Google Git
Sign in
webkit / WebKit / 15e4da4b5ce83fcfe6de6863df44c60571019d5f / . / Source / WebCore / html / HTMLElement.cpp
blob: c935ee1d7272c674e715efbf6ef50fa0ca9ecf09 [file] [log] [blame]
/*
* Copyright (C) 1999 Lars Knoll (knoll@kde.org)
* (C) 1999 Antti Koivisto (koivisto@kde.org)
* Copyright (C) 2004-2020 Apple Inc. All rights reserved.
* Copyright (C) 2009 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/)
* Copyright (C) 2011 Motorola Mobility. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*
*/
#include "config.h"
#include "HTMLElement.h"
#include "CSSMarkup.h"
#include "CSSPropertyNames.h"
#include "CSSValueKeywords.h"
#include "CSSValueList.h"
#include "CSSValuePool.h"
#include "Chrome.h"
#include "ChromeClient.h"
#include "DOMTokenList.h"
#include "DocumentFragment.h"
#include "ElementAncestorIterator.h"
#include "EnterKeyHint.h"
#include "Event.h"
#include "EventHandler.h"
#include "EventListener.h"
#include "EventNames.h"
#include "Frame.h"
#include "FrameLoader.h"
#include "FrameView.h"
#include "GeometryUtilities.h"
#include "HTMLBDIElement.h"
#include "HTMLBRElement.h"
#include "HTMLButtonElement.h"
#include "HTMLDivElement.h"
#include "HTMLDocument.h"
#include "HTMLElementFactory.h"
#include "HTMLFieldSetElement.h"
#include "HTMLFormElement.h"
#include "HTMLInputElement.h"
#include "HTMLNames.h"
#include "HTMLOptGroupElement.h"
#include "HTMLOptionElement.h"
#include "HTMLParserIdioms.h"
#include "HTMLSelectElement.h"
#include "HTMLStyleElement.h"
#include "HTMLTextAreaElement.h"
#include "HTMLTextFormControlElement.h"
#include "NodeTraversal.h"
#include "RenderElement.h"
#include "RenderImage.h"
#include "ScriptController.h"
#include "ScriptDisallowedScope.h"
#include "ShadowRoot.h"
#include "SimulatedClick.h"
#include "StyleProperties.h"
#include "Text.h"
#include "UserAgentStyleSheets.h"
#include "XMLNames.h"
#include "markup.h"
#include <wtf/IsoMallocInlines.h>
#include <wtf/NeverDestroyed.h>
#include <wtf/Range.h>
#include <wtf/StdLibExtras.h>
#include <wtf/text/CString.h>
#include <wtf/text/StringBuilder.h>
#if ENABLE(IMAGE_ANALYSIS)
#include "TextRecognitionResult.h"
#endif
#if PLATFORM(IOS_FAMILY)
#include "SelectionGeometry.h"
#endif
#if ENABLE(DATA_DETECTION)
#include "DataDetection.h"
#endif
namespace WebCore {
WTF_MAKE_ISO_ALLOCATED_IMPL(HTMLElement);
using namespace HTMLNames;
Ref<HTMLElement> HTMLElement::create(const QualifiedName& tagName, Document& document)
{
return adoptRef(*new HTMLElement(tagName, document));
}
String HTMLElement::nodeName() const
{
// FIXME: Would be nice to have an AtomString lookup based off uppercase
// ASCII characters that does not have to copy the string on a hit in the hash.
if (document().isHTMLDocument()) {
if (LIKELY(!tagQName().hasPrefix()))
return tagQName().localNameUpper();
return Element::nodeName().convertToASCIIUppercase();
}
return Element::nodeName();
}
static inline CSSValueID unicodeBidiAttributeForDirAuto(HTMLElement& element)
{
if (element.hasTagName(preTag) || element.hasTagName(textareaTag))
return CSSValuePlaintext;
// FIXME: For bdo element, dir="auto" should result in "bidi-override isolate" but we don't support having multiple values in unicode-bidi yet.
// See https://bugs.webkit.org/show_bug.cgi?id=73164.
return CSSValueIsolate;
}
unsigned HTMLElement::parseBorderWidthAttribute(const AtomString& value) const
{
if (auto optionalBorderWidth = parseHTMLNonNegativeInteger(value))
return optionalBorderWidth.value();
return hasTagName(tableTag) ? 1 : 0;
}
void HTMLElement::applyBorderAttributeToStyle(const AtomString& value, MutableStyleProperties& style)
{
addPropertyToPresentationalHintStyle(style, CSSPropertyBorderWidth, parseBorderWidthAttribute(value), CSSUnitType::CSS_PX);
addPropertyToPresentationalHintStyle(style, CSSPropertyBorderStyle, CSSValueSolid);
}
void HTMLElement::mapLanguageAttributeToLocale(const AtomString& value, MutableStyleProperties& style)
{
if (!value.isEmpty()) {
// Have to quote so the locale id is treated as a string instead of as a CSS keyword.
addPropertyToPresentationalHintStyle(style, CSSPropertyWebkitLocale, serializeString(value));
} else {
// The empty string means the language is explicitly unknown.
addPropertyToPresentationalHintStyle(style, CSSPropertyWebkitLocale, CSSValueAuto);
}
}
bool HTMLElement::hasPresentationalHintsForAttribute(const QualifiedName& name) const
{
if (name == alignAttr || name == contenteditableAttr || name == hiddenAttr || name == langAttr || name.matches(XMLNames::langAttr) || name == draggableAttr || name == dirAttr)
return true;
return StyledElement::hasPresentationalHintsForAttribute(name);
}
static bool isLTROrRTLIgnoringCase(const AtomString& dirAttributeValue)
{
return equalLettersIgnoringASCIICase(dirAttributeValue, "rtl") || equalLettersIgnoringASCIICase(dirAttributeValue, "ltr");
}
enum class ContentEditableType {
Inherit,
True,
False,
PlaintextOnly
};
static inline ContentEditableType contentEditableType(const AtomString& value)
{
if (value.isNull())
return ContentEditableType::Inherit;
if (value.isEmpty() || equalLettersIgnoringASCIICase(value, "true"))
return ContentEditableType::True;
if (equalLettersIgnoringASCIICase(value, "false"))
return ContentEditableType::False;
if (equalLettersIgnoringASCIICase(value, "plaintext-only"))
return ContentEditableType::PlaintextOnly;
return ContentEditableType::Inherit;
}
static ContentEditableType contentEditableType(const HTMLElement& element)
{
return contentEditableType(element.attributeWithoutSynchronization(contenteditableAttr));
}
void HTMLElement::collectPresentationalHintsForAttribute(const QualifiedName& name, const AtomString& value, MutableStyleProperties& style)
{
if (name == alignAttr) {
if (equalLettersIgnoringASCIICase(value, "middle"))
addPropertyToPresentationalHintStyle(style, CSSPropertyTextAlign, CSSValueCenter);
else
addPropertyToPresentationalHintStyle(style, CSSPropertyTextAlign, value);
} else if (name == contenteditableAttr) {
CSSValueID userModifyValue = CSSValueReadWrite;
switch (contentEditableType(value)) {
case ContentEditableType::Inherit:
return;
case ContentEditableType::False:
userModifyValue = CSSValueReadOnly;
break;
case ContentEditableType::PlaintextOnly:
userModifyValue = CSSValueReadWritePlaintextOnly;
FALLTHROUGH;
case ContentEditableType::True:
addPropertyToPresentationalHintStyle(style, CSSPropertyWordWrap, CSSValueBreakWord);
addPropertyToPresentationalHintStyle(style, CSSPropertyWebkitNbspMode, CSSValueSpace);
addPropertyToPresentationalHintStyle(style, CSSPropertyLineBreak, CSSValueAfterWhiteSpace);
#if PLATFORM(IOS_FAMILY)
addPropertyToPresentationalHintStyle(style, CSSPropertyWebkitTextSizeAdjust, CSSValueNone);
#endif
break;
}
addPropertyToPresentationalHintStyle(style, CSSPropertyWebkitUserModify, userModifyValue);
} else if (name == hiddenAttr) {
addPropertyToPresentationalHintStyle(style, CSSPropertyDisplay, CSSValueNone);
} else if (name == draggableAttr) {
if (equalLettersIgnoringASCIICase(value, "true")) {
addPropertyToPresentationalHintStyle(style, CSSPropertyWebkitUserDrag, CSSValueElement);
if (!isDraggableIgnoringAttributes())
addPropertyToPresentationalHintStyle(style, CSSPropertyWebkitUserSelect, CSSValueNone);
} else if (equalLettersIgnoringASCIICase(value, "false"))
addPropertyToPresentationalHintStyle(style, CSSPropertyWebkitUserDrag, CSSValueNone);
} else if (name == dirAttr) {
if (equalLettersIgnoringASCIICase(value, "auto"))
addPropertyToPresentationalHintStyle(style, CSSPropertyUnicodeBidi, unicodeBidiAttributeForDirAuto(*this));
else {
auto unicodeBidiValue = CSSValueEmbed;
if (isLTROrRTLIgnoringCase(value)) {
addPropertyToPresentationalHintStyle(style, CSSPropertyDirection, value);
unicodeBidiValue = CSSValueIsolate;
}
if (!hasTagName(bdiTag) && !hasTagName(bdoTag) && !hasTagName(outputTag))
addPropertyToPresentationalHintStyle(style, CSSPropertyUnicodeBidi, unicodeBidiValue);
}
} else if (name.matches(XMLNames::langAttr))
mapLanguageAttributeToLocale(value, style);
else if (name == langAttr) {
// xml:lang has a higher priority than lang.
if (!hasAttributeWithoutSynchronization(XMLNames::langAttr))
mapLanguageAttributeToLocale(value, style);
} else
StyledElement::collectPresentationalHintsForAttribute(name, value, style);
}
HTMLElement::EventHandlerNameMap HTMLElement::createEventHandlerNameMap()
{
EventHandlerNameMap map;
static const QualifiedName* const table[] = {
&onabortAttr.get(),
&onanimationendAttr.get(),
&onanimationiterationAttr.get(),
&onanimationstartAttr.get(),
&onanimationcancelAttr.get(),
&onautocompleteAttr.get(),
&onautocompleteerrorAttr.get(),
&onbeforecopyAttr.get(),
&onbeforecutAttr.get(),
&onbeforeinputAttr.get(),
&onbeforeloadAttr.get(),
&onbeforepasteAttr.get(),
&onblurAttr.get(),
&oncancelAttr.get(),
&oncanplayAttr.get(),
&oncanplaythroughAttr.get(),
&onchangeAttr.get(),
&onclickAttr.get(),
&oncloseAttr.get(),
&oncontextmenuAttr.get(),
&oncopyAttr.get(),
&oncutAttr.get(),
&ondblclickAttr.get(),
&ondragAttr.get(),
&ondragendAttr.get(),
&ondragenterAttr.get(),
&ondragleaveAttr.get(),
&ondragoverAttr.get(),
&ondragstartAttr.get(),
&ondropAttr.get(),
&ondurationchangeAttr.get(),
&onemptiedAttr.get(),
&onendedAttr.get(),
&onerrorAttr.get(),
&onfocusAttr.get(),
&onfocusinAttr.get(),
&onfocusoutAttr.get(),
&onformdataAttr.get(),
&ongesturechangeAttr.get(),
&ongestureendAttr.get(),
&ongesturestartAttr.get(),
&ongotpointercaptureAttr.get(),
&oninputAttr.get(),
&oninvalidAttr.get(),
&onkeydownAttr.get(),
&onkeypressAttr.get(),
&onkeyupAttr.get(),
&onloadAttr.get(),
&onloadeddataAttr.get(),
&onloadedmetadataAttr.get(),
&onloadstartAttr.get(),
&onlostpointercaptureAttr.get(),
&onmousedownAttr.get(),
&onmouseenterAttr.get(),
&onmouseleaveAttr.get(),
&onmousemoveAttr.get(),
&onmouseoutAttr.get(),
&onmouseoverAttr.get(),
&onmouseupAttr.get(),
&onmousewheelAttr.get(),
&onpasteAttr.get(),
&onpauseAttr.get(),
&onplayAttr.get(),
&onplayingAttr.get(),
&onpointerdownAttr.get(),
&onpointermoveAttr.get(),
&onpointerupAttr.get(),
&onpointercancelAttr.get(),
&onpointeroverAttr.get(),
&onpointeroutAttr.get(),
&onpointerenterAttr.get(),
&onpointerleaveAttr.get(),
&onprogressAttr.get(),
&onratechangeAttr.get(),
&onresetAttr.get(),
&onresizeAttr.get(),
&onscrollAttr.get(),
&onsearchAttr.get(),
&onsecuritypolicyviolationAttr.get(),
&onseekedAttr.get(),
&onseekingAttr.get(),
&onselectAttr.get(),
&onselectstartAttr.get(),
&onslotchangeAttr.get(),
&onstalledAttr.get(),
&onsubmitAttr.get(),
&onsuspendAttr.get(),
&ontimeupdateAttr.get(),
&ontoggleAttr.get(),
&ontouchcancelAttr.get(),
&ontouchendAttr.get(),
&ontouchforcechangeAttr.get(),
&ontouchmoveAttr.get(),
&ontouchstartAttr.get(),
&ontransitioncancelAttr.get(),
&ontransitionendAttr.get(),
&ontransitionrunAttr.get(),
&ontransitionstartAttr.get(),
&onvolumechangeAttr.get(),
&onwaitingAttr.get(),
&onwebkitbeginfullscreenAttr.get(),
&onwebkitcurrentplaybacktargetiswirelesschangedAttr.get(),
&onwebkitendfullscreenAttr.get(),
&onwebkitfullscreenchangeAttr.get(),
&onwebkitfullscreenerrorAttr.get(),
&onwebkitkeyaddedAttr.get(),
&onwebkitkeyerrorAttr.get(),
&onwebkitkeymessageAttr.get(),
&onwebkitmouseforcechangedAttr.get(),
&onwebkitmouseforcedownAttr.get(),
&onwebkitmouseforcewillbeginAttr.get(),
&onwebkitmouseforceupAttr.get(),
&onwebkitneedkeyAttr.get(),
&onwebkitplaybacktargetavailabilitychangedAttr.get(),
&onwebkitpresentationmodechangedAttr.get(),
&onwebkitwillrevealbottomAttr.get(),
&onwebkitwillrevealleftAttr.get(),
&onwebkitwillrevealrightAttr.get(),
&onwebkitwillrevealtopAttr.get(),
&onwheelAttr.get(),
};
populateEventHandlerNameMap(map, table);
struct UnusualMapping {
const QualifiedName& attributeName;
const AtomString& eventName;
};
const UnusualMapping unusualPairsTable[] = {
{ onwebkitanimationendAttr, eventNames().webkitAnimationEndEvent },
{ onwebkitanimationiterationAttr, eventNames().webkitAnimationIterationEvent },
{ onwebkitanimationstartAttr, eventNames().webkitAnimationStartEvent },
{ onwebkittransitionendAttr, eventNames().webkitTransitionEndEvent },
};
for (auto& entry : unusualPairsTable)
map.add(entry.attributeName.localName().impl(), entry.eventName);
return map;
}
void HTMLElement::populateEventHandlerNameMap(EventHandlerNameMap& map, const QualifiedName* const table[], size_t tableSize)
{
for (size_t i = 0; i < tableSize; ++i) {
auto* entry = table[i];
// FIXME: Would be nice to check these against the actual event names in eventNames().
// Not obvious how to do that simply, though.
auto& attributeName = entry->localName();
// Remove the "on" prefix. Requires some memory allocation and computing a hash, but by not
// using pointers from eventNames(), the passed-in table can be initialized at compile time.
AtomString eventName = attributeName.string().substring(2);
map.add(attributeName.impl(), WTFMove(eventName));
}
}
const AtomString& HTMLElement::eventNameForEventHandlerAttribute(const QualifiedName& attributeName, const EventHandlerNameMap& map)
{
ASSERT(!attributeName.localName().isNull());
// Event handler attributes have no namespace.
if (!attributeName.namespaceURI().isNull())
return nullAtom();
// Fast early return for names that don't start with "on".
AtomStringImpl& localName = *attributeName.localName().impl();
if (localName.length() < 3 || localName[0] != 'o' || localName[1] != 'n')
return nullAtom();
auto it = map.find(&localName);
return it == map.end() ? nullAtom() : it->value;
}
const AtomString& HTMLElement::eventNameForEventHandlerAttribute(const QualifiedName& attributeName)
{
static NeverDestroyed<EventHandlerNameMap> map = createEventHandlerNameMap();
return eventNameForEventHandlerAttribute(attributeName, map.get());
}
Node::Editability HTMLElement::editabilityFromContentEditableAttr(const Node& node)
{
if (auto* startElement = is<Element>(node) ? &downcast<Element>(node) : node.parentElement()) {
for (auto& element : lineageOfType<HTMLElement>(*startElement)) {
switch (contentEditableType(element)) {
case ContentEditableType::True:
return Editability::CanEditRichly;
case ContentEditableType::PlaintextOnly:
return Editability::CanEditPlainText;
case ContentEditableType::False:
return Editability::ReadOnly;
case ContentEditableType::Inherit:
break;
}
}
}
RefPtr containingShadowRoot { node.containingShadowRoot() };
if (containingShadowRoot && containingShadowRoot->mode() == ShadowRootMode::UserAgent)
return Editability::ReadOnly;
auto& document = node.document();
if (is<HTMLDocument>(document))
return downcast<HTMLDocument>(document).inDesignMode() ? Editability::CanEditRichly : Editability::ReadOnly;
return Editability::ReadOnly;
}
bool HTMLElement::matchesReadWritePseudoClass() const
{
return editabilityFromContentEditableAttr(*this) != Editability::ReadOnly;
}
void HTMLElement::parseAttribute(const QualifiedName& name, const AtomString& value)
{
if (name == dirAttr) {
dirAttributeChanged(value);
return;
}
if (name == tabindexAttr) {
if (auto optionalTabIndex = parseHTMLInteger(value))
setTabIndexExplicitly(optionalTabIndex.value());
else
setTabIndexExplicitly(std::nullopt);
return;
}
if (document().settings().inertAttributeEnabled() && name == inertAttr)
invalidateStyleInternal();
if (name == inputmodeAttr) {
auto& document = this->document();
if (this == document.focusedElement()) {
if (auto* page = document.page())
page->chrome().client().focusedElementDidChangeInputMode(*this, canonicalInputMode());
}
}
auto& eventName = eventNameForEventHandlerAttribute(name);
if (!eventName.isNull())
setAttributeEventListener(eventName, name, value);
}
static Ref<DocumentFragment> textToFragment(Document& document, const String& text)
{
auto fragment = DocumentFragment::create(document);
// It's safe to dispatch events on the new fragment since author scripts have no access to it yet.
ScriptDisallowedScope::EventAllowedScope allowedScope(fragment);
for (unsigned start = 0, length = text.length(); start < length; ) {
// Find next line break.
UChar c = 0;
unsigned i;
for (i = start; i < length; i++) {
c = text[i];
if (c == '\r' || c == '\n')
break;
}
// If text is not the empty string, then append a new Text node whose data is text and node document is document to fragment.
if (i > start)
fragment->appendChild(Text::create(document, text.substring(start, i - start)));
if (i == length)
break;
fragment->appendChild(HTMLBRElement::create(document));
// Make sure \r\n doesn't result in two line breaks.
if (c == '\r' && i + 1 < length && text[i + 1] == '\n')
++i;
start = i + 1; // Character after line break.
}
return fragment;
}
// Returns the conforming 'dir' value associated with the state the attribute is in (in its canonical case), if any,
// or the empty string if the attribute is in a state that has no associated keyword value or if the attribute is
// not in a defined state (e.g. the attribute is missing and there is no missing value default).
// http://www.whatwg.org/specs/web-apps/current-work/multipage/common-dom-interfaces.html#limited-to-only-known-values
static inline const AtomString& toValidDirValue(const AtomString& value)
{
static MainThreadNeverDestroyed<const AtomString> ltrValue("ltr", AtomString::ConstructFromLiteral);
static MainThreadNeverDestroyed<const AtomString> rtlValue("rtl", AtomString::ConstructFromLiteral);
static MainThreadNeverDestroyed<const AtomString> autoValue("auto", AtomString::ConstructFromLiteral);
if (equalLettersIgnoringASCIICase(value, "ltr"))
return ltrValue;
if (equalLettersIgnoringASCIICase(value, "rtl"))
return rtlValue;
if (equalLettersIgnoringASCIICase(value, "auto"))
return autoValue;
return nullAtom();
}
const AtomString& HTMLElement::dir() const
{
return toValidDirValue(attributeWithoutSynchronization(dirAttr));
}
void HTMLElement::setDir(const AtomString& value)
{
setAttributeWithoutSynchronization(dirAttr, value);
}
ExceptionOr<void> HTMLElement::setInnerText(const String& text)
{
// FIXME: This doesn't take whitespace collapsing into account at all.
if (!text.contains('\n') && !text.contains('\r')) {
stringReplaceAll(text);
return { };
}
if (isConnected() && isTextControlInnerTextElement()) {
if (!text.contains('\r')) {
stringReplaceAll(text);
return { };
}
String textWithConsistentLineBreaks = text;
textWithConsistentLineBreaks.replace("\r\n", "\n");
textWithConsistentLineBreaks.replace('\r', '\n');
stringReplaceAll(textWithConsistentLineBreaks);
return { };
}
// FIXME: This should use replaceAll(), after we fix that to work properly for DocumentFragment.
// Add text nodes and <br> elements.
auto fragment = textToFragment(document(), text);
// It's safe to dispatch events on the new fragment since author scripts have no access to it yet.
ScriptDisallowedScope::EventAllowedScope allowedScope(fragment.get());
return replaceChildrenWithFragment(*this, WTFMove(fragment));
}
ExceptionOr<void> HTMLElement::setOuterText(const String& text)
{
RefPtr<ContainerNode> parent = parentNode();
if (!parent)
return Exception { NoModificationAllowedError };
RefPtr<Node> prev = previousSibling();
RefPtr<Node> next = nextSibling();
RefPtr<Node> newChild;
// Convert text to fragment with <br> tags instead of linebreaks if needed.
if (text.contains('\r') || text.contains('\n'))
newChild = textToFragment(document(), text);
else
newChild = Text::create(document(), text);
if (!parentNode())
return Exception { HierarchyRequestError };
auto replaceResult = parent->replaceChild(*newChild, *this);
if (replaceResult.hasException())
return replaceResult.releaseException();
RefPtr<Node> node = next ? next->previousSibling() : nullptr;
if (is<Text>(node)) {
auto result = mergeWithNextTextNode(downcast<Text>(*node));
if (result.hasException())
return result.releaseException();
}
if (is<Text>(prev)) {
auto result = mergeWithNextTextNode(downcast<Text>(*prev));
if (result.hasException())
return result.releaseException();
}
return { };
}
void HTMLElement::applyAspectRatioFromWidthAndHeightAttributesToStyle(StringView widthAttribute, StringView heightAttribute, MutableStyleProperties& style)
{
if (!document().settings().aspectRatioOfImgFromWidthAndHeightEnabled())
return;
auto dimensionWidth = parseHTMLDimension(widthAttribute);
if (!dimensionWidth || dimensionWidth->type != HTMLDimension::Type::Pixel)
return;
auto dimensionHeight = parseHTMLDimension(heightAttribute);
if (!dimensionHeight || dimensionHeight->type != HTMLDimension::Type::Pixel)
return;
auto ratioList = CSSValueList::createSlashSeparated();
ratioList->append(CSSValuePool::singleton().createValue(dimensionWidth->number, CSSUnitType::CSS_NUMBER));
ratioList->append(CSSValuePool::singleton().createValue(dimensionHeight->number, CSSUnitType::CSS_NUMBER));
auto list = CSSValueList::createSpaceSeparated();
list->append(CSSValuePool::singleton().createIdentifierValue(CSSValueAuto));
list->append(ratioList);
style.setProperty(CSSPropertyAspectRatio, RefPtr<CSSValue>(WTFMove(list)));
}
void HTMLElement::applyAlignmentAttributeToStyle(const AtomString& alignment, MutableStyleProperties& style)
{
// Vertical alignment with respect to the current baseline of the text
// right or left means floating images.
CSSValueID floatValue = CSSValueInvalid;
CSSValueID verticalAlignValue = CSSValueInvalid;
if (equalLettersIgnoringASCIICase(alignment, "absmiddle"))
verticalAlignValue = CSSValueMiddle;
else if (equalLettersIgnoringASCIICase(alignment, "absbottom"))
verticalAlignValue = CSSValueBottom;
else if (equalLettersIgnoringASCIICase(alignment, "left")) {
floatValue = CSSValueLeft;
verticalAlignValue = CSSValueTop;
} else if (equalLettersIgnoringASCIICase(alignment, "right")) {
floatValue = CSSValueRight;
verticalAlignValue = CSSValueTop;
} else if (equalLettersIgnoringASCIICase(alignment, "top"))
verticalAlignValue = CSSValueTop;
else if (equalLettersIgnoringASCIICase(alignment, "middle"))
verticalAlignValue = CSSValueWebkitBaselineMiddle;
else if (equalLettersIgnoringASCIICase(alignment, "center"))
verticalAlignValue = CSSValueMiddle;
else if (equalLettersIgnoringASCIICase(alignment, "bottom"))
verticalAlignValue = CSSValueBaseline;
else if (equalLettersIgnoringASCIICase(alignment, "texttop"))
verticalAlignValue = CSSValueTextTop;
if (floatValue != CSSValueInvalid)
addPropertyToPresentationalHintStyle(style, CSSPropertyFloat, floatValue);
if (verticalAlignValue != CSSValueInvalid)
addPropertyToPresentationalHintStyle(style, CSSPropertyVerticalAlign, verticalAlignValue);
}
bool HTMLElement::hasCustomFocusLogic() const
{
return false;
}
bool HTMLElement::supportsFocus() const
{
return Element::supportsFocus() || (hasEditableStyle() && parentNode() && !parentNode()->hasEditableStyle());
}
String HTMLElement::contentEditable() const
{
switch (contentEditableType(*this)) {
case ContentEditableType::Inherit:
return "inherit"_s;
case ContentEditableType::True:
return "true"_s;
case ContentEditableType::False:
return "false"_s;
case ContentEditableType::PlaintextOnly:
return "plaintext-only"_s;
}
return "inherit"_s;
}
static const AtomString& trueName()
{
static MainThreadNeverDestroyed<const AtomString> trueValue("true", AtomString::ConstructFromLiteral);
return trueValue.get();
}
static const AtomString& falseName()
{
static MainThreadNeverDestroyed<const AtomString> falseValue("false", AtomString::ConstructFromLiteral);
return falseValue.get();
}
static const AtomString& plaintextOnlyName()
{
static MainThreadNeverDestroyed<const AtomString> plaintextOnlyValue("plaintext-only", AtomString::ConstructFromLiteral);
return plaintextOnlyValue.get();
}
ExceptionOr<void> HTMLElement::setContentEditable(const String& enabled)
{
if (equalLettersIgnoringASCIICase(enabled, "true"))
setAttributeWithoutSynchronization(contenteditableAttr, trueName());
else if (equalLettersIgnoringASCIICase(enabled, "false"))
setAttributeWithoutSynchronization(contenteditableAttr, falseName());
else if (equalLettersIgnoringASCIICase(enabled, "plaintext-only"))
setAttributeWithoutSynchronization(contenteditableAttr, plaintextOnlyName());
else if (equalLettersIgnoringASCIICase(enabled, "inherit"))
removeAttribute(contenteditableAttr);
else
return Exception { SyntaxError };
return { };
}
bool HTMLElement::draggable() const
{
auto& value = attributeWithoutSynchronization(draggableAttr);
if (isDraggableIgnoringAttributes())
return !equalLettersIgnoringASCIICase(value, "false");
return equalLettersIgnoringASCIICase(value, "true");
}
void HTMLElement::setDraggable(bool value)
{
setAttributeWithoutSynchronization(draggableAttr, value ? trueName() : falseName());
}
bool HTMLElement::spellcheck() const
{
return isSpellCheckingEnabled();
}
void HTMLElement::setSpellcheck(bool enable)
{
setAttributeWithoutSynchronization(spellcheckAttr, enable ? trueName() : falseName());
}
void HTMLElement::click()
{
simulateClick(*this, nullptr, SendNoEvents, DoNotShowPressedLook, SimulatedClickSource::Bindings);
}
bool HTMLElement::accessKeyAction(bool sendMouseEvents)
{
return dispatchSimulatedClick(nullptr, sendMouseEvents ? SendMouseUpDownEvents : SendNoEvents);
}
String HTMLElement::accessKeyLabel() const
{
const auto& accessKey = attributeWithoutSynchronization(accesskeyAttr);
if (accessKey.isEmpty())
return String();
StringBuilder result;
#if PLATFORM(COCOA)
auto modifiers = EventHandler::accessKeyModifiers();
if (modifiers.contains(PlatformEvent::Modifier::ControlKey))
result.append(upArrowhead);
if (modifiers.contains(PlatformEvent::Modifier::AltKey))
result.append(WTF::Unicode::optionKey);
#else
// Currently accessKeyModifier in non-cocoa platforms is hardcoded to Alt, so no reason to do extra work here.
// If this ever becomes configurable, make this code use EventHandler::accessKeyModifiers().
result.append("Alt+");
#endif
result.append(accessKey);
return result.toString();
}
String HTMLElement::title() const
{
return attributeWithoutSynchronization(titleAttr);
}
bool HTMLElement::translate() const
{
for (auto& element : lineageOfType<HTMLElement>(*this)) {
const AtomString& value = element.attributeWithoutSynchronization(translateAttr);
if (equalLettersIgnoringASCIICase(value, "yes") || (value.isEmpty() && !value.isNull()))
return true;
if (equalLettersIgnoringASCIICase(value, "no"))
return false;
}
// Default on the root element is translate=yes.
return true;
}
void HTMLElement::setTranslate(bool enable)
{
setAttributeWithoutSynchronization(translateAttr, enable ? "yes" : "no");
}
bool HTMLElement::rendererIsEverNeeded()
{
if (hasTagName(noscriptTag)) {
RefPtr<Frame> frame = document().frame();
if (frame && frame->script().canExecuteScripts(NotAboutToExecuteScript))
return false;
} else if (hasTagName(noembedTag)) {
RefPtr<Frame> frame = document().frame();
if (frame && frame->arePluginsEnabled())
return false;
}
return StyledElement::rendererIsEverNeeded();
}
RenderPtr<RenderElement> HTMLElement::createElementRenderer(RenderStyle&& style, const RenderTreePosition&)
{
return RenderElement::createFor(*this, WTFMove(style));
}
HTMLFormElement* HTMLElement::form() const
{
return HTMLFormElement::findClosestFormAncestor(*this);
}
FormNamedItem* HTMLElement::asFormNamedItem()
{
return nullptr;
}
FormAssociatedElement* HTMLElement::asFormAssociatedElement()
{
return nullptr;
}
static bool elementAffectsDirectionality(const HTMLElement& element)
{
return is<HTMLBDIElement>(element) || element.hasAttributeWithoutSynchronization(dirAttr);
}
static bool elementAffectsDirectionality(const Node& node)
{
return is<HTMLElement>(node) && elementAffectsDirectionality(downcast<HTMLElement>(node));
}
static void setHasDirAutoFlagRecursively(Node* firstNode, bool flag, Node* lastNode = nullptr)
{
firstNode->setSelfOrAncestorHasDirAutoAttribute(flag);
RefPtr<Node> node = firstNode->firstChild();
while (node) {
if (node->selfOrAncestorHasDirAutoAttribute() == flag)
return;
if (elementAffectsDirectionality(*node)) {
if (node == lastNode)
return;
node = NodeTraversal::nextSkippingChildren(*node, firstNode);
continue;
}
node->setSelfOrAncestorHasDirAutoAttribute(flag);
if (node == lastNode)
return;
node = NodeTraversal::next(*node, firstNode);
}
}
void HTMLElement::childrenChanged(const ChildChange& change)
{
StyledElement::childrenChanged(change);
adjustDirectionalityIfNeededAfterChildrenChanged(change.previousSiblingElement, change.type);
}
bool HTMLElement::hasDirectionAuto() const
{
const AtomString& direction = attributeWithoutSynchronization(dirAttr);
return (hasTagName(bdiTag) && direction.isNull()) || equalLettersIgnoringASCIICase(direction, "auto");
}
TextDirection HTMLElement::directionalityIfhasDirAutoAttribute(bool& isAuto) const
{
if (!(selfOrAncestorHasDirAutoAttribute() && hasDirectionAuto())) {
isAuto = false;
return TextDirection::LTR;
}
isAuto = true;
return directionality();
}
TextDirection HTMLElement::directionality(Node** strongDirectionalityTextNode) const
{
if (isTextField()) {
HTMLTextFormControlElement& textElement = downcast<HTMLTextFormControlElement>(const_cast<HTMLElement&>(*this));
bool hasStrongDirectionality;
UCharDirection textDirection = textElement.value().defaultWritingDirection(&hasStrongDirectionality);
if (strongDirectionalityTextNode)
*strongDirectionalityTextNode = hasStrongDirectionality ? &textElement : nullptr;
return (textDirection == U_LEFT_TO_RIGHT) ? TextDirection::LTR : TextDirection::RTL;
}
RefPtr<Node> node = firstChild();
while (node) {
// Skip bdi, script, style and text form controls.
if (equalLettersIgnoringASCIICase(node->nodeName(), "bdi") || node->hasTagName(scriptTag) || node->hasTagName(styleTag)
|| (is<Element>(*node) && downcast<Element>(*node).isTextField())) {
node = NodeTraversal::nextSkippingChildren(*node, this);
continue;
}
// Skip elements with valid dir attribute
if (is<Element>(*node)) {
auto& dirAttributeValue = downcast<Element>(*node).attributeWithoutSynchronization(dirAttr);
if (isLTROrRTLIgnoringCase(dirAttributeValue) || equalLettersIgnoringASCIICase(dirAttributeValue, "auto")) {
node = NodeTraversal::nextSkippingChildren(*node, this);
continue;
}
}
if (node->isTextNode()) {
bool hasStrongDirectionality;
UCharDirection textDirection = node->textContent(true).defaultWritingDirection(&hasStrongDirectionality);
if (hasStrongDirectionality) {
if (strongDirectionalityTextNode)
*strongDirectionalityTextNode = node.get();
return (textDirection == U_LEFT_TO_RIGHT) ? TextDirection::LTR : TextDirection::RTL;
}
}
node = NodeTraversal::next(*node, this);
}
if (strongDirectionalityTextNode)
*strongDirectionalityTextNode = nullptr;
return TextDirection::LTR;
}
void HTMLElement::dirAttributeChanged(const AtomString& value)
{
RefPtr<Element> parent = parentElement();
if (is<HTMLElement>(parent) && parent->selfOrAncestorHasDirAutoAttribute())
downcast<HTMLElement>(*parent).adjustDirectionalityIfNeededAfterChildAttributeChanged(this);
if (equalLettersIgnoringASCIICase(value, "auto"))
calculateAndAdjustDirectionality();
}
void HTMLElement::adjustDirectionalityIfNeededAfterChildAttributeChanged(Element* child)
{
ASSERT(selfOrAncestorHasDirAutoAttribute());
Node* strongDirectionalityTextNode;
TextDirection textDirection = directionality(&strongDirectionalityTextNode);
setHasDirAutoFlagRecursively(child, false);
if (!renderer() || renderer()->style().direction() == textDirection)
return;
for (auto& element : lineageOfType<HTMLElement>(*this)) {
if (elementAffectsDirectionality(element)) {
element.invalidateStyleForSubtree();
break;
}
}
}
void HTMLElement::calculateAndAdjustDirectionality()
{
Node* strongDirectionalityTextNode;
TextDirection textDirection = directionality(&strongDirectionalityTextNode);
setHasDirAutoFlagRecursively(this, true, strongDirectionalityTextNode);
if (renderer() && renderer()->style().direction() != textDirection)
invalidateStyleForSubtree();
}
void HTMLElement::adjustDirectionalityIfNeededAfterChildrenChanged(Element* beforeChange, ChildChange::Type changeType)
{
// FIXME: This function looks suspicious.
if (!selfOrAncestorHasDirAutoAttribute())
return;
RefPtr<Node> oldMarkedNode;
if (beforeChange)
oldMarkedNode = changeType == ChildChange::Type::ElementInserted ? ElementTraversal::nextSibling(*beforeChange) : beforeChange->nextSibling();
while (oldMarkedNode && elementAffectsDirectionality(*oldMarkedNode))
oldMarkedNode = oldMarkedNode->nextSibling();
if (oldMarkedNode)
setHasDirAutoFlagRecursively(oldMarkedNode.get(), false);
for (auto& elementToAdjust : lineageOfType<HTMLElement>(*this)) {
if (elementAffectsDirectionality(elementToAdjust)) {
elementToAdjust.calculateAndAdjustDirectionality();
return;
}
}
}
void HTMLElement::addHTMLLengthToStyle(MutableStyleProperties& style, CSSPropertyID propertyID, StringView value, AllowPercentage allowPercentage, UseCSSPXAsUnitType useCSSPX, IsMultiLength isMultiLength)
{
auto dimensionValue = isMultiLength == IsMultiLength::No ? parseHTMLDimension(value) : parseHTMLMultiLength(value);
if (!dimensionValue)
return;
if (dimensionValue->type == HTMLDimension::Type::Percentage) {
if (allowPercentage == AllowPercentage::Yes)
addPropertyToPresentationalHintStyle(style, propertyID, dimensionValue->number, CSSUnitType::CSS_PERCENTAGE);
return;
}
if (useCSSPX == UseCSSPXAsUnitType::Yes)
addPropertyToPresentationalHintStyle(style, propertyID, dimensionValue->number, CSSUnitType::CSS_PX);
else
addPropertyToPresentationalHintStyle(style, propertyID, dimensionValue->number, CSSUnitType::CSS_NUMBER);
}
// https://www.w3.org/TR/html4/sgml/dtd.html#Length, including pixel and percentage values.
void HTMLElement::addHTMLLengthToStyle(MutableStyleProperties& style, CSSPropertyID propertyID, StringView value)
{
addHTMLLengthToStyle(style, propertyID, value, AllowPercentage::Yes, UseCSSPXAsUnitType::Yes, IsMultiLength::No);
}
// https://www.w3.org/TR/html4/sgml/dtd.html#MultiLength, including pixel, percentage, and relative values.
void HTMLElement::addHTMLMultiLengthToStyle(MutableStyleProperties& style, CSSPropertyID propertyID, StringView value)
{
addHTMLLengthToStyle(style, propertyID, value, AllowPercentage::Yes, UseCSSPXAsUnitType::Yes, IsMultiLength::Yes);
}
// https://www.w3.org/TR/html4/sgml/dtd.html#Pixels, including pixel value.
void HTMLElement::addHTMLPixelsToStyle(MutableStyleProperties& style, CSSPropertyID propertyID, StringView value)
{
addHTMLLengthToStyle(style, propertyID, value, AllowPercentage::No, UseCSSPXAsUnitType::Yes, IsMultiLength::No);
}
// This is specific to <marquee> attributes, including pixel and CSS_NUMBER values.
void HTMLElement::addHTMLNumberToStyle(MutableStyleProperties& style, CSSPropertyID propertyID, StringView value)
{
addHTMLLengthToStyle(style, propertyID, value, AllowPercentage::Yes, UseCSSPXAsUnitType::No, IsMultiLength::No);
}
// Color parsing that matches HTML's "rules for parsing a legacy color value"
// https://html.spec.whatwg.org/#rules-for-parsing-a-legacy-colour-value
static std::optional<SRGBA<uint8_t>> parseLegacyColorValue(StringView string)
{
// An empty string doesn't apply a color.
if (string.isEmpty())
return std::nullopt;
string = string.stripLeadingAndTrailingMatchedCharacters(isHTMLSpace<UChar>);
if (string.isEmpty())
return Color::black;
// "transparent" doesn't apply a color either.
if (equalLettersIgnoringASCIICase(string, "transparent"))
return std::nullopt;
if (auto namedColor = CSSParser::parseNamedColor(string))
return namedColor;
if (string.length() == 4 && string[0] == '#' && isASCIIHexDigit(string[1]) && isASCIIHexDigit(string[2]) && isASCIIHexDigit(string[3]))
return { { static_cast<uint8_t>(toASCIIHexValue(string[1]) * 0x11), static_cast<uint8_t>(toASCIIHexValue(string[2]) * 0x11), static_cast<uint8_t>(toASCIIHexValue(string[3]) * 0x11) } };
// Per spec, only look at the first 128 digits of the string.
constexpr unsigned maxColorLength = 128;
// We'll pad the buffer with two extra 0s later, so reserve two more than the max.
Vector<char, maxColorLength + 2> digitBuffer;
// Grab the first 128 characters, replacing non-hex characters with 0.
// Non-BMP characters are replaced with "00" due to them appearing as two "characters" in the String.
unsigned i = 0;
if (string[0] == '#') // Skip a leading #.
i = 1;
for (; i < string.length() && digitBuffer.size() < maxColorLength; i++) {
if (!isASCIIHexDigit(string[i]))
digitBuffer.append('0');
else
digitBuffer.append(string[i]);
}
if (digitBuffer.isEmpty())
return Color::black;
// Pad the buffer out to at least the next multiple of three in size.
digitBuffer.append('0');
digitBuffer.append('0');
if (digitBuffer.size() < 6)
return { { toASCIIHexValue(digitBuffer[0]), toASCIIHexValue(digitBuffer[1]), toASCIIHexValue(digitBuffer[2]) } };
// Split the digits into three components, then search the last 8 digits of each component.
ASSERT(digitBuffer.size() >= 6);
unsigned componentLength = digitBuffer.size() / 3;
unsigned componentSearchWindowLength = std::min(componentLength, 8U);
unsigned redIndex = componentLength - componentSearchWindowLength;
unsigned greenIndex = componentLength * 2 - componentSearchWindowLength;
unsigned blueIndex = componentLength * 3 - componentSearchWindowLength;
// Skip digits until one of them is non-zero, or we've only got two digits left in the component.
while (digitBuffer[redIndex] == '0' && digitBuffer[greenIndex] == '0' && digitBuffer[blueIndex] == '0' && (componentLength - redIndex) > 2) {
redIndex++;
greenIndex++;
blueIndex++;
}
ASSERT(redIndex + 1 < componentLength);
ASSERT(greenIndex >= componentLength);
ASSERT(greenIndex + 1 < componentLength * 2);
ASSERT(blueIndex >= componentLength * 2);
ASSERT_WITH_SECURITY_IMPLICATION(blueIndex + 1 < digitBuffer.size());
uint8_t redValue = toASCIIHexValue(digitBuffer[redIndex], digitBuffer[redIndex + 1]);
uint8_t greenValue = toASCIIHexValue(digitBuffer[greenIndex], digitBuffer[greenIndex + 1]);
uint8_t blueValue = toASCIIHexValue(digitBuffer[blueIndex], digitBuffer[blueIndex + 1]);
return { { redValue, greenValue, blueValue } };
}
void HTMLElement::addHTMLColorToStyle(MutableStyleProperties& style, CSSPropertyID propertyID, const String& attributeValue)
{
if (auto color = parseLegacyColorValue(attributeValue))
style.setProperty(propertyID, CSSValuePool::singleton().createColorValue(*color));
}
bool HTMLElement::willRespondToMouseMoveEvents()
{
return !isDisabledFormControl() && Element::willRespondToMouseMoveEvents();
}
bool HTMLElement::willRespondToMouseWheelEvents()
{
return !isDisabledFormControl() && Element::willRespondToMouseWheelEvents();
}
bool HTMLElement::willRespondToMouseClickEvents()
{
return !isDisabledFormControl() && Element::willRespondToMouseClickEvents();
}
bool HTMLElement::canBeActuallyDisabled() const
{
return is<HTMLButtonElement>(*this)
|| is<HTMLInputElement>(*this)
|| is<HTMLSelectElement>(*this)
|| is<HTMLTextAreaElement>(*this)
|| is<HTMLOptGroupElement>(*this)
|| is<HTMLOptionElement>(*this)
|| is<HTMLFieldSetElement>(*this);
}
bool HTMLElement::isActuallyDisabled() const
{
return canBeActuallyDisabled() && isDisabledFormControl();
}
#if ENABLE(AUTOCAPITALIZE)
const AtomString& HTMLElement::autocapitalize() const
{
return stringForAutocapitalizeType(autocapitalizeType());
}
AutocapitalizeType HTMLElement::autocapitalizeType() const
{
return autocapitalizeTypeForAttributeValue(attributeWithoutSynchronization(HTMLNames::autocapitalizeAttr));
}
void HTMLElement::setAutocapitalize(const AtomString& value)
{
setAttributeWithoutSynchronization(autocapitalizeAttr, value);
}
#endif
#if ENABLE(AUTOCORRECT)
bool HTMLElement::shouldAutocorrect() const
{
auto& autocorrectValue = attributeWithoutSynchronization(HTMLNames::autocorrectAttr);
// Unrecognized values fall back to "on".
return !equalLettersIgnoringASCIICase(autocorrectValue, "off");
}
void HTMLElement::setAutocorrect(bool autocorrect)
{
static MainThreadNeverDestroyed<const AtomString> onName("on", AtomString::ConstructFromLiteral);
static MainThreadNeverDestroyed<const AtomString> offName("off", AtomString::ConstructFromLiteral);
setAttributeWithoutSynchronization(autocorrectAttr, autocorrect ? onName.get() : offName.get());
}
#endif
InputMode HTMLElement::canonicalInputMode() const
{
auto mode = inputModeForAttributeValue(attributeWithoutSynchronization(inputmodeAttr));
if (mode == InputMode::Unspecified) {
if (document().quirks().needsInputModeNoneImplicitly(*this))
return InputMode::None;
}
return mode;
}
const AtomString& HTMLElement::inputMode() const
{
return stringForInputMode(canonicalInputMode());
}
void HTMLElement::setInputMode(const AtomString& value)
{
setAttributeWithoutSynchronization(inputmodeAttr, value);
}
EnterKeyHint HTMLElement::canonicalEnterKeyHint() const
{
return enterKeyHintForAttributeValue(attributeWithoutSynchronization(enterkeyhintAttr));
}
String HTMLElement::enterKeyHint() const
{
return attributeValueForEnterKeyHint(canonicalEnterKeyHint());
}
void HTMLElement::setEnterKeyHint(const String& value)
{
setAttributeWithoutSynchronization(enterkeyhintAttr, value);
}
static const AtomString& imageOverlayElementIdentifier()
{
static MainThreadNeverDestroyed<const AtomString> identifier("image-overlay", AtomString::ConstructFromLiteral);
return identifier;
}
static const AtomString& imageOverlayDataDetectorClassName()
{
static MainThreadNeverDestroyed<const AtomString> className("image-overlay-data-detector-result", AtomString::ConstructFromLiteral);
return className;
}
bool HTMLElement::shouldExtendSelectionToTargetNode(const Node& targetNode, const VisibleSelection& selectionBeforeUpdate)
{
if (auto range = selectionBeforeUpdate.range(); range && isInsideImageOverlay(*range))
return isImageOverlayText(targetNode);
return true;
}
bool HTMLElement::hasImageOverlay() const
{
auto shadowRoot = this->shadowRoot();
if (LIKELY(!shadowRoot || shadowRoot->mode() != ShadowRootMode::UserAgent))
return false;
return shadowRoot->hasElementWithId(*imageOverlayElementIdentifier().impl());
}
static RefPtr<HTMLElement> imageOverlayHost(const Node& node)
{
auto host = node.shadowHost();
if (!is<HTMLElement>(host))
return nullptr;
RefPtr element { &downcast<HTMLElement>(*host) };
return element->hasImageOverlay() ? element : nullptr;
}
bool HTMLElement::isImageOverlayDataDetectorResult() const
{
return imageOverlayHost(*this) && hasClass() && classNames().contains(imageOverlayDataDetectorClassName());
}
bool HTMLElement::isInsideImageOverlay(const SimpleRange& range)
{
RefPtr commonAncestor = commonInclusiveAncestor<ComposedTree>(range);
if (!commonAncestor)
return false;
return isInsideImageOverlay(*commonAncestor);
}
bool HTMLElement::isInsideImageOverlay(const Node& node)
{
auto host = imageOverlayHost(node);
if (!host)
return false;
return host->userAgentShadowRoot()->contains(node);
}
bool HTMLElement::isImageOverlayText(const Node* node)
{
return node && isImageOverlayText(*node);
}
bool HTMLElement::isImageOverlayText(const Node& node)
{
auto host = imageOverlayHost(node);
if (!host)
return false;
for (auto& child : childrenOfType<HTMLDivElement>(*host->userAgentShadowRoot())) {
if (child.getIdAttribute() == imageOverlayElementIdentifier())
return node.isDescendantOf(child);
}
return false;
}
#if ENABLE(IMAGE_ANALYSIS)
IntRect HTMLElement::containerRectForTextRecognition()
{
auto* renderer = this->renderer();
if (!is<RenderImage>(renderer))
return { };
if (!renderer->opacity())
return { 0, 0, offsetWidth(), offsetHeight() };
return enclosingIntRect(downcast<RenderImage>(*renderer).replacedContentRect());
}
void HTMLElement::updateWithTextRecognitionResult(const TextRecognitionResult& result, CacheTextRecognitionResults cacheTextRecognitionResults)
{
static MainThreadNeverDestroyed<const AtomString> imageOverlayLineClass("image-overlay-line", AtomString::ConstructFromLiteral);
static MainThreadNeverDestroyed<const AtomString> imageOverlayTextClass("image-overlay-text", AtomString::ConstructFromLiteral);
struct TextRecognitionLineElements {
Ref<HTMLDivElement> line;
Vector<Ref<HTMLElement>> children;
};
struct TextRecognitionElements {
RefPtr<HTMLDivElement> root;
Vector<TextRecognitionLineElements> lines;
Vector<Ref<HTMLDivElement>> dataDetectors;
};
bool hadExistingTextRecognitionElements = false;
TextRecognitionElements textRecognitionElements;
if (hasImageOverlay()) {
for (auto& child : childrenOfType<HTMLDivElement>(*userAgentShadowRoot())) {
if (child.getIdAttribute() == imageOverlayElementIdentifier()) {
textRecognitionElements.root = &child;
hadExistingTextRecognitionElements = true;
break;
}
}
}
if (textRecognitionElements.root) {
for (auto& lineOrDataDetector : childrenOfType<HTMLDivElement>(*textRecognitionElements.root)) {
if (!lineOrDataDetector.hasClass())
continue;
if (lineOrDataDetector.classList().contains(imageOverlayLineClass)) {
TextRecognitionLineElements lineElements { lineOrDataDetector, { } };
for (auto& text : childrenOfType<HTMLDivElement>(lineOrDataDetector))
lineElements.children.append(text);
textRecognitionElements.lines.append(WTFMove(lineElements));
} else if (lineOrDataDetector.classList().contains(imageOverlayDataDetectorClassName()))
textRecognitionElements.dataDetectors.append(lineOrDataDetector);
}
bool canUseExistingTextRecognitionElements = ([&] {
if (result.dataDetectors.size() != textRecognitionElements.dataDetectors.size())
return false;
if (result.lines.size() != textRecognitionElements.lines.size())
return false;
for (size_t lineIndex = 0; lineIndex < result.lines.size(); ++lineIndex) {
auto& childResults = result.lines[lineIndex].children;
auto& childTextElements = textRecognitionElements.lines[lineIndex].children;
if (childResults.size() != childTextElements.size())
return false;
for (size_t childIndex = 0; childIndex < childResults.size(); ++childIndex) {
if (childResults[childIndex].text != childTextElements[childIndex]->textContent().stripWhiteSpace())
return false;
}
}
return true;
})();
if (!canUseExistingTextRecognitionElements) {
textRecognitionElements.root->remove();
textRecognitionElements = { };
}
}
if (result.isEmpty())
return;
Ref shadowRoot = ensureUserAgentShadowRoot();
if (!textRecognitionElements.root) {
auto rootContainer = HTMLDivElement::create(document());
rootContainer->setIdAttribute(imageOverlayElementIdentifier());
if (document().isImageDocument())
rootContainer->setInlineStyleProperty(CSSPropertyWebkitUserSelect, CSSValueText);
shadowRoot->appendChild(rootContainer);
textRecognitionElements.root = rootContainer.copyRef();
textRecognitionElements.lines.reserveInitialCapacity(result.lines.size());
for (auto& line : result.lines) {
auto lineContainer = HTMLDivElement::create(document());
lineContainer->classList().add(imageOverlayLineClass);
rootContainer->appendChild(lineContainer);
TextRecognitionLineElements lineElements { lineContainer, { } };
lineElements.children.reserveInitialCapacity(line.children.size());
for (size_t childIndex = 0; childIndex < line.children.size(); ++childIndex) {
auto& child = line.children[childIndex];
auto textContainer = HTMLDivElement::create(document());
textContainer->classList().add(imageOverlayTextClass);
lineContainer->appendChild(textContainer);
textContainer->appendChild(Text::create(document(), child.hasLeadingWhitespace ? makeString('\n', child.text) : child.text));
lineElements.children.uncheckedAppend(WTFMove(textContainer));
}
lineContainer->appendChild(HTMLBRElement::create(document()));
textRecognitionElements.lines.uncheckedAppend(WTFMove(lineElements));
}
#if ENABLE(DATA_DETECTION)
textRecognitionElements.dataDetectors.reserveInitialCapacity(result.dataDetectors.size());
for (auto& dataDetector : result.dataDetectors) {
auto dataDetectorContainer = DataDetection::createElementForImageOverlay(document(), dataDetector);
dataDetectorContainer->classList().add(imageOverlayDataDetectorClassName());
rootContainer->appendChild(dataDetectorContainer);
textRecognitionElements.dataDetectors.uncheckedAppend(WTFMove(dataDetectorContainer));
}
#endif // ENABLE(DATA_DETECTION)
if (document().quirks().needsToForceUserSelectWhenInstallingImageOverlay())
setInlineStyleProperty(CSSPropertyWebkitUserSelect, CSSValueText);
}
if (!hadExistingTextRecognitionElements) {
static MainThreadNeverDestroyed<const String> shadowStyle(StringImpl::createWithoutCopying(imageOverlayUserAgentStyleSheet, sizeof(imageOverlayUserAgentStyleSheet)));
auto style = HTMLStyleElement::create(HTMLNames::styleTag, document(), false);
style->setTextContent(shadowStyle);
shadowRoot->appendChild(WTFMove(style));
}
document().updateLayoutIgnorePendingStylesheets();
auto* renderer = this->renderer();
if (!is<RenderImage>(renderer))
return;
downcast<RenderImage>(*renderer).setHasImageOverlay();
auto containerRect = containerRectForTextRecognition();
auto convertToContainerCoordinates = [&](const FloatQuad& normalizedQuad) {
auto quad = normalizedQuad;
quad.scale(containerRect.width(), containerRect.height());
quad.move(containerRect.x(), containerRect.y());
return quad;
};
bool applyUserSelectAll = document().isImageDocument() || renderer->style().userSelect() != UserSelect::None;
for (size_t lineIndex = 0; lineIndex < result.lines.size(); ++lineIndex) {
auto& lineElements = textRecognitionElements.lines[lineIndex];
auto& lineContainer = lineElements.line;
auto& line = result.lines[lineIndex];
auto lineQuad = convertToContainerCoordinates(line.normalizedQuad);
if (lineQuad.isEmpty())
continue;
auto lineBounds = rotatedBoundingRectWithMinimumAngleOfRotation(lineQuad, 0.01);
lineContainer->setInlineStyleProperty(CSSPropertyWidth, lineBounds.size.width(), CSSUnitType::CSS_PX);
lineContainer->setInlineStyleProperty(CSSPropertyHeight, lineBounds.size.height(), CSSUnitType::CSS_PX);
lineContainer->setInlineStyleProperty(CSSPropertyTransform, makeString(
"translate("_s,
std::round(lineBounds.center.x() - (lineBounds.size.width() / 2)), "px, "_s,
std::round(lineBounds.center.y() - (lineBounds.size.height() / 2)), "px) "_s,
lineBounds.angleInRadians ? makeString("rotate("_s, lineBounds.angleInRadians, "rad) "_s) : emptyString()
));
auto offsetAlongHorizontalAxis = [&](const FloatPoint& quadPoint1, const FloatPoint& quadPoint2) {
auto intervalLength = lineBounds.size.width();
auto mid = midPoint(quadPoint1, quadPoint2);
mid.moveBy(-lineBounds.center);
mid.rotate(-lineBounds.angleInRadians);
return intervalLength * clampTo<float>(0.5 + mid.x() / intervalLength, 0, 1);
};
auto offsetsAlongHorizontalAxis = line.children.map([&](auto& child) -> WTF::Range<float> {
auto textQuad = convertToContainerCoordinates(child.normalizedQuad);
return {
offsetAlongHorizontalAxis(textQuad.p1(), textQuad.p4()),
offsetAlongHorizontalAxis(textQuad.p2(), textQuad.p3())
};
});
for (size_t childIndex = 0; childIndex < line.children.size(); ++childIndex) {
auto& textContainer = lineElements.children[childIndex];
bool lineHasOneChild = line.children.size() == 1;
float horizontalMarginToMinimizeSelectionGaps = lineHasOneChild ? 0 : 0.125;
float horizontalOffset = lineHasOneChild ? 0 : -horizontalMarginToMinimizeSelectionGaps;
float horizontalExtent = lineHasOneChild ? 0 : horizontalMarginToMinimizeSelectionGaps;
if (lineHasOneChild) {
horizontalOffset += offsetsAlongHorizontalAxis[childIndex].begin();
horizontalExtent += offsetsAlongHorizontalAxis[childIndex].end();
} else if (!childIndex) {
horizontalOffset += offsetsAlongHorizontalAxis[childIndex].begin();
horizontalExtent += (offsetsAlongHorizontalAxis[childIndex].end() + offsetsAlongHorizontalAxis[childIndex + 1].begin()) / 2;
} else if (childIndex == line.children.size() - 1) {
horizontalOffset += (offsetsAlongHorizontalAxis[childIndex - 1].end() + offsetsAlongHorizontalAxis[childIndex].begin()) / 2;
horizontalExtent += offsetsAlongHorizontalAxis[childIndex].end();
} else {
horizontalOffset += (offsetsAlongHorizontalAxis[childIndex - 1].end() + offsetsAlongHorizontalAxis[childIndex].begin()) / 2;
horizontalExtent += (offsetsAlongHorizontalAxis[childIndex].end() + offsetsAlongHorizontalAxis[childIndex + 1].begin()) / 2;
}
FloatSize targetSize { horizontalExtent - horizontalOffset, lineBounds.size.height() };
if (targetSize.isEmpty()) {
textContainer->setInlineStyleProperty(CSSPropertyTransform, "scale(0, 0)");
continue;
}
document().updateLayoutIfDimensionsOutOfDate(textContainer);
FloatSize sizeBeforeTransform;
if (auto* renderer = textContainer->renderBoxModelObject()) {
sizeBeforeTransform = {
adjustLayoutUnitForAbsoluteZoom(renderer->offsetWidth(), *renderer).toFloat(),
adjustLayoutUnitForAbsoluteZoom(renderer->offsetHeight(), *renderer).toFloat(),
};
}
if (sizeBeforeTransform.isEmpty()) {
textContainer->setInlineStyleProperty(CSSPropertyTransform, "scale(0, 0)");
continue;
}
textContainer->setInlineStyleProperty(CSSPropertyTransform, makeString(
"translate("_s,
horizontalOffset + (targetSize.width() - sizeBeforeTransform.width()) / 2, "px, "_s,
(targetSize.height() - sizeBeforeTransform.height()) / 2, "px) "_s,
"scale("_s, targetSize.width() / sizeBeforeTransform.width(), ", "_s, targetSize.height() / sizeBeforeTransform.height(), ") "_s
));
textContainer->setInlineStyleProperty(CSSPropertyWebkitUserSelect, applyUserSelectAll ? CSSValueAll : CSSValueNone);
}
if (document().isImageDocument())
lineContainer->setInlineStyleProperty(CSSPropertyCursor, CSSValueText);
}
#if ENABLE(DATA_DETECTION)
for (size_t index = 0; index < result.dataDetectors.size(); ++index) {
auto dataDetectorContainer = textRecognitionElements.dataDetectors[index];
auto& dataDetector = result.dataDetectors[index];
if (dataDetector.normalizedQuads.isEmpty())
continue;
// FIXME: We should come up with a way to coalesce the bounding quads into one or more rotated rects with the same angle of rotation.
auto targetQuad = convertToContainerCoordinates(dataDetector.normalizedQuads.first());
auto targetBounds = rotatedBoundingRectWithMinimumAngleOfRotation(targetQuad, 0.01);
dataDetectorContainer->setInlineStyleProperty(CSSPropertyWidth, targetBounds.size.width(), CSSUnitType::CSS_PX);
dataDetectorContainer->setInlineStyleProperty(CSSPropertyHeight, targetBounds.size.height(), CSSUnitType::CSS_PX);
dataDetectorContainer->setInlineStyleProperty(CSSPropertyTransform, makeString(
"translate("_s,
std::round(targetBounds.center.x() - (targetBounds.size.width() / 2)), "px, "_s,
std::round(targetBounds.center.y() - (targetBounds.size.height() / 2)), "px) "_s,
targetBounds.angleInRadians ? makeString("rotate("_s, targetBounds.angleInRadians, "rad) "_s) : emptyString()
));
}
#endif // ENABLE(DATA_DETECTION)
if (RefPtr frame = document().frame())
frame->eventHandler().scheduleCursorUpdate();
if (cacheTextRecognitionResults == CacheTextRecognitionResults::Yes) {
if (auto* page = document().page())
page->cacheTextRecognitionResult(*this, containerRect, result);
}
}
#endif // ENABLE(IMAGE_ANALYSIS)
#if PLATFORM(IOS_FAMILY)
SelectionRenderingBehavior HTMLElement::selectionRenderingBehavior(const Node* node)
{
return isImageOverlayText(node) ? SelectionRenderingBehavior::UseIndividualQuads : SelectionRenderingBehavior::CoalesceBoundingRects;
}
#endif // PLATFORM(IOS_FAMILY)
} // namespace WebCore
#ifndef NDEBUG
// For use in the debugger
void dumpInnerHTML(WebCore::HTMLElement*);
void dumpInnerHTML(WebCore::HTMLElement* element)
{
printf("%s\n", element->innerHTML().ascii().data());
}
#endif