersectionObserver::targetDestroyed(Element& target)
{
m_observationTargets.removeFirst(&target);
m_targetsWaitingForFirstObservation.removeFirstMatching([&](auto& pendingTarget) { return pendingTarget.ptr() == &target; });
if (!hasObservationTargets()) {
if (auto* document = trackingDocument())
document->removeIntersectionObserver(*this);
}
}
bool IntersectionObserver::removeTargetRegistration(Element& target)
{
auto* observerData = target.intersectionObserverDataIfExists();
if (!observerData)
return false;
auto& registrations = observerData->registrations;
return registrations.removeFirstMatching([this](auto& registration) {
return registration.observer.get() == this;
});
}
void IntersectionObserver::removeAllTargets()
{
for (auto& target : m_observationTargets) {
bool removed = removeTargetRegistration(*target);
ASSERT_UNUSED(removed, removed);
}
m_observationTargets.clear();
m_targetsWaitingForFirstObservation.clear();
}
void IntersectionObserver::rootDestroyed()
{
ASSERT(m_root);
disconnect();
m_root = nullptr;
}
std::optional<ReducedResolutionSeconds> IntersectionObserver::nowTimestamp() const
{
if (!m_callback)
return std::nullopt;
auto* context = m_callback->scriptExecutionContext();
if (!context)
return std::nullopt;
ASSERT(context->isDocument());
auto& document = downcast<Document>(*context);
if (auto* window = document.domWindow())
return window->frozenNowTimestamp();
return std::nullopt;
}
void IntersectionObserver::appendQueuedEntry(Ref<IntersectionObserverEntry>&& entry)
{
ASSERT(entry->target());
m_pendingTargets.append(*entry->target());
m_queuedEntries.append(WTFMove(entry));
}
void IntersectionObserver::notify()
{
if (m_queuedEntries.isEmpty()) {
ASSERT(m_pendingTargets.isEmpty());
return;
}
auto takenRecords = takeRecords();
auto targetsWaitingForFirstObservation = std::exchange(m_targetsWaitingForFirstObservation, { });
// FIXME: The JSIntersectionObserver wrapper should be kept alive as long as the intersection observer can fire events.
ASSERT(m_callback->hasCallback());
if (!m_callback->hasCallback())
return;
auto* context = m_callback->scriptExecutionContext();
if (!context)
return;
InspectorInstrumentation::willFireObserverCallback(*context, "IntersectionObserver"_s);
m_callback->handleEvent(*this, WTFMove(takenRecords.records), *this);
InspectorInstrumentation::didFireObserverCallback(*context);
}
bool IntersectionObserver::isReachableFromOpaqueRoots(JSC::AbstractSlotVisitor& visitor) const
{
for (auto& target : m_observationTargets) {
if (auto* element = target.get(); element && visitor.containsOpaqueRoot(element->opaqueRoot()))
return true;
}
for (auto& target : m_pendingTargets) {
if (visitor.containsOpaqueRoot(target->opaqueRoot()))
return true;
}
return !m_targetsWaitingForFirstObservation.isEmpty();
}
} // namespace WebCore