/* * Copyright (C) 1999 Lars Knoll (knoll@kde.org) * (C) 1999 Antti Koivisto (koivisto@kde.org) * (C) 2001 Dirk Mueller (mueller@kde.org) * Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011 Apple Inc. All rights reserved. * (C) 2006 Alexey Proskuryakov (ap@nypop.com) * Copyright (C) 2007 Samuel Weinig (sam@webkit.org) * Copyright (C) 2010 Google Inc. All rights reserved. * Copyright (C) 2008 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/) * * 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 "HTMLInputElement.h" #include "AXObjectCache.h" #include "BeforeTextInsertedEvent.h" #include "CSSPropertyNames.h" #include "CSSValueKeywords.h" #include "Document.h" #include "EventNames.h" #include "ExceptionCode.h" #include "FileList.h" #include "Frame.h" #include "HTMLCollection.h" #include "HTMLDataListElement.h" #include "HTMLFormElement.h" #include "HTMLNames.h" #include "HTMLOptionElement.h" #include "HTMLParserIdioms.h" #include "InputType.h" #include "KeyboardEvent.h" #include "LocalizedStrings.h" #include "MouseEvent.h" #include "NumberInputType.h" #include "RenderTextControlSingleLine.h" #include "RenderTheme.h" #include "SearchInputType.h" #include "ShadowRoot.h" #include "ScriptEventListener.h" #include "WheelEvent.h" #include #include #if ENABLE(INPUT_TYPE_COLOR) #include "ColorInputType.h" #endif #if ENABLE(INPUT_SPEECH) #include "RuntimeEnabledFeatures.h" #endif using namespace std; namespace WebCore { using namespace HTMLNames; // FIXME: According to HTML4, the length attribute's value can be arbitrarily // large. However, due to https://bugs.webkit.org/show_bug.cgi?id=14536 things // get rather sluggish when a text field has a larger number of characters than // this, even when just clicking in the text field. const int HTMLInputElement::maximumLength = 524288; const int defaultSize = 20; const int maxSavedResults = 256; HTMLInputElement::HTMLInputElement(const QualifiedName& tagName, Document* document, HTMLFormElement* form, bool createdByParser) : HTMLTextFormControlElement(tagName, document, form) , m_size(defaultSize) , m_maxLength(maximumLength) , m_maxResults(-1) , m_isChecked(false) , m_reflectsCheckedAttribute(true) , m_isIndeterminate(false) , m_hasType(false) , m_isActivatedSubmit(false) , m_autocomplete(Uninitialized) , m_isAutofilled(false) , m_stateRestored(false) , m_parsingInProgress(createdByParser) , m_wasModifiedByUser(false) , m_canReceiveDroppedFiles(false) , m_inputType(InputType::createText(this)) { ASSERT(hasTagName(inputTag) || hasTagName(isindexTag)); } PassRefPtr HTMLInputElement::create(const QualifiedName& tagName, Document* document, HTMLFormElement* form, bool createdByParser) { RefPtr inputElement = adoptRef(new HTMLInputElement(tagName, document, form, createdByParser)); inputElement->createShadowSubtree(); return inputElement.release(); } void HTMLInputElement::createShadowSubtree() { ASSERT(!hasShadowRoot()); ShadowRoot::create(this, ShadowRoot::CreatingUserAgentShadowRoot, ASSERT_NO_EXCEPTION); m_inputType->createShadowSubtree(); } HTMLInputElement::~HTMLInputElement() { if (needsSuspensionCallback()) document()->unregisterForPageCacheSuspensionCallbacks(this); // Need to remove form association while this is still an HTMLInputElement // so that virtual functions are called correctly. setForm(0); // setForm(0) may register this to a document-level radio button group. // We should unregister it to avoid accessing a deleted object. if (isRadioButton()) document()->checkedRadioButtons().removeButton(this); } const AtomicString& HTMLInputElement::formControlName() const { return m_name.isNull() ? emptyAtom : m_name; } HTMLElement* HTMLInputElement::containerElement() const { return m_inputType->containerElement(); } HTMLElement* HTMLInputElement::innerTextElement() const { return m_inputType->innerTextElement(); } HTMLElement* HTMLInputElement::innerBlockElement() const { return m_inputType->innerBlockElement(); } HTMLElement* HTMLInputElement::innerSpinButtonElement() const { return m_inputType->innerSpinButtonElement(); } HTMLElement* HTMLInputElement::resultsButtonElement() const { return m_inputType->resultsButtonElement(); } HTMLElement* HTMLInputElement::cancelButtonElement() const { return m_inputType->cancelButtonElement(); } #if ENABLE(INPUT_SPEECH) HTMLElement* HTMLInputElement::speechButtonElement() const { return m_inputType->speechButtonElement(); } #endif HTMLElement* HTMLInputElement::placeholderElement() const { return m_inputType->placeholderElement(); } bool HTMLInputElement::shouldAutocomplete() const { if (m_autocomplete != Uninitialized) return m_autocomplete == On; return HTMLTextFormControlElement::shouldAutocomplete(); } bool HTMLInputElement::isValidValue(const String& value) const { if (!m_inputType->canSetStringValue()) { ASSERT_NOT_REACHED(); return false; } return !m_inputType->typeMismatchFor(value) && !stepMismatch(value) && !rangeUnderflow(value) && !rangeOverflow(value) && !tooLong(value, IgnoreDirtyFlag) && !patternMismatch(value) && !valueMissing(value); } bool HTMLInputElement::typeMismatch() const { return m_inputType->typeMismatch(); } bool HTMLInputElement::valueMissing(const String& value) const { return m_inputType->valueMissing(value); } bool HTMLInputElement::patternMismatch(const String& value) const { return m_inputType->patternMismatch(value); } bool HTMLInputElement::tooLong(const String& value, NeedsToCheckDirtyFlag check) const { // We use isTextType() instead of supportsMaxLength() because of the // 'virtual' overhead. if (!isTextType()) return false; int max = maxLength(); if (max < 0) return false; if (check == CheckDirtyFlag) { // Return false for the default value or a value set by a script even if // it is longer than maxLength. if (!hasDirtyValue() || !m_wasModifiedByUser) return false; } return numGraphemeClusters(value) > static_cast(max); } bool HTMLInputElement::rangeUnderflow(const String& value) const { return m_inputType->rangeUnderflow(value); } bool HTMLInputElement::rangeOverflow(const String& value) const { return m_inputType->rangeOverflow(value); } double HTMLInputElement::minimum() const { return m_inputType->minimum(); } double HTMLInputElement::maximum() const { return m_inputType->maximum(); } bool HTMLInputElement::stepMismatch(const String& value) const { double step; if (!getAllowedValueStep(&step)) return false; return m_inputType->stepMismatch(value, step); } String HTMLInputElement::minimumString() const { return m_inputType->serialize(minimum()); } String HTMLInputElement::maximumString() const { return m_inputType->serialize(maximum()); } String HTMLInputElement::stepBaseString() const { return m_inputType->serialize(m_inputType->stepBase()); } String HTMLInputElement::stepString() const { double step; if (!getAllowedValueStep(&step)) { // stepString() should be called only if stepMismatch() can be true. ASSERT_NOT_REACHED(); return String(); } return serializeForNumberType(step / m_inputType->stepScaleFactor()); } String HTMLInputElement::typeMismatchText() const { return m_inputType->typeMismatchText(); } String HTMLInputElement::valueMissingText() const { return m_inputType->valueMissingText(); } bool HTMLInputElement::getAllowedValueStep(double* step) const { return getAllowedValueStepWithDecimalPlaces(RejectAny, step, 0); } bool HTMLInputElement::getAllowedValueStepWithDecimalPlaces(AnyStepHandling anyStepHandling, double* step, unsigned* decimalPlaces) const { ASSERT(step); double defaultStep = m_inputType->defaultStep(); double stepScaleFactor = m_inputType->stepScaleFactor(); if (!isfinite(defaultStep) || !isfinite(stepScaleFactor)) return false; const AtomicString& stepString = fastGetAttribute(stepAttr); if (stepString.isEmpty()) { *step = defaultStep * stepScaleFactor; if (decimalPlaces) *decimalPlaces = 0; return true; } if (equalIgnoringCase(stepString, "any")) { switch (anyStepHandling) { case RejectAny: return false; case AnyIsDefaultStep: *step = defaultStep * stepScaleFactor; if (decimalPlaces) *decimalPlaces = 0; return true; default: ASSERT_NOT_REACHED(); } } double parsed; if (!decimalPlaces) { if (!parseToDoubleForNumberType(stepString, &parsed) || parsed <= 0.0) { *step = defaultStep * stepScaleFactor; return true; } } else { if (!parseToDoubleForNumberTypeWithDecimalPlaces(stepString, &parsed, decimalPlaces) || parsed <= 0.0) { *step = defaultStep * stepScaleFactor; *decimalPlaces = 0; return true; } } // For date, month, week, the parsed value should be an integer for some types. if (m_inputType->parsedStepValueShouldBeInteger()) parsed = max(round(parsed), 1.0); double result = parsed * stepScaleFactor; // For datetime, datetime-local, time, the result should be an integer. if (m_inputType->scaledStepValueShouldBeInteger()) result = max(round(result), 1.0); ASSERT(result > 0); *step = result; return true; } void HTMLInputElement::applyStep(double count, AnyStepHandling anyStepHandling, TextFieldEventBehavior eventBehavior, ExceptionCode& ec) { double step; unsigned stepDecimalPlaces, currentDecimalPlaces; if (!getAllowedValueStepWithDecimalPlaces(anyStepHandling, &step, &stepDecimalPlaces)) { ec = INVALID_STATE_ERR; return; } const double nan = numeric_limits::quiet_NaN(); double current = m_inputType->parseToDoubleWithDecimalPlaces(value(), nan, ¤tDecimalPlaces); if (!isfinite(current)) { ec = INVALID_STATE_ERR; return; } double newValue = current + step * count; if (isinf(newValue)) { ec = INVALID_STATE_ERR; return; } double acceptableError = m_inputType->acceptableError(step); if (newValue - m_inputType->minimum() < -acceptableError) { ec = INVALID_STATE_ERR; return; } if (newValue < m_inputType->minimum()) newValue = m_inputType->minimum(); const AtomicString& stepString = fastGetAttribute(stepAttr); if (!equalIgnoringCase(stepString, "any")) newValue = alignValueForStep(newValue, step, currentDecimalPlaces, stepDecimalPlaces); if (newValue - m_inputType->maximum() > acceptableError) { ec = INVALID_STATE_ERR; return; } if (newValue > m_inputType->maximum()) newValue = m_inputType->maximum(); setValueAsNumber(newValue, ec, eventBehavior); if (AXObjectCache::accessibilityEnabled()) document()->axObjectCache()->postNotification(renderer(), AXObjectCache::AXValueChanged, true); } double HTMLInputElement::alignValueForStep(double newValue, double step, unsigned currentDecimalPlaces, unsigned stepDecimalPlaces) { if (newValue >= pow(10.0, 21.0)) return newValue; unsigned baseDecimalPlaces; double base = m_inputType->stepBaseWithDecimalPlaces(&baseDecimalPlaces); baseDecimalPlaces = min(baseDecimalPlaces, 16u); if (stepMismatch(value())) { double scale = pow(10.0, static_cast(max(stepDecimalPlaces, currentDecimalPlaces))); newValue = round(newValue * scale) / scale; } else { double scale = pow(10.0, static_cast(max(stepDecimalPlaces, baseDecimalPlaces))); newValue = round((base + round((newValue - base) / step) * step) * scale) / scale; } return newValue; } void HTMLInputElement::stepUp(int n, ExceptionCode& ec) { applyStep(n, RejectAny, DispatchNoEvent, ec); } void HTMLInputElement::stepDown(int n, ExceptionCode& ec) { applyStep(-n, RejectAny, DispatchNoEvent, ec); } bool HTMLInputElement::isKeyboardFocusable(KeyboardEvent* event) const { if (isTextField()) return HTMLTextFormControlElement::isFocusable(); return HTMLTextFormControlElement::isKeyboardFocusable(event) && m_inputType->isKeyboardFocusable(); } bool HTMLInputElement::isMouseFocusable() const { if (isTextField()) return HTMLTextFormControlElement::isFocusable(); return HTMLTextFormControlElement::isMouseFocusable(); } void HTMLInputElement::updateFocusAppearance(bool restorePreviousSelection) { if (isTextField()) { if (!restorePreviousSelection || !hasCachedSelection()) select(); else restoreCachedSelection(); if (document()->frame()) document()->frame()->selection()->revealSelection(); } else HTMLTextFormControlElement::updateFocusAppearance(restorePreviousSelection); } void HTMLInputElement::aboutToUnload() { if (!isTextField() || !focused()) return; Frame* frame = document()->frame(); if (!frame) return; frame->editor()->textFieldDidEndEditing(this); } bool HTMLInputElement::shouldUseInputMethod() { return m_inputType->shouldUseInputMethod(); } void HTMLInputElement::handleFocusEvent() { m_inputType->handleFocusEvent(); } void HTMLInputElement::handleBlurEvent() { m_inputType->handleBlurEvent(); } void HTMLInputElement::setType(const String& type) { // FIXME: This should just call setAttribute. No reason to handle the empty string specially. // We should write a test case to show that setting to the empty string does not remove the // attribute in other browsers and then fix this. Note that setting to null *does* remove // the attribute and setAttribute implements that. if (type.isEmpty()) removeAttribute(typeAttr); else setAttribute(typeAttr, type); } void HTMLInputElement::updateType() { OwnPtr newType = InputType::create(this, fastGetAttribute(typeAttr)); bool hadType = m_hasType; m_hasType = true; if (m_inputType->formControlType() == newType->formControlType()) return; if (hadType && !newType->canChangeFromAnotherType()) { // Set the attribute back to the old value. // Useful in case we were called from inside parseAttribute. setAttribute(typeAttr, type()); return; } removeFromRadioButtonGroup(); bool wasAttached = attached(); if (wasAttached) detach(); bool didStoreValue = m_inputType->storesValueSeparateFromAttribute(); bool neededSuspensionCallback = needsSuspensionCallback(); bool didRespectHeightAndWidth = m_inputType->shouldRespectHeightAndWidthAttributes(); m_inputType->destroyShadowSubtree(); m_inputType = newType.release(); m_inputType->createShadowSubtree(); setNeedsWillValidateCheck(); bool willStoreValue = m_inputType->storesValueSeparateFromAttribute(); if (didStoreValue && !willStoreValue && hasDirtyValue()) { setAttribute(valueAttr, m_valueIfDirty); m_valueIfDirty = String(); } if (!didStoreValue && willStoreValue) { AtomicString valueString = fastGetAttribute(valueAttr); m_valueIfDirty = sanitizeValue(valueString); } else updateValueIfNeeded(); setFormControlValueMatchesRenderer(false); updateInnerTextValue(); m_wasModifiedByUser = false; if (neededSuspensionCallback) unregisterForSuspensionCallbackIfNeeded(); else registerForSuspensionCallbackIfNeeded(); if (didRespectHeightAndWidth != m_inputType->shouldRespectHeightAndWidthAttributes()) { ASSERT(attributeData()); if (Attribute* height = getAttributeItem(heightAttr)) attributeChanged(height); if (Attribute* width = getAttributeItem(widthAttr)) attributeChanged(width); if (Attribute* align = getAttributeItem(alignAttr)) attributeChanged(align); } if (wasAttached) { attach(); if (document()->focusedNode() == this) updateFocusAppearance(true); } setChangedSinceLastFormControlChangeEvent(false); addToRadioButtonGroup(); setNeedsValidityCheck(); notifyFormStateChanged(); } void HTMLInputElement::updateInnerTextValue() { if (!isTextField()) return; if (!suggestedValue().isNull()) { setInnerTextValue(suggestedValue()); updatePlaceholderVisibility(false); } else if (!formControlValueMatchesRenderer()) { // Update the renderer value if the formControlValueMatchesRenderer() flag is false. // It protects an unacceptable renderer value from being overwritten with the DOM value. setInnerTextValue(visibleValue()); updatePlaceholderVisibility(false); } } void HTMLInputElement::subtreeHasChanged() { ASSERT(isTextField()); ASSERT(renderer()); RenderTextControlSingleLine* renderTextControl = toRenderTextControlSingleLine(renderer()); bool wasChanged = wasChangedSinceLastFormControlChangeEvent(); setChangedSinceLastFormControlChangeEvent(true); // We don't need to call sanitizeUserInputValue() function here because // HTMLInputElement::handleBeforeTextInsertedEvent() has already called // sanitizeUserInputValue(). // sanitizeValue() is needed because IME input doesn't dispatch BeforeTextInsertedEvent. String value = innerTextValue(); if (isAcceptableValue(value)) setValueFromRenderer(sanitizeValue(convertFromVisibleValue(value))); updatePlaceholderVisibility(false); // Recalc for :invalid and hasUnacceptableValue() change. setNeedsStyleRecalc(); if (cancelButtonElement()) renderTextControl->updateCancelButtonVisibility(); // If the incremental attribute is set, then dispatch the search event if (searchEventsShouldBeDispatched() && isSearchField() && m_inputType) static_cast(m_inputType.get())->startSearchEventTimer(); if (!wasChanged && focused()) { if (Frame* frame = document()->frame()) frame->editor()->textFieldDidBeginEditing(this); } if (focused()) { if (Frame* frame = document()->frame()) frame->editor()->textDidChangeInTextField(this); } // When typing in an input field, childrenChanged is not called, so we need to force the directionality check. if (isTextField()) calculateAndAdjustDirectionality(); } const AtomicString& HTMLInputElement::formControlType() const { return m_inputType->formControlType(); } bool HTMLInputElement::saveFormControlState(String& result) const { return m_inputType->saveFormControlState(result); } void HTMLInputElement::restoreFormControlState(const String& state) { m_inputType->restoreFormControlState(state); m_stateRestored = true; } bool HTMLInputElement::canStartSelection() const { if (!isTextField()) return false; return HTMLTextFormControlElement::canStartSelection(); } bool HTMLInputElement::canHaveSelection() const { return isTextField(); } void HTMLInputElement::accessKeyAction(bool sendMouseEvents) { m_inputType->accessKeyAction(sendMouseEvents); } bool HTMLInputElement::isPresentationAttribute(const QualifiedName& name) const { if (name == vspaceAttr || name == hspaceAttr || name == alignAttr || name == widthAttr || name == heightAttr || (name == borderAttr && isImageButton())) return true; return HTMLTextFormControlElement::isPresentationAttribute(name); } void HTMLInputElement::collectStyleForAttribute(Attribute* attr, StylePropertySet* style) { if (attr->name() == vspaceAttr) { addHTMLLengthToStyle(style, CSSPropertyMarginTop, attr->value()); addHTMLLengthToStyle(style, CSSPropertyMarginBottom, attr->value()); } else if (attr->name() == hspaceAttr) { addHTMLLengthToStyle(style, CSSPropertyMarginLeft, attr->value()); addHTMLLengthToStyle(style, CSSPropertyMarginRight, attr->value()); } else if (attr->name() == alignAttr) { if (m_inputType->shouldRespectAlignAttribute()) applyAlignmentAttributeToStyle(attr, style); } else if (attr->name() == widthAttr) { if (m_inputType->shouldRespectHeightAndWidthAttributes()) addHTMLLengthToStyle(style, CSSPropertyWidth, attr->value()); } else if (attr->name() == heightAttr) { if (m_inputType->shouldRespectHeightAndWidthAttributes()) addHTMLLengthToStyle(style, CSSPropertyHeight, attr->value()); } else if (attr->name() == borderAttr && isImageButton()) applyBorderAttributeToStyle(attr, style); else return HTMLTextFormControlElement::collectStyleForAttribute(attr, style); } void HTMLInputElement::parseAttribute(Attribute* attr) { if (attr->name() == nameAttr) { removeFromRadioButtonGroup(); m_name = attr->value(); addToRadioButtonGroup(); HTMLTextFormControlElement::parseAttribute(attr); } else if (attr->name() == autocompleteAttr) { if (equalIgnoringCase(attr->value(), "off")) { m_autocomplete = Off; registerForSuspensionCallbackIfNeeded(); } else { bool needsToUnregister = m_autocomplete == Off; if (attr->isEmpty()) m_autocomplete = Uninitialized; else m_autocomplete = On; if (needsToUnregister) unregisterForSuspensionCallbackIfNeeded(); } } else if (attr->name() == typeAttr) { updateType(); } else if (attr->name() == valueAttr) { // Changes to the value attribute may change whether or not this element has a default value. // If this field is autocomplete=off that might affect the return value of needsSuspensionCallback. if (m_autocomplete == Off) { unregisterForSuspensionCallbackIfNeeded(); registerForSuspensionCallbackIfNeeded(); } // We only need to setChanged if the form is looking at the default value right now. if (!hasDirtyValue()) { updatePlaceholderVisibility(false); setNeedsStyleRecalc(); } setFormControlValueMatchesRenderer(false); setNeedsValidityCheck(); } else if (attr->name() == checkedAttr) { // Another radio button in the same group might be checked by state // restore. We shouldn't call setChecked() even if this has the checked // attribute. So, delay the setChecked() call until // finishParsingChildren() is called if parsing is in progress. if (!m_parsingInProgress && m_reflectsCheckedAttribute) { setChecked(!attr->isNull()); m_reflectsCheckedAttribute = true; } } else if (attr->name() == maxlengthAttr) parseMaxLengthAttribute(attr); else if (attr->name() == sizeAttr) { int oldSize = m_size; int value = attr->value().toInt(); m_size = value > 0 ? value : defaultSize; if (m_size != oldSize && renderer()) renderer()->setNeedsLayoutAndPrefWidthsRecalc(); } else if (attr->name() == altAttr) m_inputType->altAttributeChanged(); else if (attr->name() == srcAttr) m_inputType->srcAttributeChanged(); else if (attr->name() == usemapAttr || attr->name() == accesskeyAttr) { // FIXME: ignore for the moment } else if (attr->name() == onsearchAttr) { // Search field and slider attributes all just cause updateFromElement to be called through style recalcing. setAttributeEventListener(eventNames().searchEvent, createAttributeEventListener(this, attr)); } else if (attr->name() == resultsAttr) { int oldResults = m_maxResults; m_maxResults = !attr->isNull() ? std::min(attr->value().toInt(), maxSavedResults) : -1; // FIXME: Detaching just for maxResults change is not ideal. We should figure out the right // time to relayout for this change. if (m_maxResults != oldResults && (m_maxResults <= 0 || oldResults <= 0)) reattachIfAttached(); setNeedsStyleRecalc(); } else if (attr->name() == autosaveAttr || attr->name() == incrementalAttr) setNeedsStyleRecalc(); else if (attr->name() == minAttr || attr->name() == maxAttr) { m_inputType->minOrMaxAttributeChanged(); setNeedsValidityCheck(); } else if (attr->name() == multipleAttr) { m_inputType->multipleAttributeChanged(); setNeedsValidityCheck(); } else if (attr->name() == stepAttr) { m_inputType->stepAttributeChanged(); setNeedsValidityCheck(); } else if (attr->name() == patternAttr || attr->name() == precisionAttr) setNeedsValidityCheck(); else if (attr->name() == disabledAttr) { HTMLTextFormControlElement::parseAttribute(attr); m_inputType->disabledAttributeChanged(); } else if (attr->name() == readonlyAttr) { HTMLTextFormControlElement::parseAttribute(attr); m_inputType->readonlyAttributeChanged(); } #if ENABLE(DATALIST) else if (attr->name() == listAttr) m_hasNonEmptyList = !attr->isEmpty(); // FIXME: we need to tell this change to a renderer if the attribute affects the appearance. #endif #if ENABLE(INPUT_SPEECH) else if (attr->name() == webkitspeechAttr) { if (renderer()) { // This renderer and its children have quite different layouts and styles depending on // whether the speech button is visible or not. So we reset the whole thing and recreate // to get the right styles and layout. detach(); m_inputType->destroyShadowSubtree(); m_inputType->createShadowSubtree(); attach(); } else { m_inputType->destroyShadowSubtree(); m_inputType->createShadowSubtree(); } setFormControlValueMatchesRenderer(false); setNeedsStyleRecalc(); } else if (attr->name() == onwebkitspeechchangeAttr) setAttributeEventListener(eventNames().webkitspeechchangeEvent, createAttributeEventListener(this, attr)); #endif else HTMLTextFormControlElement::parseAttribute(attr); updateInnerTextValue(); } void HTMLInputElement::finishParsingChildren() { m_parsingInProgress = false; HTMLTextFormControlElement::finishParsingChildren(); if (!m_stateRestored) { bool checked = hasAttribute(checkedAttr); if (checked) setChecked(checked); m_reflectsCheckedAttribute = true; } } bool HTMLInputElement::rendererIsNeeded(const NodeRenderingContext& context) { return m_inputType->rendererIsNeeded() && HTMLTextFormControlElement::rendererIsNeeded(context); } RenderObject* HTMLInputElement::createRenderer(RenderArena* arena, RenderStyle* style) { return m_inputType->createRenderer(arena, style); } void HTMLInputElement::attach() { suspendPostAttachCallbacks(); if (!m_hasType) updateType(); HTMLTextFormControlElement::attach(); m_inputType->attach(); if (document()->focusedNode() == this) document()->updateFocusAppearanceSoon(true /* restore selection */); resumePostAttachCallbacks(); } void HTMLInputElement::detach() { HTMLTextFormControlElement::detach(); setFormControlValueMatchesRenderer(false); m_inputType->detach(); } String HTMLInputElement::altText() const { // http://www.w3.org/TR/1998/REC-html40-19980424/appendix/notes.html#altgen // also heavily discussed by Hixie on bugzilla // note this is intentionally different to HTMLImageElement::altText() String alt = fastGetAttribute(altAttr); // fall back to title attribute if (alt.isNull()) alt = getAttribute(titleAttr); if (alt.isNull()) alt = getAttribute(valueAttr); if (alt.isEmpty()) alt = inputElementAltText(); return alt; } bool HTMLInputElement::isSuccessfulSubmitButton() const { // HTML spec says that buttons must have names to be considered successful. // However, other browsers do not impose this constraint. So we do not. return !disabled() && m_inputType->canBeSuccessfulSubmitButton(); } bool HTMLInputElement::isActivatedSubmit() const { return m_isActivatedSubmit; } void HTMLInputElement::setActivatedSubmit(bool flag) { m_isActivatedSubmit = flag; } bool HTMLInputElement::appendFormData(FormDataList& encoding, bool multipart) { return m_inputType->isFormDataAppendable() && m_inputType->appendFormData(encoding, multipart); } void HTMLInputElement::reset() { if (m_inputType->storesValueSeparateFromAttribute()) setValue(String()); setAutofilled(false); setChecked(hasAttribute(checkedAttr)); m_reflectsCheckedAttribute = true; } bool HTMLInputElement::isTextField() const { return m_inputType->isTextField(); } bool HTMLInputElement::isTextType() const { return m_inputType->isTextType(); } void HTMLInputElement::setChecked(bool nowChecked, TextFieldEventBehavior eventBehavior) { if (checked() == nowChecked) return; m_reflectsCheckedAttribute = false; m_isChecked = nowChecked; setNeedsStyleRecalc(); if (CheckedRadioButtons* buttons = checkedRadioButtons()) buttons->updateCheckedState(this); if (renderer() && renderer()->style()->hasAppearance()) renderer()->theme()->stateChanged(renderer(), CheckedState); setNeedsValidityCheck(); // Ideally we'd do this from the render tree (matching // RenderTextView), but it's not possible to do it at the moment // because of the way the code is structured. if (renderer() && AXObjectCache::accessibilityEnabled()) renderer()->document()->axObjectCache()->checkedStateChanged(renderer()); // Only send a change event for items in the document (avoid firing during // parsing) and don't send a change event for a radio button that's getting // unchecked to match other browsers. DOM is not a useful standard for this // because it says only to fire change events at "lose focus" time, which is // definitely wrong in practice for these types of elements. if (eventBehavior != DispatchNoEvent && inDocument() && m_inputType->shouldSendChangeEventAfterCheckedChanged()) { setTextAsOfLastFormControlChangeEvent(String()); dispatchFormControlChangeEvent(); } } void HTMLInputElement::setIndeterminate(bool newValue) { if (indeterminate() == newValue) return; m_isIndeterminate = newValue; setNeedsStyleRecalc(); if (renderer() && renderer()->style()->hasAppearance()) renderer()->theme()->stateChanged(renderer(), CheckedState); } int HTMLInputElement::size() const { return m_size; } bool HTMLInputElement::sizeShouldIncludeDecoration(int& preferredSize) const { return m_inputType->sizeShouldIncludeDecoration(defaultSize, preferredSize); } void HTMLInputElement::copyNonAttributeProperties(const Element* source) { const HTMLInputElement* sourceElement = static_cast(source); m_valueIfDirty = sourceElement->m_valueIfDirty; m_wasModifiedByUser = false; setChecked(sourceElement->m_isChecked); m_reflectsCheckedAttribute = sourceElement->m_reflectsCheckedAttribute; m_isIndeterminate = sourceElement->m_isIndeterminate; HTMLTextFormControlElement::copyNonAttributeProperties(source); setFormControlValueMatchesRenderer(false); updateInnerTextValue(); } String HTMLInputElement::value() const { String value; if (m_inputType->getTypeSpecificValue(value)) return value; value = m_valueIfDirty; if (!value.isNull()) return value; AtomicString valueString = fastGetAttribute(valueAttr); value = sanitizeValue(valueString); if (!value.isNull()) return value; return m_inputType->fallbackValue(); } String HTMLInputElement::valueWithDefault() const { String value = this->value(); if (!value.isNull()) return value; return m_inputType->defaultValue(); } void HTMLInputElement::setValueForUser(const String& value) { // Call setValue and make it send a change event. setValue(value, DispatchChangeEvent); } const String& HTMLInputElement::suggestedValue() const { return m_suggestedValue; } void HTMLInputElement::setSuggestedValue(const String& value) { if (!m_inputType->canSetSuggestedValue()) return; setFormControlValueMatchesRenderer(false); m_suggestedValue = sanitizeValue(value); setNeedsStyleRecalc(); updateInnerTextValue(); } void HTMLInputElement::setValue(const String& value, TextFieldEventBehavior eventBehavior) { if (!m_inputType->canSetValue(value)) return; RefPtr protector(this); String sanitizedValue = sanitizeValue(value); bool valueChanged = sanitizedValue != this->value(); setLastChangeWasNotUserEdit(); setFormControlValueMatchesRenderer(false); m_suggestedValue = String(); // Prevent TextFieldInputType::setValue from using the suggested value. m_inputType->setValue(sanitizedValue, valueChanged, eventBehavior); if (!valueChanged) return; notifyFormStateChanged(); } void HTMLInputElement::setValueInternal(const String& sanitizedValue, TextFieldEventBehavior eventBehavior) { m_valueIfDirty = sanitizedValue; m_wasModifiedByUser = eventBehavior != DispatchNoEvent; setNeedsValidityCheck(); } double HTMLInputElement::valueAsDate() const { return m_inputType->valueAsDate(); } void HTMLInputElement::setValueAsDate(double value, ExceptionCode& ec) { m_inputType->setValueAsDate(value, ec); } double HTMLInputElement::valueAsNumber() const { return m_inputType->valueAsNumber(); } void HTMLInputElement::setValueAsNumber(double newValue, ExceptionCode& ec, TextFieldEventBehavior eventBehavior) { if (!isfinite(newValue)) { ec = NOT_SUPPORTED_ERR; return; } m_inputType->setValueAsNumber(newValue, eventBehavior, ec); } String HTMLInputElement::placeholder() const { return fastGetAttribute(placeholderAttr).string(); } void HTMLInputElement::setPlaceholder(const String& value) { setAttribute(placeholderAttr, value); } bool HTMLInputElement::searchEventsShouldBeDispatched() const { return hasAttribute(incrementalAttr); } void HTMLInputElement::setValueFromRenderer(const String& value) { // File upload controls will never use this. ASSERT(!isFileUpload()); m_suggestedValue = String(); // Renderer and our event handler are responsible for sanitizing values. ASSERT(value == sanitizeValue(value) || sanitizeValue(value).isEmpty()); // Workaround for bug where trailing \n is included in the result of textContent. // The assert macro above may also be simplified to: value == constrainValue(value) // http://bugs.webkit.org/show_bug.cgi?id=9661 m_valueIfDirty = value == "\n" ? String("") : value; setFormControlValueMatchesRenderer(true); m_wasModifiedByUser = true; // Input event is fired by the Node::defaultEventHandler for editable controls. if (!isTextField()) dispatchInputEvent(); notifyFormStateChanged(); setNeedsValidityCheck(); // Clear autofill flag (and yellow background) on user edit. setAutofilled(false); } void* HTMLInputElement::preDispatchEventHandler(Event* event) { if (event->type() == eventNames().textInputEvent && m_inputType->shouldSubmitImplicitly(event)) { event->stopPropagation(); return 0; } if (event->type() != eventNames().clickEvent) return 0; if (!event->isMouseEvent() || static_cast(event)->button() != LeftButton) return 0; // FIXME: Check whether there are any cases where this actually ends up leaking. return m_inputType->willDispatchClick().leakPtr(); } void HTMLInputElement::postDispatchEventHandler(Event* event, void* dataFromPreDispatch) { OwnPtr state = adoptPtr(static_cast(dataFromPreDispatch)); if (!state) return; m_inputType->didDispatchClick(event, *state); } void HTMLInputElement::defaultEventHandler(Event* evt) { if (evt->isMouseEvent() && evt->type() == eventNames().clickEvent && static_cast(evt)->button() == LeftButton) { m_inputType->handleClickEvent(static_cast(evt)); if (evt->defaultHandled()) return; } if (evt->isKeyboardEvent() && evt->type() == eventNames().keydownEvent) { m_inputType->handleKeydownEvent(static_cast(evt)); if (evt->defaultHandled()) return; } // Call the base event handler before any of our own event handling for almost all events in text fields. // Makes editing keyboard handling take precedence over the keydown and keypress handling in this function. bool callBaseClassEarly = isTextField() && (evt->type() == eventNames().keydownEvent || evt->type() == eventNames().keypressEvent); if (callBaseClassEarly) { HTMLTextFormControlElement::defaultEventHandler(evt); if (evt->defaultHandled()) return; } // DOMActivate events cause the input to be "activated" - in the case of image and submit inputs, this means // actually submitting the form. For reset inputs, the form is reset. These events are sent when the user clicks // on the element, or presses enter while it is the active element. JavaScript code wishing to activate the element // must dispatch a DOMActivate event - a click event will not do the job. if (evt->type() == eventNames().DOMActivateEvent) { m_inputType->handleDOMActivateEvent(evt); if (evt->defaultHandled()) return; } // Use key press event here since sending simulated mouse events // on key down blocks the proper sending of the key press event. if (evt->isKeyboardEvent() && evt->type() == eventNames().keypressEvent) { m_inputType->handleKeypressEvent(static_cast(evt)); if (evt->defaultHandled()) return; } if (evt->isKeyboardEvent() && evt->type() == eventNames().keyupEvent) { m_inputType->handleKeyupEvent(static_cast(evt)); if (evt->defaultHandled()) return; } if (m_inputType->shouldSubmitImplicitly(evt)) { if (isSearchField()) { addSearchResult(); onSearch(); } // Form submission finishes editing, just as loss of focus does. // If there was a change, send the event now. if (wasChangedSinceLastFormControlChangeEvent()) dispatchFormControlChangeEvent(); RefPtr formForSubmission = m_inputType->formForSubmission(); // Form may never have been present, or may have been destroyed by code responding to the change event. if (formForSubmission) formForSubmission->submitImplicitly(evt, canTriggerImplicitSubmission()); evt->setDefaultHandled(); return; } if (evt->isBeforeTextInsertedEvent()) m_inputType->handleBeforeTextInsertedEvent(static_cast(evt)); if (evt->hasInterface(eventNames().interfaceForWheelEvent)) { m_inputType->handleWheelEvent(static_cast(evt)); if (evt->defaultHandled()) return; } if (evt->isMouseEvent() && evt->type() == eventNames().mousedownEvent) { m_inputType->handleMouseDownEvent(static_cast(evt)); if (evt->defaultHandled()) return; } m_inputType->forwardEvent(evt); if (!callBaseClassEarly && !evt->defaultHandled()) HTMLTextFormControlElement::defaultEventHandler(evt); } bool HTMLInputElement::isURLAttribute(Attribute *attr) const { return attr->name() == srcAttr || attr->name() == formactionAttr || HTMLTextFormControlElement::isURLAttribute(attr); } String HTMLInputElement::defaultValue() const { return fastGetAttribute(valueAttr); } void HTMLInputElement::setDefaultValue(const String &value) { setAttribute(valueAttr, value); } static inline bool isRFC2616TokenCharacter(UChar ch) { return isASCII(ch) && ch > ' ' && ch != '"' && ch != '(' && ch != ')' && ch != ',' && ch != '/' && (ch < ':' || ch > '@') && (ch < '[' || ch > ']') && ch != '{' && ch != '}' && ch != 0x7f; } static inline bool isValidMIMEType(const String& type) { size_t slashPosition = type.find('/'); if (slashPosition == notFound || !slashPosition || slashPosition == type.length() - 1) return false; for (size_t i = 0; i < type.length(); ++i) { if (!isRFC2616TokenCharacter(type[i]) && i != slashPosition) return false; } return true; } Vector HTMLInputElement::acceptMIMETypes() { Vector mimeTypes; String acceptString = accept(); if (acceptString.isEmpty()) return mimeTypes; Vector splitTypes; acceptString.split(',', false, splitTypes); for (size_t i = 0; i < splitTypes.size(); ++i) { String trimmedMimeType = stripLeadingAndTrailingHTMLSpaces(splitTypes[i]); if (trimmedMimeType.isEmpty()) continue; if (!isValidMIMEType(trimmedMimeType)) continue; mimeTypes.append(trimmedMimeType.lower()); } return mimeTypes; } String HTMLInputElement::accept() const { return fastGetAttribute(acceptAttr); } String HTMLInputElement::alt() const { return fastGetAttribute(altAttr); } int HTMLInputElement::maxLength() const { return m_maxLength; } void HTMLInputElement::setMaxLength(int maxLength, ExceptionCode& ec) { if (maxLength < 0) ec = INDEX_SIZE_ERR; else setAttribute(maxlengthAttr, String::number(maxLength)); } bool HTMLInputElement::multiple() const { return fastHasAttribute(multipleAttr); } void HTMLInputElement::setSize(unsigned size) { setAttribute(sizeAttr, String::number(size)); } KURL HTMLInputElement::src() const { return document()->completeURL(fastGetAttribute(srcAttr)); } void HTMLInputElement::setAutofilled(bool autofilled) { if (autofilled == m_isAutofilled) return; m_isAutofilled = autofilled; setNeedsStyleRecalc(); } FileList* HTMLInputElement::files() { return m_inputType->files(); } void HTMLInputElement::receiveDroppedFiles(const Vector& filenames) { m_inputType->receiveDroppedFiles(filenames); } Icon* HTMLInputElement::icon() const { return m_inputType->icon(); } bool HTMLInputElement::canReceiveDroppedFiles() const { return m_canReceiveDroppedFiles; } void HTMLInputElement::setCanReceiveDroppedFiles(bool canReceiveDroppedFiles) { if (m_canReceiveDroppedFiles == canReceiveDroppedFiles) return; m_canReceiveDroppedFiles = canReceiveDroppedFiles; if (renderer()) renderer()->updateFromElement(); } String HTMLInputElement::visibleValue() const { return m_inputType->visibleValue(); } String HTMLInputElement::convertFromVisibleValue(const String& visibleValue) const { return m_inputType->convertFromVisibleValue(visibleValue); } bool HTMLInputElement::isAcceptableValue(const String& proposedValue) const { return m_inputType->isAcceptableValue(proposedValue); } String HTMLInputElement::sanitizeValue(const String& proposedValue) const { if (proposedValue.isNull()) return proposedValue; return m_inputType->sanitizeValue(proposedValue); } bool HTMLInputElement::hasUnacceptableValue() const { return m_inputType->hasUnacceptableValue(); } bool HTMLInputElement::isInRange() const { return m_inputType->supportsRangeLimitation() && !rangeUnderflow(value()) && !rangeOverflow(value()); } bool HTMLInputElement::isOutOfRange() const { return m_inputType->supportsRangeLimitation() && (rangeUnderflow(value()) || rangeOverflow(value())); } bool HTMLInputElement::needsSuspensionCallback() { if (m_inputType->shouldResetOnDocumentActivation()) return true; // Sensitive input elements are marked with autocomplete=off, and we want to wipe them out // when going back; returning true here arranges for us to call reset at the time // the page is restored. Non-empty textual default values indicate that the field // is not really sensitive -- there's no default value for an account number -- // and we would see unexpected results if we reset to something other than blank. bool isSensitive = m_autocomplete == Off && !(m_inputType->isTextType() && !defaultValue().isEmpty()); return isSensitive; } void HTMLInputElement::registerForSuspensionCallbackIfNeeded() { if (needsSuspensionCallback()) document()->registerForPageCacheSuspensionCallbacks(this); } void HTMLInputElement::unregisterForSuspensionCallbackIfNeeded() { if (!needsSuspensionCallback()) document()->unregisterForPageCacheSuspensionCallbacks(this); } bool HTMLInputElement::isRequiredFormControl() const { return m_inputType->supportsRequired() && required(); } void HTMLInputElement::addSearchResult() { ASSERT(isSearchField()); if (renderer()) toRenderTextControlSingleLine(renderer())->addSearchResult(); } void HTMLInputElement::onSearch() { ASSERT(isSearchField()); if (m_inputType) static_cast(m_inputType.get())->stopSearchEventTimer(); dispatchEvent(Event::create(eventNames().searchEvent, true, false)); } void HTMLInputElement::documentDidResumeFromPageCache() { ASSERT(needsSuspensionCallback()); reset(); } void HTMLInputElement::willChangeForm() { removeFromRadioButtonGroup(); HTMLTextFormControlElement::willChangeForm(); } void HTMLInputElement::didChangeForm() { HTMLTextFormControlElement::didChangeForm(); addToRadioButtonGroup(); } Node::InsertionNotificationRequest HTMLInputElement::insertedInto(Node* insertionPoint) { HTMLTextFormControlElement::insertedInto(insertionPoint); if (!insertionPoint->inDocument()) return InsertionDone; ASSERT(inDocument()); addToRadioButtonGroup(); return InsertionDone; } void HTMLInputElement::removedFrom(Node* insertionPoint) { if (insertionPoint->inDocument()) removeFromRadioButtonGroup(); HTMLTextFormControlElement::removedFrom(insertionPoint); } void HTMLInputElement::didMoveToNewDocument(Document* oldDocument) { m_inputType->willMoveToNewOwnerDocument(); bool needsSuspensionCallback = this->needsSuspensionCallback(); if (oldDocument) { // Always unregister for cache callbacks when leaving a document, even if we would otherwise like to be registered if (needsSuspensionCallback) oldDocument->unregisterForPageCacheSuspensionCallbacks(this); if (isRadioButton()) oldDocument->checkedRadioButtons().removeButton(this); } if (needsSuspensionCallback) document()->registerForPageCacheSuspensionCallbacks(this); HTMLTextFormControlElement::didMoveToNewDocument(oldDocument); } void HTMLInputElement::addSubresourceAttributeURLs(ListHashSet& urls) const { HTMLTextFormControlElement::addSubresourceAttributeURLs(urls); addSubresourceURL(urls, src()); } bool HTMLInputElement::recalcWillValidate() const { return m_inputType->supportsValidation() && HTMLTextFormControlElement::recalcWillValidate(); } void HTMLInputElement::requiredAttributeChanged() { HTMLTextFormControlElement::requiredAttributeChanged(); if (CheckedRadioButtons* buttons = checkedRadioButtons()) buttons->requiredAttributeChanged(this); } #if ENABLE(INPUT_TYPE_COLOR) void HTMLInputElement::selectColorInColorChooser(const Color& color) { if (!m_inputType->isColorControl()) return; static_cast(m_inputType.get())->didChooseColor(color); } #endif #if ENABLE(DATALIST) HTMLElement* HTMLInputElement::list() const { return dataList(); } HTMLDataListElement* HTMLInputElement::dataList() const { if (!m_hasNonEmptyList) return 0; if (!m_inputType->shouldRespectListAttribute()) return 0; Element* element = treeScope()->getElementById(fastGetAttribute(listAttr)); if (!element) return 0; if (!element->hasTagName(datalistTag)) return 0; return static_cast(element); } #endif // ENABLE(DATALIST) bool HTMLInputElement::isSteppable() const { return m_inputType->isSteppable(); } void HTMLInputElement::stepUpFromRenderer(int n) { // The differences from stepUp()/stepDown(): // // Difference 1: the current value // If the current value is not a number, including empty, the current value is assumed as 0. // * If 0 is in-range, and matches to step value // - The value should be the +step if n > 0 // - The value should be the -step if n < 0 // If -step or +step is out of range, new value should be 0. // * If 0 is smaller than the minimum value // - The value should be the minimum value for any n // * If 0 is larger than the maximum value // - The value should be the maximum value for any n // * If 0 is in-range, but not matched to step value // - The value should be the larger matched value nearest to 0 if n > 0 // e.g. -> 2 // - The value should be the smaler matched value nearest to 0 if n < 0 // e.g. -> -1 // As for date/datetime-local/month/time/week types, the current value is assumed as "the current local date/time". // As for datetime type, the current value is assumed as "the current date/time in UTC". // If the current value is smaller than the minimum value: // - The value should be the minimum value if n > 0 // - Nothing should happen if n < 0 // If the current value is larger than the maximum value: // - The value should be the maximum value if n < 0 // - Nothing should happen if n > 0 // // Difference 2: clamping steps // If the current value is not matched to step value: // - The value should be the larger matched value nearest to 0 if n > 0 // e.g. -> 5 // - The value should be the smaler matched value nearest to 0 if n < 0 // e.g. -> 2 // // n is assumed as -n if step < 0. ASSERT(isSteppable()); if (!isSteppable()) return; ASSERT(n); if (!n) return; unsigned stepDecimalPlaces, baseDecimalPlaces; double step, base; // FIXME: Not any changes after stepping, even if it is an invalid value, may be better. // (e.g. Stepping-up for => "foo") if (!getAllowedValueStepWithDecimalPlaces(AnyIsDefaultStep, &step, &stepDecimalPlaces)) return; base = m_inputType->stepBaseWithDecimalPlaces(&baseDecimalPlaces); baseDecimalPlaces = min(baseDecimalPlaces, 16u); int sign; if (step > 0) sign = n; else if (step < 0) sign = -n; else sign = 0; const double nan = numeric_limits::quiet_NaN(); String currentStringValue = value(); double current = m_inputType->parseToDouble(currentStringValue, nan); if (!isfinite(current)) { ExceptionCode ec; current = m_inputType->defaultValueForStepUp(); double nextDiff = step * n; if (current < m_inputType->minimum() - nextDiff) current = m_inputType->minimum() - nextDiff; if (current > m_inputType->maximum() - nextDiff) current = m_inputType->maximum() - nextDiff; setValueAsNumber(current, ec, DispatchInputAndChangeEvent); } if ((sign > 0 && current < m_inputType->minimum()) || (sign < 0 && current > m_inputType->maximum())) setValue(m_inputType->serialize(sign > 0 ? m_inputType->minimum() : m_inputType->maximum()), DispatchInputAndChangeEvent); else { ExceptionCode ec; if (stepMismatch(value())) { ASSERT(step); double newValue; double scale = pow(10.0, static_cast(max(stepDecimalPlaces, baseDecimalPlaces))); if (sign < 0) newValue = round((base + floor((current - base) / step) * step) * scale) / scale; else if (sign > 0) newValue = round((base + ceil((current - base) / step) * step) * scale) / scale; else newValue = current; if (newValue < m_inputType->minimum()) newValue = m_inputType->minimum(); if (newValue > m_inputType->maximum()) newValue = m_inputType->maximum(); setValueAsNumber(newValue, ec, n == 1 || n == -1 ? DispatchInputAndChangeEvent : DispatchNoEvent); current = newValue; if (n > 1) applyStep(n - 1, AnyIsDefaultStep, DispatchInputAndChangeEvent, ec); else if (n < -1) applyStep(n + 1, AnyIsDefaultStep, DispatchInputAndChangeEvent, ec); } else applyStep(n, AnyIsDefaultStep, DispatchInputAndChangeEvent, ec); } } #if ENABLE(INPUT_SPEECH) bool HTMLInputElement::isSpeechEnabled() const { // FIXME: Add support for RANGE, EMAIL, URL, COLOR and DATE/TIME input types. return m_inputType->shouldRespectSpeechAttribute() && RuntimeEnabledFeatures::speechInputEnabled() && hasAttribute(webkitspeechAttr); } #endif bool HTMLInputElement::isTextButton() const { return m_inputType->isTextButton(); } bool HTMLInputElement::isRadioButton() const { return m_inputType->isRadioButton(); } bool HTMLInputElement::isSearchField() const { return m_inputType->isSearchField(); } bool HTMLInputElement::isInputTypeHidden() const { return m_inputType->isHiddenType(); } bool HTMLInputElement::isPasswordField() const { return m_inputType->isPasswordField(); } bool HTMLInputElement::isCheckbox() const { return m_inputType->isCheckbox(); } bool HTMLInputElement::isRangeControl() const { return m_inputType->isRangeControl(); } bool HTMLInputElement::isText() const { return m_inputType->isTextType(); } bool HTMLInputElement::isEmailField() const { return m_inputType->isEmailField(); } bool HTMLInputElement::isFileUpload() const { return m_inputType->isFileUpload(); } bool HTMLInputElement::isImageButton() const { return m_inputType->isImageButton(); } bool HTMLInputElement::isNumberField() const { return m_inputType->isNumberField(); } bool HTMLInputElement::isSubmitButton() const { return m_inputType->isSubmitButton(); } bool HTMLInputElement::isTelephoneField() const { return m_inputType->isTelephoneField(); } bool HTMLInputElement::isURLField() const { return m_inputType->isURLField(); } bool HTMLInputElement::isEnumeratable() const { return m_inputType->isEnumeratable(); } bool HTMLInputElement::supportLabels() const { return m_inputType->supportLabels(); } bool HTMLInputElement::shouldAppearChecked() const { return checked() && m_inputType->isCheckable(); } bool HTMLInputElement::supportsPlaceholder() const { return m_inputType->supportsPlaceholder(); } bool HTMLInputElement::isPlaceholderEmpty() const { if (m_inputType->usesFixedPlaceholder()) return m_inputType->fixedPlaceholder().isEmpty(); return HTMLTextFormControlElement::isPlaceholderEmpty(); } void HTMLInputElement::updatePlaceholderText() { return m_inputType->updatePlaceholderText(); } void HTMLInputElement::parseMaxLengthAttribute(Attribute* attribute) { int maxLength; if (!parseHTMLInteger(attribute->value(), maxLength)) maxLength = maximumLength; if (maxLength < 0 || maxLength > maximumLength) maxLength = maximumLength; int oldMaxLength = m_maxLength; m_maxLength = maxLength; if (oldMaxLength != maxLength) updateValueIfNeeded(); setNeedsStyleRecalc(); setNeedsValidityCheck(); } void HTMLInputElement::updateValueIfNeeded() { String newValue = sanitizeValue(m_valueIfDirty); ASSERT(!m_valueIfDirty.isNull() || newValue.isNull()); if (newValue != m_valueIfDirty) setValue(newValue); } String HTMLInputElement::defaultToolTip() const { return m_inputType->defaultToolTip(); } bool HTMLInputElement::isIndeterminate() const { return m_inputType->supportsIndeterminateAppearance() && indeterminate(); } bool HTMLInputElement::isInRequiredRadioButtonGroup() const { ASSERT(isRadioButton()); if (CheckedRadioButtons* buttons = checkedRadioButtons()) return buttons->isRequiredGroup(name()); return false; } HTMLInputElement* HTMLInputElement::checkedRadioButtonForGroup() const { if (CheckedRadioButtons* buttons = checkedRadioButtons()) return buttons->checkedButtonForGroup(name()); return 0; } CheckedRadioButtons* HTMLInputElement::checkedRadioButtons() const { if (!isRadioButton()) return 0; if (HTMLFormElement* formElement = form()) return &formElement->checkedRadioButtons(); if (inDocument()) return &document()->checkedRadioButtons(); return 0; } inline void HTMLInputElement::addToRadioButtonGroup() { if (CheckedRadioButtons* buttons = checkedRadioButtons()) buttons->addButton(this); } inline void HTMLInputElement::removeFromRadioButtonGroup() { if (CheckedRadioButtons* buttons = checkedRadioButtons()) buttons->removeButton(this); } } // namespace