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chromium / chromium / src / e1504c1965e9ee3f757bda6f8b357781b66fbf22 / . / third_party / WebKit / Source / core / testing / Internals.cpp
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/*
* Copyright (C) 2012 Google Inc. All rights reserved.
* Copyright (C) 2013 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 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 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;
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* (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 "core/testing/Internals.h"
#include "bindings/core/v8/ExceptionMessages.h"
#include "bindings/core/v8/ExceptionState.h"
#include "bindings/core/v8/ScriptFunction.h"
#include "bindings/core/v8/ScriptPromise.h"
#include "bindings/core/v8/ScriptPromiseResolver.h"
#include "bindings/core/v8/SerializedScriptValue.h"
#include "bindings/core/v8/SerializedScriptValueFactory.h"
#include "bindings/core/v8/V8IteratorResultValue.h"
#include "bindings/core/v8/V8ThrowException.h"
#include "core/HTMLNames.h"
#include "core/SVGNames.h"
#include "core/animation/AnimationTimeline.h"
#include "core/css/StyleSheetContents.h"
#include "core/css/resolver/StyleResolver.h"
#include "core/css/resolver/StyleResolverStats.h"
#include "core/css/resolver/ViewportStyleResolver.h"
#include "core/dom/ClientRect.h"
#include "core/dom/ClientRectList.h"
#include "core/dom/DOMArrayBuffer.h"
#include "core/dom/DOMNodeIds.h"
#include "core/dom/DOMPoint.h"
#include "core/dom/DOMStringList.h"
#include "core/dom/Document.h"
#include "core/dom/Element.h"
#include "core/dom/ExceptionCode.h"
#include "core/dom/Iterator.h"
#include "core/dom/NodeComputedStyle.h"
#include "core/dom/PseudoElement.h"
#include "core/dom/Range.h"
#include "core/dom/StaticNodeList.h"
#include "core/dom/StyleEngine.h"
#include "core/dom/TreeScope.h"
#include "core/dom/ViewportDescription.h"
#include "core/dom/shadow/ElementShadow.h"
#include "core/dom/shadow/FlatTreeTraversal.h"
#include "core/dom/shadow/SelectRuleFeatureSet.h"
#include "core/dom/shadow/ShadowRoot.h"
#include "core/editing/Editor.h"
#include "core/editing/PlainTextRange.h"
#include "core/editing/SurroundingText.h"
#include "core/editing/iterators/TextIterator.h"
#include "core/editing/markers/DocumentMarker.h"
#include "core/editing/markers/DocumentMarkerController.h"
#include "core/editing/serializers/Serialization.h"
#include "core/editing/spellcheck/SpellCheckRequester.h"
#include "core/editing/spellcheck/SpellChecker.h"
#include "core/fetch/MemoryCache.h"
#include "core/fetch/ResourceFetcher.h"
#include "core/frame/EventHandlerRegistry.h"
#include "core/frame/FrameConsole.h"
#include "core/frame/FrameView.h"
#include "core/frame/LocalDOMWindow.h"
#include "core/frame/LocalFrame.h"
#include "core/frame/Settings.h"
#include "core/html/HTMLContentElement.h"
#include "core/html/HTMLIFrameElement.h"
#include "core/html/HTMLImageElement.h"
#include "core/html/HTMLInputElement.h"
#include "core/html/HTMLMediaElement.h"
#include "core/html/HTMLSelectElement.h"
#include "core/html/HTMLTextAreaElement.h"
#include "core/html/canvas/CanvasFontCache.h"
#include "core/html/canvas/CanvasRenderingContext.h"
#include "core/html/forms/FormController.h"
#include "core/html/shadow/ShadowElementNames.h"
#include "core/html/shadow/TextControlInnerElements.h"
#include "core/input/EventHandler.h"
#include "core/inspector/ConsoleMessageStorage.h"
#include "core/inspector/InspectorConsoleAgent.h"
#include "core/inspector/InspectorInstrumentation.h"
#include "core/inspector/InstanceCounters.h"
#include "core/inspector/InstrumentingAgents.h"
#include "core/layout/LayoutMenuList.h"
#include "core/layout/LayoutObject.h"
#include "core/layout/LayoutTreeAsText.h"
#include "core/layout/LayoutView.h"
#include "core/layout/api/LayoutMenuListItem.h"
#include "core/layout/compositing/CompositedLayerMapping.h"
#include "core/layout/compositing/PaintLayerCompositor.h"
#include "core/loader/DocumentLoader.h"
#include "core/loader/FrameLoader.h"
#include "core/loader/HistoryItem.h"
#include "core/page/ChromeClient.h"
#include "core/page/FocusController.h"
#include "core/page/NetworkStateNotifier.h"
#include "core/page/Page.h"
#include "core/page/PrintContext.h"
#include "core/page/scrolling/ScrollState.h"
#include "core/paint/PaintLayer.h"
#include "core/svg/SVGImageElement.h"
#include "core/testing/DictionaryTest.h"
#include "core/testing/GCObservation.h"
#include "core/testing/InternalRuntimeFlags.h"
#include "core/testing/InternalSettings.h"
#include "core/testing/LayerRect.h"
#include "core/testing/LayerRectList.h"
#include "core/testing/PrivateScriptTest.h"
#include "core/testing/TypeConversions.h"
#include "core/testing/UnionTypesTest.h"
#include "core/workers/WorkerThread.h"
#include "gpu/command_buffer/client/gles2_interface.h"
#include "platform/Cursor.h"
#include "platform/Language.h"
#include "platform/PlatformKeyboardEvent.h"
#include "platform/RuntimeEnabledFeatures.h"
#include "platform/TraceEvent.h"
#include "platform/geometry/IntRect.h"
#include "platform/geometry/LayoutRect.h"
#include "platform/graphics/GraphicsLayer.h"
#include "platform/heap/Handle.h"
#include "platform/inspector_protocol/FrontendChannel.h"
#include "platform/scroll/ProgrammaticScrollAnimator.h"
#include "platform/weborigin/SchemeRegistry.h"
#include "public/platform/Platform.h"
#include "public/platform/WebConnectionType.h"
#include "public/platform/WebGraphicsContext3D.h"
#include "public/platform/WebGraphicsContext3DProvider.h"
#include "public/platform/WebLayer.h"
#include "wtf/InstanceCounter.h"
#include "wtf/PassOwnPtr.h"
#include "wtf/dtoa.h"
#include "wtf/text/StringBuffer.h"
#include <deque>
#include <v8.h>
namespace blink {
namespace {
class InternalsIterationSource final : public ValueIterable<int>::IterationSource {
public:
bool next(ScriptState* scriptState, int& value, ExceptionState& exceptionState) override
{
if (m_index >= 5)
return false;
value = m_index * m_index;
return true;
}
};
} // namespace
static bool markerTypesFrom(const String& markerType, DocumentMarker::MarkerTypes& result)
{
if (markerType.isEmpty() || equalIgnoringCase(markerType, "all"))
result = DocumentMarker::AllMarkers();
else if (equalIgnoringCase(markerType, "Spelling"))
result = DocumentMarker::Spelling;
else if (equalIgnoringCase(markerType, "Grammar"))
result = DocumentMarker::Grammar;
else if (equalIgnoringCase(markerType, "TextMatch"))
result = DocumentMarker::TextMatch;
else
return false;
return true;
}
static SpellCheckRequester* spellCheckRequester(Document* document)
{
if (!document || !document->frame())
return 0;
return &document->frame()->spellChecker().spellCheckRequester();
}
static ScrollableArea* scrollableAreaForNode(Node* node)
{
if (!node)
return nullptr;
if (node->isDocumentNode()) {
// This can be removed after root layer scrolling is enabled.
if (FrameView* frameView = toDocument(node)->view())
return frameView->layoutViewportScrollableArea();
}
LayoutObject* layoutObject = node->layoutObject();
if (!layoutObject || !layoutObject->isBox())
return nullptr;
return toLayoutBox(layoutObject)->getScrollableArea();
}
const char* Internals::internalsId = "internals";
Internals* Internals::create(ScriptState* scriptState)
{
return new Internals(scriptState);
}
Internals::~Internals()
{
}
static RuntimeEnabledFeatures::Backup* sFeaturesBackup = nullptr;
void Internals::resetToConsistentState(Page* page)
{
ASSERT(page);
if (!sFeaturesBackup)
sFeaturesBackup = new RuntimeEnabledFeatures::Backup;
sFeaturesBackup->restore();
page->setIsCursorVisible(true);
page->setPageScaleFactor(1);
page->deprecatedLocalMainFrame()->view()->layoutViewportScrollableArea()->setScrollPosition(IntPoint(0, 0), ProgrammaticScroll);
overrideUserPreferredLanguages(Vector<AtomicString>());
if (!page->deprecatedLocalMainFrame()->spellChecker().isContinuousSpellCheckingEnabled())
page->deprecatedLocalMainFrame()->spellChecker().toggleContinuousSpellChecking();
if (page->deprecatedLocalMainFrame()->editor().isOverwriteModeEnabled())
page->deprecatedLocalMainFrame()->editor().toggleOverwriteModeEnabled();
if (ScrollingCoordinator* scrollingCoordinator = page->scrollingCoordinator())
scrollingCoordinator->reset();
page->deprecatedLocalMainFrame()->view()->clear();
PlatformKeyboardEvent::setCurrentCapsLockState(PlatformKeyboardEvent::OverrideCapsLockState::Default);
}
Internals::Internals(ScriptState* scriptState)
: ContextLifecycleObserver(scriptState->getExecutionContext())
, m_runtimeFlags(InternalRuntimeFlags::create())
{
}
Document* Internals::contextDocument() const
{
return toDocument(getExecutionContext());
}
LocalFrame* Internals::frame() const
{
if (!contextDocument())
return 0;
return contextDocument()->frame();
}
InternalSettings* Internals::settings() const
{
Document* document = contextDocument();
if (!document)
return 0;
Page* page = document->page();
if (!page)
return 0;
return InternalSettings::from(*page);
}
InternalRuntimeFlags* Internals::runtimeFlags() const
{
return m_runtimeFlags.get();
}
unsigned Internals::workerThreadCount() const
{
return WorkerThread::workerThreadCount();
}
String Internals::address(Node* node)
{
char buf[32];
sprintf(buf, "%p", node);
return String(buf);
}
GCObservation* Internals::observeGC(ScriptValue scriptValue)
{
v8::Local<v8::Value> observedValue = scriptValue.v8Value();
ASSERT(!observedValue.IsEmpty());
if (observedValue->IsNull() || observedValue->IsUndefined()) {
V8ThrowException::throwTypeError(v8::Isolate::GetCurrent(), "value to observe is null or undefined");
return nullptr;
}
return GCObservation::create(observedValue);
}
unsigned Internals::updateStyleAndReturnAffectedElementCount(ExceptionState& exceptionState) const
{
Document* document = contextDocument();
if (!document) {
exceptionState.throwDOMException(InvalidAccessError, "No context document is available.");
return 0;
}
unsigned beforeCount = document->styleEngine().styleForElementCount();
document->updateLayoutTree();
return document->styleEngine().styleForElementCount() - beforeCount;
}
unsigned Internals::needsLayoutCount(ExceptionState& exceptionState) const
{
LocalFrame* contextFrame = frame();
if (!contextFrame) {
exceptionState.throwDOMException(InvalidAccessError, "No context frame is available.");
return 0;
}
bool isPartial;
unsigned needsLayoutObjects;
unsigned totalObjects;
contextFrame->view()->countObjectsNeedingLayout(needsLayoutObjects, totalObjects, isPartial);
return needsLayoutObjects;
}
unsigned Internals::hitTestCount(Document* doc, ExceptionState& exceptionState) const
{
if (!doc) {
exceptionState.throwDOMException(InvalidAccessError, "Must supply document to check");
return 0;
}
return doc->layoutView()->hitTestCount();
}
unsigned Internals::hitTestCacheHits(Document* doc, ExceptionState& exceptionState) const
{
if (!doc) {
exceptionState.throwDOMException(InvalidAccessError, "Must supply document to check");
return 0;
}
return doc->layoutView()->hitTestCacheHits();
}
Element* Internals::elementFromPoint(Document* doc, double x, double y, bool ignoreClipping, bool allowChildFrameContent, ExceptionState& exceptionState) const
{
if (!doc) {
exceptionState.throwDOMException(InvalidAccessError, "Must supply document to check");
return 0;
}
if (!doc->layoutView())
return 0;
HitTestRequest::HitTestRequestType hitType = HitTestRequest::ReadOnly | HitTestRequest::Active;
if (ignoreClipping)
hitType |= HitTestRequest::IgnoreClipping;
if (allowChildFrameContent)
hitType |= HitTestRequest::AllowChildFrameContent;
HitTestRequest request(hitType);
return doc->hitTestPoint(x, y, request);
}
void Internals::clearHitTestCache(Document* doc, ExceptionState& exceptionState) const
{
if (!doc) {
exceptionState.throwDOMException(InvalidAccessError, "Must supply document to check");
return;
}
if (!doc->layoutView())
return;
doc->layoutView()->clearHitTestCache();
}
bool Internals::isPreloaded(const String& url)
{
return isPreloadedBy(url, contextDocument());
}
bool Internals::isPreloadedBy(const String& url, Document* document)
{
if (!document)
return false;
return document->fetcher()->isPreloaded(document->completeURL(url));
}
bool Internals::isLoadingFromMemoryCache(const String& url)
{
if (!contextDocument())
return false;
const String cacheIdentifier = contextDocument()->fetcher()->getCacheIdentifier();
Resource* resource = memoryCache()->resourceForURL(contextDocument()->completeURL(url), cacheIdentifier);
return resource && resource->getStatus() == Resource::Cached;
}
bool Internals::isSharingStyle(Element* element1, Element* element2) const
{
ASSERT(element1 && element2);
return element1->computedStyle() == element2->computedStyle();
}
bool Internals::isValidContentSelect(Element* insertionPoint, ExceptionState& exceptionState)
{
ASSERT(insertionPoint);
if (!insertionPoint->isInsertionPoint()) {
exceptionState.throwDOMException(InvalidAccessError, "The element is not an insertion point.");
return false;
}
return isHTMLContentElement(*insertionPoint) && toHTMLContentElement(*insertionPoint).isSelectValid();
}
Node* Internals::treeScopeRootNode(Node* node)
{
ASSERT(node);
return &node->treeScope().rootNode();
}
Node* Internals::parentTreeScope(Node* node)
{
ASSERT(node);
const TreeScope* parentTreeScope = node->treeScope().parentTreeScope();
return parentTreeScope ? &parentTreeScope->rootNode() : 0;
}
bool Internals::hasSelectorForIdInShadow(Element* host, const AtomicString& idValue, ExceptionState& exceptionState)
{
ASSERT(host);
if (!host->shadow()) {
exceptionState.throwDOMException(InvalidAccessError, "The host element does not have a shadow.");
return false;
}
return host->shadow()->ensureSelectFeatureSet().hasSelectorForId(idValue);
}
bool Internals::hasSelectorForClassInShadow(Element* host, const AtomicString& className, ExceptionState& exceptionState)
{
ASSERT(host);
if (!host->shadow()) {
exceptionState.throwDOMException(InvalidAccessError, "The host element does not have a shadow.");
return false;
}
return host->shadow()->ensureSelectFeatureSet().hasSelectorForClass(className);
}
bool Internals::hasSelectorForAttributeInShadow(Element* host, const AtomicString& attributeName, ExceptionState& exceptionState)
{
ASSERT(host);
if (!host->shadow()) {
exceptionState.throwDOMException(InvalidAccessError, "The host element does not have a shadow.");
return false;
}
return host->shadow()->ensureSelectFeatureSet().hasSelectorForAttribute(attributeName);
}
unsigned short Internals::compareTreeScopePosition(const Node* node1, const Node* node2, ExceptionState& exceptionState) const
{
ASSERT(node1 && node2);
const TreeScope* treeScope1 = node1->isDocumentNode() ? static_cast<const TreeScope*>(toDocument(node1)) :
node1->isShadowRoot() ? static_cast<const TreeScope*>(toShadowRoot(node1)) : 0;
const TreeScope* treeScope2 = node2->isDocumentNode() ? static_cast<const TreeScope*>(toDocument(node2)) :
node2->isShadowRoot() ? static_cast<const TreeScope*>(toShadowRoot(node2)) : 0;
if (!treeScope1 || !treeScope2) {
exceptionState.throwDOMException(InvalidAccessError, String::format("The %s node is neither a document node, nor a shadow root.", treeScope1 ? "second" : "first"));
return 0;
}
return treeScope1->comparePosition(*treeScope2);
}
void Internals::pauseAnimations(double pauseTime, ExceptionState& exceptionState)
{
if (pauseTime < 0) {
exceptionState.throwDOMException(InvalidAccessError, ExceptionMessages::indexExceedsMinimumBound("pauseTime", pauseTime, 0.0));
return;
}
frame()->view()->updateAllLifecyclePhases();
frame()->document()->timeline().pauseAnimationsForTesting(pauseTime);
}
bool Internals::isCompositedAnimation(Animation* animation)
{
return animation->hasActiveAnimationsOnCompositor();
}
void Internals::disableCompositedAnimation(Animation* animation)
{
animation->disableCompositedAnimationForTesting();
}
void Internals::disableCSSAdditiveAnimations()
{
RuntimeEnabledFeatures::setCSSAdditiveAnimationsEnabled(false);
}
void Internals::advanceTimeForImage(Element* image, double deltaTimeInSeconds, ExceptionState& exceptionState)
{
ASSERT(image);
if (deltaTimeInSeconds < 0) {
exceptionState.throwDOMException(InvalidAccessError, ExceptionMessages::indexExceedsMinimumBound("deltaTimeInSeconds", deltaTimeInSeconds, 0.0));
return;
}
ImageResource* resource = nullptr;
if (isHTMLImageElement(*image)) {
resource = toHTMLImageElement(*image).cachedImage();
} else if (isSVGImageElement(*image)) {
resource = toSVGImageElement(*image).cachedImage();
} else {
exceptionState.throwDOMException(InvalidAccessError, "The element provided is not a image element.");
return;
}
if (!resource || !resource->hasImage()) {
exceptionState.throwDOMException(InvalidAccessError, "The image resource is not available.");
return;
}
Image* imageData = resource->getImage();
if (!imageData->isBitmapImage()) {
exceptionState.throwDOMException(InvalidAccessError, "The image resource is not a BitmapImage type.");
return;
}
imageData->advanceTime(deltaTimeInSeconds);
}
void Internals::advanceImageAnimation(Element* image, ExceptionState& exceptionState)
{
ASSERT(image);
ImageResource* resource = nullptr;
if (isHTMLImageElement(*image)) {
resource = toHTMLImageElement(*image).cachedImage();
} else if (isSVGImageElement(*image)) {
resource = toSVGImageElement(*image).cachedImage();
} else {
exceptionState.throwDOMException(InvalidAccessError, "The element provided is not a image element.");
return;
}
if (!resource || !resource->hasImage()) {
exceptionState.throwDOMException(InvalidAccessError, "The image resource is not available.");
return;
}
Image* imageData = resource->getImage();
imageData->advanceAnimationForTesting();
}
bool Internals::hasShadowInsertionPoint(const Node* root, ExceptionState& exceptionState) const
{
ASSERT(root);
if (!root->isShadowRoot()) {
exceptionState.throwDOMException(InvalidAccessError, "The node argument is not a shadow root.");
return false;
}
return toShadowRoot(root)->containsShadowElements();
}
bool Internals::hasContentElement(const Node* root, ExceptionState& exceptionState) const
{
ASSERT(root);
if (!root->isShadowRoot()) {
exceptionState.throwDOMException(InvalidAccessError, "The node argument is not a shadow root.");
return false;
}
return toShadowRoot(root)->containsContentElements();
}
size_t Internals::countElementShadow(const Node* root, ExceptionState& exceptionState) const
{
ASSERT(root);
if (!root->isShadowRoot()) {
exceptionState.throwDOMException(InvalidAccessError, "The node argument is not a shadow root.");
return 0;
}
return toShadowRoot(root)->childShadowRootCount();
}
Node* Internals::nextSiblingInFlatTree(Node* node, ExceptionState& exceptionState)
{
ASSERT(node);
if (!node->canParticipateInFlatTree()) {
exceptionState.throwDOMException(InvalidAccessError, "The node argument doesn't particite in the flat tree.");
return 0;
}
return FlatTreeTraversal::nextSibling(*node);
}
Node* Internals::firstChildInFlatTree(Node* node, ExceptionState& exceptionState)
{
ASSERT(node);
if (!node->canParticipateInFlatTree()) {
exceptionState.throwDOMException(InvalidAccessError, "The node argument doesn't particite in the flat tree");
return 0;
}
return FlatTreeTraversal::firstChild(*node);
}
Node* Internals::lastChildInFlatTree(Node* node, ExceptionState& exceptionState)
{
ASSERT(node);
if (!node->canParticipateInFlatTree()) {
exceptionState.throwDOMException(InvalidAccessError, "The node argument doesn't particite in the flat tree.");
return 0;
}
return FlatTreeTraversal::lastChild(*node);
}
Node* Internals::nextInFlatTree(Node* node, ExceptionState& exceptionState)
{
ASSERT(node);
if (!node->canParticipateInFlatTree()) {
exceptionState.throwDOMException(InvalidAccessError, "The node argument doesn't particite in the flat tree.");
return 0;
}
return FlatTreeTraversal::next(*node);
}
Node* Internals::previousInFlatTree(Node* node, ExceptionState& exceptionState)
{
ASSERT(node);
if (!node->canParticipateInFlatTree()) {
exceptionState.throwDOMException(InvalidAccessError, "The node argument doesn't particite in the flat tree.");
return 0;
}
return FlatTreeTraversal::previous(*node);
}
String Internals::elementLayoutTreeAsText(Element* element, ExceptionState& exceptionState)
{
ASSERT(element);
String representation = externalRepresentation(element);
if (representation.isEmpty()) {
exceptionState.throwDOMException(InvalidAccessError, "The element provided has no external representation.");
return String();
}
return representation;
}
CSSStyleDeclaration* Internals::computedStyleIncludingVisitedInfo(Node* node) const
{
ASSERT(node);
bool allowVisitedStyle = true;
return CSSComputedStyleDeclaration::create(node, allowVisitedStyle);
}
ShadowRoot* Internals::createUserAgentShadowRoot(Element* host)
{
ASSERT(host);
return &host->ensureUserAgentShadowRoot();
}
ShadowRoot* Internals::shadowRoot(Element* host)
{
// FIXME: Internals::shadowRoot() in tests should be converted to youngestShadowRoot() or oldestShadowRoot().
// https://bugs.webkit.org/show_bug.cgi?id=78465
return youngestShadowRoot(host);
}
ShadowRoot* Internals::youngestShadowRoot(Element* host)
{
ASSERT(host);
if (ElementShadow* shadow = host->shadow())
return &shadow->youngestShadowRoot();
return 0;
}
ShadowRoot* Internals::oldestShadowRoot(Element* host)
{
ASSERT(host);
if (ElementShadow* shadow = host->shadow())
return shadow->oldestShadowRoot();
return 0;
}
ShadowRoot* Internals::youngerShadowRoot(Node* shadow, ExceptionState& exceptionState)
{
ASSERT(shadow);
if (!shadow->isShadowRoot()) {
exceptionState.throwDOMException(InvalidAccessError, "The node provided is not a shadow root.");
return 0;
}
return toShadowRoot(shadow)->youngerShadowRoot();
}
String Internals::shadowRootType(const Node* root, ExceptionState& exceptionState) const
{
ASSERT(root);
if (!root->isShadowRoot()) {
exceptionState.throwDOMException(InvalidAccessError, "The node provided is not a shadow root.");
return String();
}
switch (toShadowRoot(root)->type()) {
case ShadowRootType::UserAgent:
return String("UserAgentShadowRoot");
case ShadowRootType::V0:
return String("V0ShadowRoot");
case ShadowRootType::Open:
return String("OpenShadowRoot");
case ShadowRootType::Closed:
return String("ClosedShadowRoot");
default:
ASSERT_NOT_REACHED();
return String("Unknown");
}
}
const AtomicString& Internals::shadowPseudoId(Element* element)
{
ASSERT(element);
return element->shadowPseudoId();
}
String Internals::visiblePlaceholder(Element* element)
{
if (element && isHTMLTextFormControlElement(*element)) {
const HTMLTextFormControlElement& textFormControlElement = toHTMLTextFormControlElement(*element);
if (!textFormControlElement.isPlaceholderVisible())
return String();
if (HTMLElement* placeholderElement = textFormControlElement.placeholderElement())
return placeholderElement->textContent();
}
return String();
}
void Internals::selectColorInColorChooser(Element* element, const String& colorValue)
{
ASSERT(element);
if (!isHTMLInputElement(*element))
return;
Color color;
if (!color.setFromString(colorValue))
return;
toHTMLInputElement(*element).selectColorInColorChooser(color);
}
void Internals::endColorChooser(Element* element)
{
ASSERT(element);
if (!isHTMLInputElement(*element))
return;
toHTMLInputElement(*element).endColorChooser();
}
bool Internals::hasAutofocusRequest(Document* document)
{
if (!document)
document = contextDocument();
return document->autofocusElement();
}
bool Internals::hasAutofocusRequest()
{
return hasAutofocusRequest(0);
}
Vector<String> Internals::formControlStateOfHistoryItem(ExceptionState& exceptionState)
{
HistoryItem* mainItem = frame()->loader().currentItem();
if (!mainItem) {
exceptionState.throwDOMException(InvalidAccessError, "No history item is available.");
return Vector<String>();
}
return mainItem->documentState();
}
void Internals::setFormControlStateOfHistoryItem(const Vector<String>& state, ExceptionState& exceptionState)
{
HistoryItem* mainItem = frame()->loader().currentItem();
if (!mainItem) {
exceptionState.throwDOMException(InvalidAccessError, "No history item is available.");
return;
}
mainItem->clearDocumentState();
mainItem->setDocumentState(state);
}
DOMWindow* Internals::pagePopupWindow() const
{
Document* document = contextDocument();
if (!document)
return nullptr;
if (Page* page = document->page())
return page->chromeClient().pagePopupWindowForTesting();
return nullptr;
}
ClientRect* Internals::absoluteCaretBounds(ExceptionState& exceptionState)
{
Document* document = contextDocument();
if (!document || !document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, document ? "The document's frame cannot be retrieved." : "No context document can be obtained.");
return ClientRect::create();
}
return ClientRect::create(document->frame()->selection().absoluteCaretBounds());
}
ClientRect* Internals::boundingBox(Element* element)
{
ASSERT(element);
element->document().updateLayoutIgnorePendingStylesheets();
LayoutObject* layoutObject = element->layoutObject();
if (!layoutObject)
return ClientRect::create();
return ClientRect::create(layoutObject->absoluteBoundingBoxRectIgnoringTransforms());
}
unsigned Internals::markerCountForNode(Node* node, const String& markerType, ExceptionState& exceptionState)
{
ASSERT(node);
DocumentMarker::MarkerTypes markerTypes = 0;
if (!markerTypesFrom(markerType, markerTypes)) {
exceptionState.throwDOMException(SyntaxError, "The marker type provided ('" + markerType + "') is invalid.");
return 0;
}
return node->document().markers().markersFor(node, markerTypes).size();
}
unsigned Internals::activeMarkerCountForNode(Node* node)
{
ASSERT(node);
// Only TextMatch markers can be active.
DocumentMarker::MarkerType markerType = DocumentMarker::TextMatch;
DocumentMarkerVector markers = node->document().markers().markersFor(node, markerType);
unsigned activeMarkerCount = 0;
for (const auto& marker : markers) {
if (marker->activeMatch())
activeMarkerCount++;
}
return activeMarkerCount;
}
DocumentMarker* Internals::markerAt(Node* node, const String& markerType, unsigned index, ExceptionState& exceptionState)
{
ASSERT(node);
DocumentMarker::MarkerTypes markerTypes = 0;
if (!markerTypesFrom(markerType, markerTypes)) {
exceptionState.throwDOMException(SyntaxError, "The marker type provided ('" + markerType + "') is invalid.");
return 0;
}
DocumentMarkerVector markers = node->document().markers().markersFor(node, markerTypes);
if (markers.size() <= index)
return 0;
return markers[index];
}
Range* Internals::markerRangeForNode(Node* node, const String& markerType, unsigned index, ExceptionState& exceptionState)
{
ASSERT(node);
DocumentMarker* marker = markerAt(node, markerType, index, exceptionState);
if (!marker)
return nullptr;
return Range::create(node->document(), node, marker->startOffset(), node, marker->endOffset());
}
String Internals::markerDescriptionForNode(Node* node, const String& markerType, unsigned index, ExceptionState& exceptionState)
{
DocumentMarker* marker = markerAt(node, markerType, index, exceptionState);
if (!marker)
return String();
return marker->description();
}
void Internals::addTextMatchMarker(const Range* range, bool isActive)
{
ASSERT(range);
range->ownerDocument().updateLayoutIgnorePendingStylesheets();
range->ownerDocument().markers().addTextMatchMarker(range, isActive);
}
void Internals::setMarkersActive(Node* node, unsigned startOffset, unsigned endOffset, bool active)
{
ASSERT(node);
node->document().markers().setMarkersActive(node, startOffset, endOffset, active);
}
void Internals::setMarkedTextMatchesAreHighlighted(Document* document, bool highlight)
{
if (!document || !document->frame())
return;
document->frame()->editor().setMarkedTextMatchesAreHighlighted(highlight);
}
void Internals::setFrameViewPosition(Document* document, long x, long y, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->view()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return;
}
FrameView* frameView = document->view();
bool scrollbarsSuppressedOldValue = frameView->scrollbarsSuppressed();
frameView->setScrollbarsSuppressed(false);
frameView->setScrollOffsetFromInternals(IntPoint(x, y));
frameView->setScrollbarsSuppressed(scrollbarsSuppressedOldValue);
}
String Internals::viewportAsText(Document* document, float, int availableWidth, int availableHeight, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->page()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return String();
}
document->updateLayoutIgnorePendingStylesheets();
Page* page = document->page();
// Update initial viewport size.
IntSize initialViewportSize(availableWidth, availableHeight);
document->page()->deprecatedLocalMainFrame()->view()->setFrameRect(IntRect(IntPoint::zero(), initialViewportSize));
ViewportDescription description = page->viewportDescription();
PageScaleConstraints constraints = description.resolve(FloatSize(initialViewportSize), Length());
constraints.fitToContentsWidth(constraints.layoutSize.width(), availableWidth);
constraints.resolveAutoInitialScale();
StringBuilder builder;
builder.appendLiteral("viewport size ");
builder.append(String::number(constraints.layoutSize.width()));
builder.append('x');
builder.append(String::number(constraints.layoutSize.height()));
builder.appendLiteral(" scale ");
builder.append(String::number(constraints.initialScale));
builder.appendLiteral(" with limits [");
builder.append(String::number(constraints.minimumScale));
builder.appendLiteral(", ");
builder.append(String::number(constraints.maximumScale));
builder.appendLiteral("] and userScalable ");
builder.append(description.userZoom ? "true" : "false");
return builder.toString();
}
bool Internals::elementShouldAutoComplete(Element* element, ExceptionState& exceptionState)
{
ASSERT(element);
if (isHTMLInputElement(*element))
return toHTMLInputElement(*element).shouldAutocomplete();
exceptionState.throwDOMException(InvalidNodeTypeError, "The element provided is not an INPUT.");
return false;
}
String Internals::suggestedValue(Element* element, ExceptionState& exceptionState)
{
ASSERT(element);
if (!element->isFormControlElement()) {
exceptionState.throwDOMException(InvalidNodeTypeError, "The element provided is not a form control element.");
return String();
}
String suggestedValue;
if (isHTMLInputElement(*element))
suggestedValue = toHTMLInputElement(*element).suggestedValue();
if (isHTMLTextAreaElement(*element))
suggestedValue = toHTMLTextAreaElement(*element).suggestedValue();
if (isHTMLSelectElement(*element))
suggestedValue = toHTMLSelectElement(*element).suggestedValue();
return suggestedValue;
}
void Internals::setSuggestedValue(Element* element, const String& value, ExceptionState& exceptionState)
{
ASSERT(element);
if (!element->isFormControlElement()) {
exceptionState.throwDOMException(InvalidNodeTypeError, "The element provided is not a form control element.");
return;
}
if (isHTMLInputElement(*element))
toHTMLInputElement(*element).setSuggestedValue(value);
if (isHTMLTextAreaElement(*element))
toHTMLTextAreaElement(*element).setSuggestedValue(value);
if (isHTMLSelectElement(*element))
toHTMLSelectElement(*element).setSuggestedValue(value);
}
void Internals::setEditingValue(Element* element, const String& value, ExceptionState& exceptionState)
{
ASSERT(element);
if (!isHTMLInputElement(*element)) {
exceptionState.throwDOMException(InvalidNodeTypeError, "The element provided is not an INPUT.");
return;
}
toHTMLInputElement(*element).setEditingValue(value);
}
void Internals::setAutofilled(Element* element, bool enabled, ExceptionState& exceptionState)
{
ASSERT(element);
if (!element->isFormControlElement()) {
exceptionState.throwDOMException(InvalidNodeTypeError, "The element provided is not a form control element.");
return;
}
toHTMLFormControlElement(element)->setAutofilled(enabled);
}
Range* Internals::rangeFromLocationAndLength(Element* scope, int rangeLocation, int rangeLength)
{
ASSERT(scope);
// TextIterator depends on Layout information, make sure layout it up to date.
scope->document().updateLayoutIgnorePendingStylesheets();
return createRange(PlainTextRange(rangeLocation, rangeLocation + rangeLength).createRange(*scope));
}
unsigned Internals::locationFromRange(Element* scope, const Range* range)
{
ASSERT(scope && range);
// PlainTextRange depends on Layout information, make sure layout it up to date.
scope->document().updateLayoutIgnorePendingStylesheets();
return PlainTextRange::create(*scope, *range).start();
}
unsigned Internals::lengthFromRange(Element* scope, const Range* range)
{
ASSERT(scope && range);
// PlainTextRange depends on Layout information, make sure layout it up to date.
scope->document().updateLayoutIgnorePendingStylesheets();
return PlainTextRange::create(*scope, *range).length();
}
String Internals::rangeAsText(const Range* range)
{
ASSERT(range);
return range->text();
}
// FIXME: The next four functions are very similar - combine them once
// bestClickableNode/bestContextMenuNode have been combined..
DOMPoint* Internals::touchPositionAdjustedToBestClickableNode(long x, long y, long width, long height, Document* document, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return 0;
}
document->updateLayout();
IntSize radius(width / 2, height / 2);
IntPoint point(x + radius.width(), y + radius.height());
EventHandler& eventHandler = document->frame()->eventHandler();
IntPoint hitTestPoint = document->frame()->view()->rootFrameToContents(point);
HitTestResult result = eventHandler.hitTestResultAtPoint(hitTestPoint, HitTestRequest::ReadOnly | HitTestRequest::Active | HitTestRequest::ListBased, LayoutSize(radius));
Node* targetNode = 0;
IntPoint adjustedPoint;
bool foundNode = eventHandler.bestClickableNodeForHitTestResult(result, adjustedPoint, targetNode);
if (foundNode)
return DOMPoint::create(adjustedPoint.x(), adjustedPoint.y());
return 0;
}
Node* Internals::touchNodeAdjustedToBestClickableNode(long x, long y, long width, long height, Document* document, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return 0;
}
document->updateLayout();
IntSize radius(width / 2, height / 2);
IntPoint point(x + radius.width(), y + radius.height());
EventHandler& eventHandler = document->frame()->eventHandler();
IntPoint hitTestPoint = document->frame()->view()->rootFrameToContents(point);
HitTestResult result = eventHandler.hitTestResultAtPoint(hitTestPoint, HitTestRequest::ReadOnly | HitTestRequest::Active | HitTestRequest::ListBased, LayoutSize(radius));
Node* targetNode = 0;
IntPoint adjustedPoint;
document->frame()->eventHandler().bestClickableNodeForHitTestResult(result, adjustedPoint, targetNode);
return targetNode;
}
DOMPoint* Internals::touchPositionAdjustedToBestContextMenuNode(long x, long y, long width, long height, Document* document, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return 0;
}
document->updateLayout();
IntSize radius(width / 2, height / 2);
IntPoint point(x + radius.width(), y + radius.height());
EventHandler& eventHandler = document->frame()->eventHandler();
IntPoint hitTestPoint = document->frame()->view()->rootFrameToContents(point);
HitTestResult result = eventHandler.hitTestResultAtPoint(hitTestPoint, HitTestRequest::ReadOnly | HitTestRequest::Active | HitTestRequest::ListBased, LayoutSize(radius));
Node* targetNode = 0;
IntPoint adjustedPoint;
bool foundNode = eventHandler.bestContextMenuNodeForHitTestResult(result, adjustedPoint, targetNode);
if (foundNode)
return DOMPoint::create(adjustedPoint.x(), adjustedPoint.y());
return DOMPoint::create(x, y);
}
Node* Internals::touchNodeAdjustedToBestContextMenuNode(long x, long y, long width, long height, Document* document, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return 0;
}
document->updateLayout();
IntSize radius(width / 2, height / 2);
IntPoint point(x + radius.width(), y + radius.height());
EventHandler& eventHandler = document->frame()->eventHandler();
IntPoint hitTestPoint = document->frame()->view()->rootFrameToContents(point);
HitTestResult result = eventHandler.hitTestResultAtPoint(hitTestPoint, HitTestRequest::ReadOnly | HitTestRequest::Active | HitTestRequest::ListBased, LayoutSize(radius));
Node* targetNode = 0;
IntPoint adjustedPoint;
eventHandler.bestContextMenuNodeForHitTestResult(result, adjustedPoint, targetNode);
return targetNode;
}
ClientRect* Internals::bestZoomableAreaForTouchPoint(long x, long y, long width, long height, Document* document, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return nullptr;
}
document->updateLayout();
IntSize radius(width / 2, height / 2);
IntPoint point(x + radius.width(), y + radius.height());
Node* targetNode = 0;
IntRect zoomableArea;
bool foundNode = document->frame()->eventHandler().bestZoomableAreaForTouchPoint(point, radius, zoomableArea, targetNode);
if (foundNode)
return ClientRect::create(zoomableArea);
return nullptr;
}
int Internals::lastSpellCheckRequestSequence(Document* document, ExceptionState& exceptionState)
{
SpellCheckRequester* requester = spellCheckRequester(document);
if (!requester) {
exceptionState.throwDOMException(InvalidAccessError, "No spell check requestor can be obtained for the provided document.");
return -1;
}
return requester->lastRequestSequence();
}
int Internals::lastSpellCheckProcessedSequence(Document* document, ExceptionState& exceptionState)
{
SpellCheckRequester* requester = spellCheckRequester(document);
if (!requester) {
exceptionState.throwDOMException(InvalidAccessError, "No spell check requestor can be obtained for the provided document.");
return -1;
}
return requester->lastProcessedSequence();
}
Vector<AtomicString> Internals::userPreferredLanguages() const
{
return blink::userPreferredLanguages();
}
// Optimally, the bindings generator would pass a Vector<AtomicString> here but
// this is not supported yet.
void Internals::setUserPreferredLanguages(const Vector<String>& languages)
{
Vector<AtomicString> atomicLanguages;
for (size_t i = 0; i < languages.size(); ++i)
atomicLanguages.append(AtomicString(languages[i]));
overrideUserPreferredLanguages(atomicLanguages);
}
unsigned Internals::activeDOMObjectCount(Document* document)
{
ASSERT(document);
return document->activeDOMObjectCount();
}
static unsigned eventHandlerCount(Document& document, EventHandlerRegistry::EventHandlerClass handlerClass)
{
if (!document.frameHost())
return 0;
EventHandlerRegistry* registry = &document.frameHost()->eventHandlerRegistry();
unsigned count = 0;
const EventTargetSet* targets = registry->eventHandlerTargets(handlerClass);
if (targets) {
for (const auto& target : *targets)
count += target.value;
}
return count;
}
unsigned Internals::wheelEventHandlerCount(Document* document)
{
ASSERT(document);
return eventHandlerCount(*document, EventHandlerRegistry::WheelEventBlocking);
}
unsigned Internals::scrollEventHandlerCount(Document* document)
{
ASSERT(document);
return eventHandlerCount(*document, EventHandlerRegistry::ScrollEvent);
}
unsigned Internals::touchStartOrMoveEventHandlerCount(Document* document)
{
ASSERT(document);
return eventHandlerCount(*document, EventHandlerRegistry::TouchStartOrMoveEventBlocking) + eventHandlerCount(*document, EventHandlerRegistry::TouchStartOrMoveEventPassive);
}
unsigned Internals::touchEndOrCancelEventHandlerCount(Document* document)
{
ASSERT(document);
return eventHandlerCount(*document, EventHandlerRegistry::TouchEndOrCancelEventBlocking) + eventHandlerCount(*document, EventHandlerRegistry::TouchEndOrCancelEventPassive);
}
static PaintLayer* findLayerForGraphicsLayer(PaintLayer* searchRoot, GraphicsLayer* graphicsLayer, IntSize* layerOffset, String* layerType)
{
*layerOffset = IntSize();
if (searchRoot->hasCompositedLayerMapping() && graphicsLayer == searchRoot->compositedLayerMapping()->mainGraphicsLayer()) {
// If the |graphicsLayer| sets the scrollingContent layer as its
// scroll parent, consider it belongs to the scrolling layer and
// mark the layer type as "scrolling".
if (!searchRoot->layoutObject()->hasTransformRelatedProperty() && searchRoot->scrollParent() && searchRoot->parent() == searchRoot->scrollParent()) {
*layerType = "scrolling";
// For hit-test rect visualization to work, the hit-test rect should
// be relative to the scrolling layer and in this case the hit-test
// rect is relative to the element's own GraphicsLayer. So we will have
// to adjust the rect to be relative to the scrolling layer here.
// Only when the element's offsetParent == scroller's offsetParent we
// can compute the element's relative position to the scrolling content
// in this way.
if (searchRoot->layoutObject()->offsetParent() == searchRoot->parent()->layoutObject()->offsetParent()) {
LayoutBoxModelObject* current = searchRoot->layoutObject();
LayoutBoxModelObject* parent = searchRoot->parent()->layoutObject();
layerOffset->setWidth((parent->offsetLeft() - current->offsetLeft()).toInt());
layerOffset->setHeight((parent->offsetTop() - current->offsetTop()).toInt());
return searchRoot->parent();
}
}
LayoutRect rect;
PaintLayer::mapRectInPaintInvalidationContainerToBacking(*searchRoot->layoutObject(), rect);
*layerOffset = IntSize(rect.x(), rect.y());
return searchRoot;
}
// If the |graphicsLayer| is a scroller's scrollingContent layer,
// consider this is a scrolling layer.
GraphicsLayer* layerForScrolling = searchRoot->getScrollableArea() ? searchRoot->getScrollableArea()->layerForScrolling() : 0;
if (graphicsLayer == layerForScrolling) {
*layerType = "scrolling";
return searchRoot;
}
if (searchRoot->compositingState() == PaintsIntoGroupedBacking) {
GraphicsLayer* squashingLayer = searchRoot->groupedMapping()->squashingLayer();
if (graphicsLayer == squashingLayer) {
*layerType ="squashing";
LayoutRect rect;
PaintLayer::mapRectInPaintInvalidationContainerToBacking(*searchRoot->layoutObject(), rect);
*layerOffset = IntSize(rect.x(), rect.y());
return searchRoot;
}
}
GraphicsLayer* layerForHorizontalScrollbar = searchRoot->getScrollableArea() ? searchRoot->getScrollableArea()->layerForHorizontalScrollbar() : 0;
if (graphicsLayer == layerForHorizontalScrollbar) {
*layerType = "horizontalScrollbar";
return searchRoot;
}
GraphicsLayer* layerForVerticalScrollbar = searchRoot->getScrollableArea() ? searchRoot->getScrollableArea()->layerForVerticalScrollbar() : 0;
if (graphicsLayer == layerForVerticalScrollbar) {
*layerType = "verticalScrollbar";
return searchRoot;
}
GraphicsLayer* layerForScrollCorner = searchRoot->getScrollableArea() ? searchRoot->getScrollableArea()->layerForScrollCorner() : 0;
if (graphicsLayer == layerForScrollCorner) {
*layerType = "scrollCorner";
return searchRoot;
}
// Search right to left to increase the chances that we'll choose the top-most layers in a
// grouped mapping for squashing.
for (PaintLayer* child = searchRoot->lastChild(); child; child = child->previousSibling()) {
PaintLayer* foundLayer = findLayerForGraphicsLayer(child, graphicsLayer, layerOffset, layerType);
if (foundLayer)
return foundLayer;
}
return 0;
}
// Given a vector of rects, merge those that are adjacent, leaving empty rects
// in the place of no longer used slots. This is intended to simplify the list
// of rects returned by an SkRegion (which have been split apart for sorting
// purposes). No attempt is made to do this efficiently (eg. by relying on the
// sort criteria of SkRegion).
static void mergeRects(WebVector<blink::WebRect>& rects)
{
for (size_t i = 0; i < rects.size(); ++i) {
if (rects[i].isEmpty())
continue;
bool updated;
do {
updated = false;
for (size_t j = i+1; j < rects.size(); ++j) {
if (rects[j].isEmpty())
continue;
// Try to merge rects[j] into rects[i] along the 4 possible edges.
if (rects[i].y == rects[j].y && rects[i].height == rects[j].height) {
if (rects[i].x + rects[i].width == rects[j].x) {
rects[i].width += rects[j].width;
rects[j] = blink::WebRect();
updated = true;
} else if (rects[i].x == rects[j].x + rects[j].width) {
rects[i].x = rects[j].x;
rects[i].width += rects[j].width;
rects[j] = blink::WebRect();
updated = true;
}
} else if (rects[i].x == rects[j].x && rects[i].width == rects[j].width) {
if (rects[i].y + rects[i].height == rects[j].y) {
rects[i].height += rects[j].height;
rects[j] = blink::WebRect();
updated = true;
} else if (rects[i].y == rects[j].y + rects[j].height) {
rects[i].y = rects[j].y;
rects[i].height += rects[j].height;
rects[j] = blink::WebRect();
updated = true;
}
}
}
} while (updated);
}
}
static void accumulateLayerRectList(PaintLayerCompositor* compositor, GraphicsLayer* graphicsLayer, LayerRectList* rects)
{
WebVector<blink::WebRect> layerRects = graphicsLayer->platformLayer()->touchEventHandlerRegion();
if (!layerRects.isEmpty()) {
mergeRects(layerRects);
String layerType;
IntSize layerOffset;
PaintLayer* paintLayer = findLayerForGraphicsLayer(compositor->rootLayer(), graphicsLayer, &layerOffset, &layerType);
Node* node = paintLayer ? paintLayer->layoutObject()->node() : 0;
for (size_t i = 0; i < layerRects.size(); ++i) {
if (!layerRects[i].isEmpty()) {
rects->append(node, layerType, layerOffset.width(), layerOffset.height(), ClientRect::create(layerRects[i]));
}
}
}
size_t numChildren = graphicsLayer->children().size();
for (size_t i = 0; i < numChildren; ++i)
accumulateLayerRectList(compositor, graphicsLayer->children()[i], rects);
}
LayerRectList* Internals::touchEventTargetLayerRects(Document* document, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->view() || !document->page() || document != contextDocument()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return nullptr;
}
if (ScrollingCoordinator* scrollingCoordinator = document->page()->scrollingCoordinator())
scrollingCoordinator->updateAfterCompositingChangeIfNeeded();
if (LayoutView* view = document->layoutView()) {
if (PaintLayerCompositor* compositor = view->compositor()) {
if (GraphicsLayer* rootLayer = compositor->rootGraphicsLayer()) {
LayerRectList* rects = LayerRectList::create();
accumulateLayerRectList(compositor, rootLayer, rects);
return rects;
}
}
}
return nullptr;
}
bool Internals::executeCommand(Document* document, const String& name, const String& value, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return false;
}
LocalFrame* frame = document->frame();
return frame->editor().executeCommand(name, value);
}
AtomicString Internals::htmlNamespace()
{
return HTMLNames::xhtmlNamespaceURI;
}
Vector<AtomicString> Internals::htmlTags()
{
Vector<AtomicString> tags(HTMLNames::HTMLTagsCount);
OwnPtr<const HTMLQualifiedName*[]> qualifiedNames = HTMLNames::getHTMLTags();
for (size_t i = 0; i < HTMLNames::HTMLTagsCount; ++i)
tags[i] = qualifiedNames[i]->localName();
return tags;
}
AtomicString Internals::svgNamespace()
{
return SVGNames::svgNamespaceURI;
}
Vector<AtomicString> Internals::svgTags()
{
Vector<AtomicString> tags(SVGNames::SVGTagsCount);
OwnPtr<const SVGQualifiedName*[]> qualifiedNames = SVGNames::getSVGTags();
for (size_t i = 0; i < SVGNames::SVGTagsCount; ++i)
tags[i] = qualifiedNames[i]->localName();
return tags;
}
StaticNodeList* Internals::nodesFromRect(Document* document, int centerX, int centerY, unsigned topPadding, unsigned rightPadding,
unsigned bottomPadding, unsigned leftPadding, bool ignoreClipping, bool allowChildFrameContent, ExceptionState& exceptionState) const
{
ASSERT(document);
if (!document->frame() || !document->frame()->view()) {
exceptionState.throwDOMException(InvalidAccessError, "No view can be obtained from the provided document.");
return nullptr;
}
LocalFrame* frame = document->frame();
FrameView* frameView = document->view();
LayoutView* layoutView = document->layoutView();
if (!layoutView)
return nullptr;
float zoomFactor = frame->pageZoomFactor();
LayoutPoint point = roundedLayoutPoint(FloatPoint(centerX * zoomFactor + frameView->scrollX(), centerY * zoomFactor + frameView->scrollY()));
HitTestRequest::HitTestRequestType hitType = HitTestRequest::ReadOnly | HitTestRequest::Active | HitTestRequest::ListBased;
if (ignoreClipping)
hitType |= HitTestRequest::IgnoreClipping;
if (allowChildFrameContent)
hitType |= HitTestRequest::AllowChildFrameContent;
HitTestRequest request(hitType);
// When ignoreClipping is false, this method returns null for coordinates outside of the viewport.
if (!request.ignoreClipping() && !frameView->visibleContentRect().intersects(HitTestLocation::rectForPoint(point, topPadding, rightPadding, bottomPadding, leftPadding)))
return nullptr;
HeapVector<Member<Node>> matches;
HitTestResult result(request, point, topPadding, rightPadding, bottomPadding, leftPadding);
layoutView->hitTest(result);
copyToVector(result.listBasedTestResult(), matches);
return StaticNodeList::adopt(matches);
}
bool Internals::hasSpellingMarker(Document* document, int from, int length)
{
ASSERT(document);
if (!document->frame())
return false;
return document->frame()->spellChecker().selectionStartHasMarkerFor(DocumentMarker::Spelling, from, length);
}
void Internals::setContinuousSpellCheckingEnabled(bool enabled)
{
if (!contextDocument() || !contextDocument()->frame())
return;
if (enabled != contextDocument()->frame()->spellChecker().isContinuousSpellCheckingEnabled())
contextDocument()->frame()->spellChecker().toggleContinuousSpellChecking();
}
bool Internals::isOverwriteModeEnabled(Document* document)
{
ASSERT(document);
if (!document->frame())
return false;
return document->frame()->editor().isOverwriteModeEnabled();
}
void Internals::toggleOverwriteModeEnabled(Document* document)
{
ASSERT(document);
if (!document->frame())
return;
document->frame()->editor().toggleOverwriteModeEnabled();
}
unsigned Internals::numberOfLiveNodes() const
{
return InstanceCounters::counterValue(InstanceCounters::NodeCounter);
}
unsigned Internals::numberOfLiveDocuments() const
{
return InstanceCounters::counterValue(InstanceCounters::DocumentCounter);
}
String Internals::dumpRefCountedInstanceCounts() const
{
return WTF::dumpRefCountedInstanceCounts();
}
Vector<String> Internals::consoleMessageArgumentCounts(Document* document) const
{
FrameHost* host = document->frameHost();
if (!host)
return Vector<String>();
Vector<unsigned> counts = host->consoleMessageStorage().argumentCounts();
Vector<String> result(counts.size());
for (size_t i = 0; i < counts.size(); i++)
result[i] = String::number(counts[i]);
return result;
}
Vector<unsigned long> Internals::setMemoryCacheCapacities(unsigned long minDeadBytes, unsigned long maxDeadBytes, unsigned long totalBytes)
{
Vector<unsigned long> result;
result.append(memoryCache()->minDeadCapacity());
result.append(memoryCache()->maxDeadCapacity());
result.append(memoryCache()->capacity());
memoryCache()->setCapacities(minDeadBytes, maxDeadBytes, totalBytes);
return result;
}
bool Internals::hasGrammarMarker(Document* document, int from, int length)
{
ASSERT(document);
if (!document->frame())
return false;
return document->frame()->spellChecker().selectionStartHasMarkerFor(DocumentMarker::Grammar, from, length);
}
unsigned Internals::numberOfScrollableAreas(Document* document)
{
ASSERT(document);
if (!document->frame())
return 0;
unsigned count = 0;
LocalFrame* frame = document->frame();
if (frame->view()->scrollableAreas())
count += frame->view()->scrollableAreas()->size();
for (Frame* child = frame->tree().firstChild(); child; child = child->tree().nextSibling()) {
if (child->isLocalFrame() && toLocalFrame(child)->view() && toLocalFrame(child)->view()->scrollableAreas())
count += toLocalFrame(child)->view()->scrollableAreas()->size();
}
return count;
}
bool Internals::isPageBoxVisible(Document* document, int pageNumber)
{
ASSERT(document);
return document->isPageBoxVisible(pageNumber);
}
String Internals::layerTreeAsText(Document* document, ExceptionState& exceptionState) const
{
return layerTreeAsText(document, 0, exceptionState);
}
String Internals::elementLayerTreeAsText(Element* element, ExceptionState& exceptionState) const
{
ASSERT(element);
FrameView* frameView = element->document().view();
frameView->updateAllLifecyclePhases();
return elementLayerTreeAsText(element, 0, exceptionState);
}
bool Internals::scrollsWithRespectTo(Element* element1, Element* element2, ExceptionState& exceptionState)
{
ASSERT(element1 && element2);
element1->document().view()->updateAllLifecyclePhases();
LayoutObject* layoutObject1 = element1->layoutObject();
LayoutObject* layoutObject2 = element2->layoutObject();
if (!layoutObject1 || !layoutObject1->isBox()) {
exceptionState.throwDOMException(InvalidAccessError, layoutObject1 ? "The first provided element's layoutObject is not a box." : "The first provided element has no layoutObject.");
return false;
}
if (!layoutObject2 || !layoutObject2->isBox()) {
exceptionState.throwDOMException(InvalidAccessError, layoutObject2 ? "The second provided element's layoutObject is not a box." : "The second provided element has no layoutObject.");
return false;
}
PaintLayer* layer1 = toLayoutBox(layoutObject1)->layer();
PaintLayer* layer2 = toLayoutBox(layoutObject2)->layer();
if (!layer1 || !layer2) {
exceptionState.throwDOMException(InvalidAccessError, String::format("No PaintLayer can be obtained from the %s provided element.", layer1 ? "second" : "first"));
return false;
}
return layer1->scrollsWithRespectTo(layer2);
}
String Internals::layerTreeAsText(Document* document, unsigned flags, ExceptionState& exceptionState) const
{
ASSERT(document);
if (!document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return String();
}
document->view()->updateAllLifecyclePhases();
return document->frame()->layerTreeAsText(flags);
}
String Internals::elementLayerTreeAsText(Element* element, unsigned flags, ExceptionState& exceptionState) const
{
ASSERT(element);
element->document().updateLayout();
LayoutObject* layoutObject = element->layoutObject();
if (!layoutObject || !layoutObject->isBox()) {
exceptionState.throwDOMException(InvalidAccessError, layoutObject ? "The provided element's layoutObject is not a box." : "The provided element has no layoutObject.");
return String();
}
PaintLayer* layer = toLayoutBox(layoutObject)->layer();
if (!layer
|| !layer->hasCompositedLayerMapping()
|| !layer->compositedLayerMapping()->mainGraphicsLayer()) {
// Don't raise exception in these cases which may be normally used in tests.
return String();
}
return layer->compositedLayerMapping()->mainGraphicsLayer()->layerTreeAsText(flags);
}
String Internals::scrollingStateTreeAsText(Document*) const
{
return String();
}
String Internals::mainThreadScrollingReasons(Document* document, ExceptionState& exceptionState) const
{
ASSERT(document);
if (!document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return String();
}
document->frame()->view()->updateAllLifecyclePhases();
Page* page = document->page();
if (!page)
return String();
return page->mainThreadScrollingReasonsAsText();
}
ClientRectList* Internals::nonFastScrollableRects(Document* document, ExceptionState& exceptionState) const
{
ASSERT(document);
if (!document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return nullptr;
}
Page* page = document->page();
if (!page)
return nullptr;
return page->nonFastScrollableRects(document->frame());
}
void Internals::evictAllResources() const
{
memoryCache()->evictResources();
}
String Internals::counterValue(Element* element)
{
if (!element)
return String();
return counterValueForElement(element);
}
int Internals::pageNumber(Element* element, float pageWidth, float pageHeight, ExceptionState& exceptionState)
{
if (!element)
return 0;
if (pageWidth <= 0 || pageHeight <= 0) {
exceptionState.throwDOMException(V8TypeError, "Page width and height must be larger than 0.");
return 0;
}
return PrintContext::pageNumberForElement(element, FloatSize(pageWidth, pageHeight));
}
Vector<String> Internals::iconURLs(Document* document, int iconTypesMask) const
{
Vector<IconURL> iconURLs = document->iconURLs(iconTypesMask);
Vector<String> array;
for (auto& iconURL : iconURLs)
array.append(iconURL.m_iconURL.getString());
return array;
}
Vector<String> Internals::shortcutIconURLs(Document* document) const
{
return iconURLs(document, Favicon);
}
Vector<String> Internals::allIconURLs(Document* document) const
{
return iconURLs(document, Favicon | TouchIcon | TouchPrecomposedIcon);
}
int Internals::numberOfPages(float pageWidth, float pageHeight, ExceptionState& exceptionState)
{
if (!frame())
return -1;
if (pageWidth <= 0 || pageHeight <= 0) {
exceptionState.throwDOMException(V8TypeError, "Page width and height must be larger than 0.");
return -1;
}
return PrintContext::numberOfPages(frame(), FloatSize(pageWidth, pageHeight));
}
String Internals::pageProperty(String propertyName, int pageNumber, ExceptionState& exceptionState) const
{
if (!frame()) {
exceptionState.throwDOMException(InvalidAccessError, "No frame is available.");
return String();
}
return PrintContext::pageProperty(frame(), propertyName.utf8().data(), pageNumber);
}
String Internals::pageSizeAndMarginsInPixels(int pageNumber, int width, int height, int marginTop, int marginRight, int marginBottom, int marginLeft, ExceptionState& exceptionState) const
{
if (!frame()) {
exceptionState.throwDOMException(InvalidAccessError, "No frame is available.");
return String();
}
return PrintContext::pageSizeAndMarginsInPixels(frame(), pageNumber, width, height, marginTop, marginRight, marginBottom, marginLeft);
}
void Internals::setPageScaleFactor(float scaleFactor, ExceptionState& exceptionState)
{
Document* document = contextDocument();
if (!document || !document->page()) {
exceptionState.throwDOMException(InvalidAccessError, document ? "The document's page cannot be retrieved." : "No context document can be obtained.");
return;
}
Page* page = document->page();
page->frameHost().visualViewport().setScale(scaleFactor);
}
void Internals::setPageScaleFactorLimits(float minScaleFactor, float maxScaleFactor, ExceptionState& exceptionState)
{
Document* document = contextDocument();
if (!document || !document->page()) {
exceptionState.throwDOMException(InvalidAccessError, document ? "The document's page cannot be retrieved." : "No context document can be obtained.");
return;
}
Page* page = document->page();
page->frameHost().setDefaultPageScaleLimits(minScaleFactor, maxScaleFactor);
}
bool Internals::magnifyScaleAroundAnchor(float scaleFactor, float x, float y)
{
return frame()->host()->visualViewport().magnifyScaleAroundAnchor(scaleFactor, FloatPoint(x, y));
}
void Internals::setIsCursorVisible(Document* document, bool isVisible, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->page()) {
exceptionState.throwDOMException(InvalidAccessError, "No context document can be obtained.");
return;
}
document->page()->setIsCursorVisible(isVisible);
}
double Internals::effectiveMediaVolume(HTMLMediaElement* mediaElement)
{
ASSERT(mediaElement);
return mediaElement->effectiveMediaVolume();
}
String Internals::effectivePreload(HTMLMediaElement* mediaElement)
{
ASSERT(mediaElement);
return mediaElement->effectivePreload();
}
void Internals::mediaPlayerRemoteRouteAvailabilityChanged(HTMLMediaElement* mediaElement, bool available)
{
ASSERT(mediaElement);
mediaElement->remoteRouteAvailabilityChanged(available);
}
void Internals::mediaPlayerPlayingRemotelyChanged(HTMLMediaElement* mediaElement, bool remote)
{
ASSERT(mediaElement);
if (remote)
mediaElement->connectedToRemoteDevice();
else
mediaElement->disconnectedFromRemoteDevice();
}
void Internals::setAllowHiddenVolumeControls(HTMLMediaElement* mediaElement, bool allow)
{
ASSERT(mediaElement);
mediaElement->setAllowHiddenVolumeControls(allow);
}
void Internals::registerURLSchemeAsBypassingContentSecurityPolicy(const String& scheme)
{
SchemeRegistry::registerURLSchemeAsBypassingContentSecurityPolicy(scheme);
}
void Internals::registerURLSchemeAsBypassingContentSecurityPolicy(const String& scheme, const Vector<String>& policyAreas)
{
uint32_t policyAreasEnum = SchemeRegistry::PolicyAreaNone;
for (const auto& policyArea : policyAreas) {
if (policyArea == "img")
policyAreasEnum |= SchemeRegistry::PolicyAreaImage;
else if (policyArea == "style")
policyAreasEnum |= SchemeRegistry::PolicyAreaStyle;
}
SchemeRegistry::registerURLSchemeAsBypassingContentSecurityPolicy(
scheme, static_cast<SchemeRegistry::PolicyAreas>(policyAreasEnum));
}
void Internals::removeURLSchemeRegisteredAsBypassingContentSecurityPolicy(const String& scheme)
{
SchemeRegistry::removeURLSchemeRegisteredAsBypassingContentSecurityPolicy(scheme);
}
TypeConversions* Internals::typeConversions() const
{
return TypeConversions::create();
}
PrivateScriptTest* Internals::privateScriptTest() const
{
return PrivateScriptTest::create(frame()->document());
}
DictionaryTest* Internals::dictionaryTest() const
{
return DictionaryTest::create();
}
UnionTypesTest* Internals::unionTypesTest() const
{
return UnionTypesTest::create();
}
Vector<String> Internals::getReferencedFilePaths() const
{
return frame()->loader().currentItem()->getReferencedFilePaths();
}
void Internals::startTrackingRepaints(Document* document, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->view()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return;
}
FrameView* frameView = document->view();
frameView->updateAllLifecyclePhases();
frameView->setTracksPaintInvalidations(true);
}
void Internals::stopTrackingRepaints(Document* document, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->view()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return;
}
FrameView* frameView = document->view();
frameView->updateAllLifecyclePhases();
frameView->setTracksPaintInvalidations(false);
}
void Internals::updateLayoutIgnorePendingStylesheetsAndRunPostLayoutTasks(Node* node, ExceptionState& exceptionState)
{
Document* document;
if (!node) {
document = contextDocument();
} else if (node->isDocumentNode()) {
document = toDocument(node);
} else if (isHTMLIFrameElement(*node)) {
document = toHTMLIFrameElement(*node).contentDocument();
} else {
exceptionState.throwTypeError("The node provided is neither a document nor an IFrame.");
return;
}
document->updateLayoutIgnorePendingStylesheets(Document::RunPostLayoutTasksSynchronously);
}
void Internals::forceFullRepaint(Document* document, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->view()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return;
}
if (LayoutView *layoutView = document->layoutView())
layoutView->invalidatePaintForViewAndCompositedLayers();
}
void Internals::startTrackingPaintInvalidationObjects()
{
ASSERT(RuntimeEnabledFeatures::slimmingPaintV2Enabled());
GraphicsLayer* graphicsLayer = toLocalFrame(frame()->page()->mainFrame())->view()->layoutView()->layer()->graphicsLayerBacking();
if (graphicsLayer->drawsContent())
graphicsLayer->getPaintController().startTrackingPaintInvalidationObjects();
}
void Internals::stopTrackingPaintInvalidationObjects()
{
ASSERT(RuntimeEnabledFeatures::slimmingPaintV2Enabled());
GraphicsLayer* graphicsLayer = toLocalFrame(frame()->page()->mainFrame())->view()->layoutView()->layer()->graphicsLayerBacking();
if (graphicsLayer->drawsContent())
graphicsLayer->getPaintController().stopTrackingPaintInvalidationObjects();
}
Vector<String> Internals::trackedPaintInvalidationObjects()
{
ASSERT(RuntimeEnabledFeatures::slimmingPaintV2Enabled());
GraphicsLayer* graphicsLayer = toLocalFrame(frame()->page()->mainFrame())->view()->layoutView()->layer()->graphicsLayerBacking();
if (!graphicsLayer->drawsContent())
return Vector<String>();
return graphicsLayer->getPaintController().trackedPaintInvalidationObjects();
}
ClientRectList* Internals::draggableRegions(Document* document, ExceptionState& exceptionState)
{
return annotatedRegions(document, true, exceptionState);
}
ClientRectList* Internals::nonDraggableRegions(Document* document, ExceptionState& exceptionState)
{
return annotatedRegions(document, false, exceptionState);
}
ClientRectList* Internals::annotatedRegions(Document* document, bool draggable, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->view()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return ClientRectList::create();
}
document->updateLayout();
document->view()->updateDocumentAnnotatedRegions();
Vector<AnnotatedRegionValue> regions = document->annotatedRegions();
Vector<FloatQuad> quads;
for (size_t i = 0; i < regions.size(); ++i) {
if (regions[i].draggable == draggable)
quads.append(FloatQuad(FloatRect(regions[i].bounds)));
}
return ClientRectList::create(quads);
}
static const char* cursorTypeToString(Cursor::Type cursorType)
{
switch (cursorType) {
case Cursor::Pointer: return "Pointer";
case Cursor::Cross: return "Cross";
case Cursor::Hand: return "Hand";
case Cursor::IBeam: return "IBeam";
case Cursor::Wait: return "Wait";
case Cursor::Help: return "Help";
case Cursor::EastResize: return "EastResize";
case Cursor::NorthResize: return "NorthResize";
case Cursor::NorthEastResize: return "NorthEastResize";
case Cursor::NorthWestResize: return "NorthWestResize";
case Cursor::SouthResize: return "SouthResize";
case Cursor::SouthEastResize: return "SouthEastResize";
case Cursor::SouthWestResize: return "SouthWestResize";
case Cursor::WestResize: return "WestResize";
case Cursor::NorthSouthResize: return "NorthSouthResize";
case Cursor::EastWestResize: return "EastWestResize";
case Cursor::NorthEastSouthWestResize: return "NorthEastSouthWestResize";
case Cursor::NorthWestSouthEastResize: return "NorthWestSouthEastResize";
case Cursor::ColumnResize: return "ColumnResize";
case Cursor::RowResize: return "RowResize";
case Cursor::MiddlePanning: return "MiddlePanning";
case Cursor::EastPanning: return "EastPanning";
case Cursor::NorthPanning: return "NorthPanning";
case Cursor::NorthEastPanning: return "NorthEastPanning";
case Cursor::NorthWestPanning: return "NorthWestPanning";
case Cursor::SouthPanning: return "SouthPanning";
case Cursor::SouthEastPanning: return "SouthEastPanning";
case Cursor::SouthWestPanning: return "SouthWestPanning";
case Cursor::WestPanning: return "WestPanning";
case Cursor::Move: return "Move";
case Cursor::VerticalText: return "VerticalText";
case Cursor::Cell: return "Cell";
case Cursor::ContextMenu: return "ContextMenu";
case Cursor::Alias: return "Alias";
case Cursor::Progress: return "Progress";
case Cursor::NoDrop: return "NoDrop";
case Cursor::Copy: return "Copy";
case Cursor::None: return "None";
case Cursor::NotAllowed: return "NotAllowed";
case Cursor::ZoomIn: return "ZoomIn";
case Cursor::ZoomOut: return "ZoomOut";
case Cursor::Grab: return "Grab";
case Cursor::Grabbing: return "Grabbing";
case Cursor::Custom: return "Custom";
}
ASSERT_NOT_REACHED();
return "UNKNOWN";
}
String Internals::getCurrentCursorInfo()
{
Cursor cursor = frame()->page()->chromeClient().lastSetCursorForTesting();
StringBuilder result;
result.appendLiteral("type=");
result.append(cursorTypeToString(cursor.getType()));
result.appendLiteral(" hotSpot=");
result.appendNumber(cursor.hotSpot().x());
result.append(',');
result.appendNumber(cursor.hotSpot().y());
if (cursor.getImage()) {
IntSize size = cursor.getImage()->size();
result.appendLiteral(" image=");
result.appendNumber(size.width());
result.append('x');
result.appendNumber(size.height());
}
if (cursor.imageScaleFactor() != 1) {
result.appendLiteral(" scale=");
NumberToStringBuffer buffer;
result.append(numberToFixedPrecisionString(cursor.imageScaleFactor(), 8, buffer, true));
}
return result.toString();
}
bool Internals::cursorUpdatePending() const
{
return frame()->eventHandler().cursorUpdatePending();
}
DOMArrayBuffer* Internals::serializeObject(PassRefPtr<SerializedScriptValue> value) const
{
String stringValue = value->toWireString();
DOMArrayBuffer* buffer = DOMArrayBuffer::createUninitialized(stringValue.length(), sizeof(UChar));
stringValue.copyTo(static_cast<UChar*>(buffer->data()), 0, stringValue.length());
return buffer;
}
PassRefPtr<SerializedScriptValue> Internals::deserializeBuffer(DOMArrayBuffer* buffer) const
{
String value(static_cast<const UChar*>(buffer->data()), buffer->byteLength() / sizeof(UChar));
return SerializedScriptValueFactory::instance().createFromWire(value);
}
void Internals::forceReload(bool bypassCache)
{
frame()->reload(bypassCache ? FrameLoadTypeReloadBypassingCache : FrameLoadTypeReload, ClientRedirectPolicy::NotClientRedirect);
}
ClientRect* Internals::selectionBounds(ExceptionState& exceptionState)
{
Document* document = contextDocument();
if (!document || !document->frame()) {
exceptionState.throwDOMException(InvalidAccessError, document ? "The document's frame cannot be retrieved." : "No context document can be obtained.");
return nullptr;
}
return ClientRect::create(FloatRect(document->frame()->selection().bounds()));
}
String Internals::markerTextForListItem(Element* element)
{
ASSERT(element);
return blink::markerTextForListItem(element);
}
String Internals::getImageSourceURL(Element* element)
{
ASSERT(element);
return element->imageSourceURL();
}
String Internals::selectMenuListText(HTMLSelectElement* select)
{
ASSERT(select);
LayoutObject* layoutObject = select->layoutObject();
if (!layoutObject || !layoutObject->isMenuList())
return String();
LayoutMenuListItem menuListItem = LayoutMenuListItem(toLayoutMenuList(layoutObject));
return menuListItem.text();
}
bool Internals::isSelectPopupVisible(Node* node)
{
ASSERT(node);
if (!isHTMLSelectElement(*node))
return false;
return toHTMLSelectElement(*node).popupIsVisible();
}
bool Internals::selectPopupItemStyleIsRtl(Node* node, int itemIndex)
{
if (!node || !isHTMLSelectElement(*node))
return false;
HTMLSelectElement& select = toHTMLSelectElement(*node);
if (itemIndex < 0 || static_cast<size_t>(itemIndex) >= select.listItems().size())
return false;
const ComputedStyle* itemStyle = select.itemComputedStyle(*select.listItems()[itemIndex]);
return itemStyle && itemStyle->direction() == RTL;
}
int Internals::selectPopupItemStyleFontHeight(Node* node, int itemIndex)
{
if (!node || !isHTMLSelectElement(*node))
return false;
HTMLSelectElement& select = toHTMLSelectElement(*node);
if (itemIndex < 0 || static_cast<size_t>(itemIndex) >= select.listItems().size())
return false;
const ComputedStyle* itemStyle = select.itemComputedStyle(*select.listItems()[itemIndex]);
return itemStyle ? itemStyle->font().getFontMetrics().height() : 0;
}
void Internals::resetTypeAheadSession(HTMLSelectElement* select)
{
ASSERT(select);
select->resetTypeAheadSessionForTesting();
}
bool Internals::loseSharedGraphicsContext3D()
{
OwnPtr<WebGraphicsContext3DProvider> sharedProvider = adoptPtr(Platform::current()->createSharedOffscreenGraphicsContext3DProvider());
if (!sharedProvider)
return false;
gpu::gles2::GLES2Interface* sharedGL = sharedProvider->contextGL();
sharedGL->LoseContextCHROMIUM(GL_GUILTY_CONTEXT_RESET_EXT, GL_INNOCENT_CONTEXT_RESET_EXT);
// To prevent tests that call loseSharedGraphicsContext3D from being
// flaky, we call finish so that the context is guaranteed to be lost
// synchronously (i.e. before returning).
sharedGL->Finish();
return true;
}
void Internals::forceCompositingUpdate(Document* document, ExceptionState& exceptionState)
{
ASSERT(document);
if (!document->layoutView()) {
exceptionState.throwDOMException(InvalidAccessError, "The document provided is invalid.");
return;
}
document->frame()->view()->updateAllLifecyclePhases();
}
void Internals::setZoomFactor(float factor)
{
frame()->setPageZoomFactor(factor);
}
void Internals::setShouldRevealPassword(Element* element, bool reveal, ExceptionState& exceptionState)
{
ASSERT(element);
if (!isHTMLInputElement(element)) {
exceptionState.throwDOMException(InvalidNodeTypeError, "The element provided is not an INPUT.");
return;
}
return toHTMLInputElement(*element).setShouldRevealPassword(reveal);
}
namespace {
class AddOneFunction : public ScriptFunction {
public:
static v8::Local<v8::Function> createFunction(ScriptState* scriptState)
{
AddOneFunction* self = new AddOneFunction(scriptState);
return self->bindToV8Function();
}
private:
explicit AddOneFunction(ScriptState* scriptState)
: ScriptFunction(scriptState)
{
}
ScriptValue call(ScriptValue value) override
{
v8::Local<v8::Value> v8Value = value.v8Value();
ASSERT(v8Value->IsNumber());
int intValue = v8Value.As<v8::Integer>()->Value();
return ScriptValue(getScriptState(), v8::Integer::New(getScriptState()->isolate(), intValue + 1));
}
};
} // namespace
ScriptPromise Internals::createResolvedPromise(ScriptState* scriptState, ScriptValue value)
{
ScriptPromiseResolver* resolver = ScriptPromiseResolver::create(scriptState);
ScriptPromise promise = resolver->promise();
resolver->resolve(value);
return promise;
}
ScriptPromise Internals::createRejectedPromise(ScriptState* scriptState, ScriptValue value)
{
ScriptPromiseResolver* resolver = ScriptPromiseResolver::create(scriptState);
ScriptPromise promise = resolver->promise();
resolver->reject(value);
return promise;
}
ScriptPromise Internals::addOneToPromise(ScriptState* scriptState, ScriptPromise promise)
{
return promise.then(AddOneFunction::createFunction(scriptState));
}
ScriptPromise Internals::promiseCheck(ScriptState* scriptState, long arg1, bool arg2, const Dictionary& arg3, const String& arg4, const Vector<String>& arg5, ExceptionState& exceptionState)
{
if (arg2)
return ScriptPromise::cast(scriptState, v8String(scriptState->isolate(), "done"));
exceptionState.throwDOMException(InvalidStateError, "Thrown from the native implementation.");
return ScriptPromise();
}
ScriptPromise Internals::promiseCheckWithoutExceptionState(ScriptState* scriptState, const Dictionary& arg1, const String& arg2, const Vector<String>& arg3)
{
return ScriptPromise::cast(scriptState, v8String(scriptState->isolate(), "done"));
}
ScriptPromise Internals::promiseCheckRange(ScriptState* scriptState, long arg1)
{
return ScriptPromise::cast(scriptState, v8String(scriptState->isolate(), "done"));
}
ScriptPromise Internals::promiseCheckOverload(ScriptState* scriptState, Location*)
{
return ScriptPromise::cast(scriptState, v8String(scriptState->isolate(), "done"));
}
ScriptPromise Internals::promiseCheckOverload(ScriptState* scriptState, Document*)
{
return ScriptPromise::cast(scriptState, v8String(scriptState->isolate(), "done"));
}
ScriptPromise Internals::promiseCheckOverload(ScriptState* scriptState, Location*, long, long)
{
return ScriptPromise::cast(scriptState, v8String(scriptState->isolate(), "done"));
}
DEFINE_TRACE(Internals)
{
visitor->trace(m_runtimeFlags);
ContextLifecycleObserver::trace(visitor);
}
void Internals::setValueForUser(Element* element, const String& value)
{
toHTMLInputElement(element)->setValueForUser(value);
}
String Internals::textSurroundingNode(Node* node, int x, int y, unsigned long maxLength)
{
if (!node || !node->layoutObject())
return String();
blink::WebPoint point(x, y);
SurroundingText surroundingText(createVisiblePosition(node->layoutObject()->positionForPoint(static_cast<IntPoint>(point))).deepEquivalent().parentAnchoredEquivalent(), maxLength);
return surroundingText.content();
}
void Internals::setFocused(bool focused)
{
frame()->page()->focusController().setFocused(focused);
}
void Internals::setInitialFocus(bool reverse)
{
frame()->document()->clearFocusedElement();
frame()->page()->focusController().setInitialFocus(reverse ? WebFocusTypeBackward : WebFocusTypeForward);
}
bool Internals::ignoreLayoutWithPendingStylesheets(Document* document)
{
ASSERT(document);
return document->ignoreLayoutWithPendingStylesheets();
}
void Internals::setNetworkStateNotifierTestOnly(bool testOnly)
{
networkStateNotifier().setTestUpdatesOnly(testOnly);
}
void Internals::setNetworkConnectionInfo(const String& type, double downlinkMaxMbps, ExceptionState& exceptionState)
{
WebConnectionType webtype;
if (type == "cellular2g") {
webtype = WebConnectionTypeCellular2G;
} else if (type == "cellular3g") {
webtype = WebConnectionTypeCellular3G;
} else if (type == "cellular4g") {
webtype = WebConnectionTypeCellular4G;
} else if (type == "bluetooth") {
webtype = WebConnectionTypeBluetooth;
} else if (type == "ethernet") {
webtype = WebConnectionTypeEthernet;
} else if (type == "wifi") {
webtype = WebConnectionTypeWifi;
} else if (type == "wimax") {
webtype = WebConnectionTypeWimax;
} else if (type == "other") {
webtype = WebConnectionTypeOther;
} else if (type == "none") {
webtype = WebConnectionTypeNone;
} else if (type == "unknown") {
webtype = WebConnectionTypeUnknown;
} else {
exceptionState.throwDOMException(NotFoundError, ExceptionMessages::failedToEnumerate("connection type", type));
return;
}
networkStateNotifier().setWebConnectionForTest(webtype, downlinkMaxMbps);
}
unsigned Internals::countHitRegions(CanvasRenderingContext* context)
{
return context->hitRegionsCount();
}
bool Internals::isInCanvasFontCache(Document* document, const String& fontString)
{
return document->canvasFontCache()->isInCache(fontString);
}
unsigned Internals::canvasFontCacheMaxFonts()
{
return CanvasFontCache::maxFonts();
}
void Internals::setScrollChain(
ScrollState* scrollState, const HeapVector<Member<Element>>& elements, ExceptionState&)
{
std::deque<int> scrollChain;
for (size_t i = 0; i < elements.size(); ++i)
scrollChain.push_back(DOMNodeIds::idForNode(elements[i].get()));
scrollState->setScrollChain(scrollChain);
}
void Internals::forceBlinkGCWithoutV8GC()
{
ThreadState::current()->setGCState(ThreadState::FullGCScheduled);
}
String Internals::selectedHTMLForClipboard()
{
return frame()->selection().selectedHTMLForClipboard();
}
String Internals::selectedTextForClipboard()
{
return frame()->selection().selectedTextForClipboard();
}
void Internals::setVisualViewportOffset(int x, int y)
{
frame()->host()->visualViewport().setLocation(FloatPoint(x, y));
}
int Internals::visualViewportHeight()
{
return expandedIntSize(frame()->host()->visualViewport().visibleRect().size()).height();
}
int Internals::visualViewportWidth()
{
return expandedIntSize(frame()->host()->visualViewport().visibleRect().size()).width();
}
double Internals::visualViewportScrollX()
{
return frame()->view()->getScrollableArea()->scrollPositionDouble().x();
}
double Internals::visualViewportScrollY()
{
return frame()->view()->getScrollableArea()->scrollPositionDouble().y();
}
ValueIterable<int>::IterationSource* Internals::startIteration(ScriptState*, ExceptionState&)
{
return new InternalsIterationSource();
}
bool Internals::isUseCounted(Document* document, int useCounterId)
{
if (useCounterId < 0 || useCounterId >= UseCounter::NumberOfFeatures)
return false;
return UseCounter::isCounted(*document, static_cast<UseCounter::Feature>(useCounterId));
}
bool Internals::isCSSPropertyUseCounted(Document* document, const String& propertyName)
{
return UseCounter::isCounted(*document, propertyName);
}
String Internals::unscopeableAttribute()
{
return "unscopeableAttribute";
}
String Internals::unscopeableMethod()
{
return "unscopeableMethod";
}
ClientRectList* Internals::focusRingRects(Element* element)
{
Vector<LayoutRect> rects;
if (element && element->layoutObject())
element->layoutObject()->addOutlineRects(rects, LayoutPoint(), LayoutObject::IncludeBlockVisualOverflow);
return ClientRectList::create(rects);
}
ClientRectList* Internals::outlineRects(Element* element)
{
Vector<LayoutRect> rects;
if (element && element->layoutObject())
element->layoutObject()->addOutlineRects(rects, LayoutPoint(), LayoutObject::DontIncludeBlockVisualOverflow);
return ClientRectList::create(rects);
}
void Internals::setCapsLockState(bool enabled)
{
PlatformKeyboardEvent::setCurrentCapsLockState(enabled ?
PlatformKeyboardEvent::OverrideCapsLockState::On : PlatformKeyboardEvent::OverrideCapsLockState::Off);
}
bool Internals::setScrollbarVisibilityInScrollableArea(Node* node, bool visible)
{
if (ScrollableArea* scrollableArea = scrollableAreaForNode(node))
return scrollableArea->scrollAnimator().setScrollbarsVisibleForTesting(visible);
return false;
}
void Internals::forceRestrictIFramePermissions()
{
RuntimeEnabledFeatures::setRestrictIFramePermissionsEnabled(true);
}
double Internals::monotonicTimeToZeroBasedDocumentTime(double platformTime, ExceptionState& exceptionState)
{
Document* document = contextDocument();
if (!document) {
exceptionState.throwDOMException(InvalidAccessError, "No context document is available.");
return 0;
}
return document->loader()->timing().monotonicTimeToZeroBasedDocumentTime(platformTime);
}
void Internals::setMediaElementNetworkState(HTMLMediaElement* mediaElement, int state)
{
ASSERT(mediaElement);
ASSERT(state >= WebMediaPlayer::NetworkState::NetworkStateEmpty);
ASSERT(state <= WebMediaPlayer::NetworkState::NetworkStateDecodeError);
mediaElement->setNetworkState(static_cast<WebMediaPlayer::NetworkState>(state));
}
// TODO(liberato): remove once autoplay gesture override experiment concludes.
void Internals::triggerAutoplayViewportCheck(HTMLMediaElement* element)
{
element->triggerAutoplayViewportCheckForTesting();
}
String Internals::getScrollAnimationState(Node* node) const
{
if (ScrollableArea* scrollableArea = scrollableAreaForNode(node))
return scrollableArea->scrollAnimator().runStateAsText();
return String();
}
String Internals::getProgrammaticScrollAnimationState(Node* node) const
{
if (ScrollableArea* scrollableArea = scrollableAreaForNode(node))
return scrollableArea->programmaticScrollAnimator().runStateAsText();
return String();
}
} // namespace blink