/* * 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 Apple Inc. All rights reserved. * (C) 2006 Alexey Proskuryakov (ap@nypop.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 "HTMLSelectElement.h" #include "CSSPropertyNames.h" #include "CSSStyleSelector.h" #include "CharacterNames.h" #include "Document.h" #include "Event.h" #include "EventHandler.h" #include "EventNames.h" #include "FormDataList.h" #include "Frame.h" #include "HTMLFormElement.h" #include "HTMLNames.h" #include "HTMLOptionElement.h" #include "HTMLOptionsCollection.h" #include "KeyboardEvent.h" #include "MouseEvent.h" #include "RenderListBox.h" #include "RenderMenuList.h" #include #include #if PLATFORM(MAC) #define ARROW_KEYS_POP_MENU 1 #else #define ARROW_KEYS_POP_MENU 0 #endif using namespace std; using namespace WTF; using namespace Unicode; namespace WebCore { using namespace EventNames; using namespace HTMLNames; static const DOMTimeStamp typeAheadTimeout = 1000; HTMLSelectElement::HTMLSelectElement(Document* doc, HTMLFormElement* f) : HTMLFormControlElementWithState(selectTag, doc, f) , m_minwidth(0) , m_size(0) , m_multiple(false) , m_recalcListItems(false) , m_lastOnChangeIndex(-1) , m_activeSelectionAnchorIndex(-1) , m_activeSelectionEndIndex(-1) , m_activeSelectionState(false) , m_repeatingChar(0) , m_lastCharTime(0) { } HTMLSelectElement::HTMLSelectElement(const QualifiedName& tagName, Document* doc, HTMLFormElement* f) : HTMLFormControlElementWithState(tagName, doc, f) , m_minwidth(0) , m_size(0) , m_multiple(false) , m_recalcListItems(false) , m_lastOnChangeIndex(-1) , m_activeSelectionAnchorIndex(-1) , m_activeSelectionEndIndex(-1) , m_activeSelectionState(false) , m_repeatingChar(0) , m_lastCharTime(0) { } bool HTMLSelectElement::checkDTD(const Node* newChild) { // Make sure to keep in sync with this. return newChild->isTextNode() || newChild->hasTagName(optionTag) || newChild->hasTagName(optgroupTag) || newChild->hasTagName(hrTag) || newChild->hasTagName(scriptTag); } void HTMLSelectElement::recalcStyle( StyleChange ch ) { if (hasChangedChild() && renderer()) { if (usesMenuList()) static_cast(renderer())->setOptionsChanged(true); else static_cast(renderer())->setOptionsChanged(true); } else if (m_recalcListItems) recalcListItems(); HTMLFormControlElementWithState::recalcStyle(ch); } const AtomicString& HTMLSelectElement::type() const { static const AtomicString selectMultiple("select-multiple"); static const AtomicString selectOne("select-one"); return m_multiple ? selectMultiple : selectOne; } int HTMLSelectElement::selectedIndex() const { // return the number of the first option selected unsigned index = 0; const Vector& items = listItems(); for (unsigned int i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag)) { if (static_cast(items[i])->selected()) return index; index++; } } return -1; } int HTMLSelectElement::lastSelectedListIndex() const { // return the number of the last option selected unsigned index = 0; bool found = false; const Vector& items = listItems(); for (unsigned int i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag)) { if (static_cast(items[i])->selected()) { index = i; found = true; } } } return found ? (int) index : -1; } void HTMLSelectElement::deselectItems(HTMLOptionElement* excludeElement) { const Vector& items = listItems(); unsigned i; for (i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag) && (items[i] != excludeElement)) { HTMLOptionElement* element = static_cast(items[i]); element->setSelectedState(false); } } } void HTMLSelectElement::setSelectedIndex(int optionIndex, bool deselect, bool fireOnChange) { const Vector& items = listItems(); int listIndex = optionToListIndex(optionIndex); HTMLOptionElement* element = 0; if (!multiple()) deselect = true; if (listIndex >= 0) { if (m_activeSelectionAnchorIndex < 0 || deselect) setActiveSelectionAnchorIndex(listIndex); if (m_activeSelectionEndIndex < 0 || deselect) setActiveSelectionEndIndex(listIndex); element = static_cast(items[listIndex]); element->setSelectedState(true); } if (deselect) deselectItems(element); scrollToSelection(); // This only gets called with fireOnChange for menu lists. if (fireOnChange && usesMenuList()) menuListOnChange(); } int HTMLSelectElement::activeSelectionStartListIndex() const { if (m_activeSelectionAnchorIndex >= 0) return m_activeSelectionAnchorIndex; return optionToListIndex(selectedIndex()); } int HTMLSelectElement::activeSelectionEndListIndex() const { if (m_activeSelectionEndIndex >= 0) return m_activeSelectionEndIndex; return lastSelectedListIndex(); } unsigned HTMLSelectElement::length() const { unsigned len = 0; const Vector& items = listItems(); for (unsigned i = 0; i < items.size(); ++i) { if (items[i]->hasLocalName(optionTag)) ++len; } return len; } void HTMLSelectElement::add(HTMLElement *element, HTMLElement *before, ExceptionCode& ec) { RefPtr protectNewChild(element); // make sure the element is ref'd and deref'd so we don't leak it if (!element || !(element->hasLocalName(optionTag) || element->hasLocalName(hrTag))) return; ec = 0; insertBefore(element, before, ec); if (!ec) setRecalcListItems(); } void HTMLSelectElement::remove(int index) { ExceptionCode ec = 0; int listIndex = optionToListIndex(index); const Vector& items = listItems(); if (listIndex < 0 || index >= int(items.size())) return; // ### what should we do ? remove the last item? Element *item = items[listIndex]; ASSERT(item->parentNode()); item->parentNode()->removeChild(item, ec); if (!ec) setRecalcListItems(); } String HTMLSelectElement::value() { unsigned i; const Vector& items = listItems(); for (i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag) && static_cast(items[i])->selected()) return static_cast(items[i])->value(); } return String(""); } void HTMLSelectElement::setValue(const String &value) { if (value.isNull()) return; // find the option with value() matching the given parameter // and make it the current selection. const Vector& items = listItems(); unsigned optionIndex = 0; for (unsigned i = 0; i < items.size(); i++) if (items[i]->hasLocalName(optionTag)) { if (static_cast(items[i])->value() == value) { setSelectedIndex(optionIndex, true); return; } optionIndex++; } } bool HTMLSelectElement::saveState(String& value) const { const Vector& items = listItems(); int l = items.size(); Vector characters(l); for (int i = 0; i < l; ++i) { HTMLElement* e = items[i]; bool selected = e->hasLocalName(optionTag) && static_cast(e)->selected(); characters[i] = selected ? 'X' : '.'; } value = String(characters.data(), l); return true; } void HTMLSelectElement::restoreState(const String& state) { recalcListItems(); const Vector& items = listItems(); int l = items.size(); for (int i = 0; i < l; i++) if (items[i]->hasLocalName(optionTag)) static_cast(items[i])->setSelectedState(state[i] == 'X'); setChanged(); } bool HTMLSelectElement::insertBefore(PassRefPtr newChild, Node* refChild, ExceptionCode& ec) { bool result = HTMLFormControlElementWithState::insertBefore(newChild, refChild, ec); if (result) setRecalcListItems(); return result; } bool HTMLSelectElement::replaceChild(PassRefPtr newChild, Node *oldChild, ExceptionCode& ec) { bool result = HTMLFormControlElementWithState::replaceChild(newChild, oldChild, ec); if (result) setRecalcListItems(); return result; } bool HTMLSelectElement::removeChild(Node* oldChild, ExceptionCode& ec) { bool result = HTMLFormControlElementWithState::removeChild(oldChild, ec); if (result) setRecalcListItems(); return result; } bool HTMLSelectElement::appendChild(PassRefPtr newChild, ExceptionCode& ec) { bool result = HTMLFormControlElementWithState::appendChild(newChild, ec); if (result) setRecalcListItems(); return result; } bool HTMLSelectElement::removeChildren() { bool result = HTMLFormControlElementWithState::removeChildren(); if (result) setRecalcListItems(); return result; } void HTMLSelectElement::parseMappedAttribute(MappedAttribute *attr) { bool oldUsesMenuList = usesMenuList(); if (attr->name() == sizeAttr) { int oldSize = m_size; // Set the attribute value to a number. // This is important since the style rules for this attribute can determine the appearance property. int size = attr->value().toInt(); String attrSize = String::number(size); if (attrSize != attr->value()) attr->setValue(attrSize); m_size = max(size, 1); if ((oldUsesMenuList != usesMenuList() || !oldUsesMenuList && m_size != oldSize) && attached()) { detach(); attach(); setRecalcListItems(); } } else if (attr->name() == widthAttr) { m_minwidth = max(attr->value().toInt(), 0); } else if (attr->name() == multipleAttr) { m_multiple = (!attr->isNull()); if (oldUsesMenuList != usesMenuList() && attached()) { detach(); attach(); } } else if (attr->name() == accesskeyAttr) { // FIXME: ignore for the moment } else if (attr->name() == alignAttr) { // Don't map 'align' attribute. This matches what Firefox, Opera and IE do. // See http://bugs.webkit.org/show_bug.cgi?id=12072 } else if (attr->name() == onfocusAttr) { setHTMLEventListener(focusEvent, attr); } else if (attr->name() == onblurAttr) { setHTMLEventListener(blurEvent, attr); } else if (attr->name() == onchangeAttr) { setHTMLEventListener(changeEvent, attr); } else HTMLFormControlElementWithState::parseMappedAttribute(attr); } bool HTMLSelectElement::isKeyboardFocusable(KeyboardEvent* event) const { if (renderer()) return isFocusable(); return HTMLFormControlElementWithState::isKeyboardFocusable(event); } bool HTMLSelectElement::isMouseFocusable() const { if (renderer()) return isFocusable(); return HTMLFormControlElementWithState::isMouseFocusable(); } bool HTMLSelectElement::canSelectAll() const { return !usesMenuList(); } void HTMLSelectElement::selectAll() { ASSERT(!usesMenuList()); if (!renderer() || !multiple()) return; // Save the selection so it can be compared to the new selectAll selection when we call onChange saveLastSelection(); m_activeSelectionState = true; setActiveSelectionAnchorIndex(nextSelectableListIndex(-1)); setActiveSelectionEndIndex(previousSelectableListIndex(-1)); updateListBoxSelection(false); listBoxOnChange(); } RenderObject *HTMLSelectElement::createRenderer(RenderArena *arena, RenderStyle *style) { if (usesMenuList()) return new (arena) RenderMenuList(this); return new (arena) RenderListBox(this); } bool HTMLSelectElement::appendFormData(FormDataList& list, bool) { bool successful = false; const Vector& items = listItems(); unsigned i; for (i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag)) { HTMLOptionElement *option = static_cast(items[i]); if (option->selected()) { list.appendData(name(), option->value()); successful = true; } } } // ### this case should not happen. make sure that we select the first option // in any case. otherwise we have no consistency with the DOM interface. FIXME! // we return the first one if it was a combobox select if (!successful && !m_multiple && m_size <= 1 && items.size() && (items[0]->hasLocalName(optionTag))) { HTMLOptionElement *option = static_cast(items[0]); if (option->value().isNull()) list.appendData(name(), option->text().stripWhiteSpace()); else list.appendData(name(), option->value()); successful = true; } return successful; } int HTMLSelectElement::optionToListIndex(int optionIndex) const { const Vector& items = listItems(); int listSize = (int)items.size(); if (optionIndex < 0 || optionIndex >= listSize) return -1; int optionIndex2 = -1; for (int listIndex = 0; listIndex < listSize; listIndex++) { if (items[listIndex]->hasLocalName(optionTag)) { optionIndex2++; if (optionIndex2 == optionIndex) return listIndex; } } return -1; } int HTMLSelectElement::listToOptionIndex(int listIndex) const { const Vector& items = listItems(); if (listIndex < 0 || listIndex >= int(items.size()) || !items[listIndex]->hasLocalName(optionTag)) return -1; int optionIndex = 0; // actual index of option not counting OPTGROUP entries that may be in list for (int i = 0; i < listIndex; i++) if (items[i]->hasLocalName(optionTag)) optionIndex++; return optionIndex; } PassRefPtr HTMLSelectElement::options() { return new HTMLOptionsCollection(this); } void HTMLSelectElement::recalcListItems() const { m_listItems.clear(); HTMLOptionElement* foundSelected = 0; for (Node* current = firstChild(); current; current = current->traverseNextSibling(this)) { if (current->hasTagName(optgroupTag) && current->firstChild()) { // FIXME: It doesn't make sense to add an optgroup to the list items, // when it has children, but not to add it if it happens to have, // children (say some comment nodes or text nodes), yet that's what // this code does! m_listItems.append(static_cast(current)); current = current->firstChild(); // FIXME: It doesn't make sense to handle an inside another // if it's not the first child, but not handle it if it happens to be the first // child, yet that's what this code does! } if (current->hasTagName(optionTag)) { m_listItems.append(static_cast(current)); if (!foundSelected && (usesMenuList() || (!m_multiple && static_cast(current)->selected()))) { foundSelected = static_cast(current); foundSelected->setSelectedState(true); } else if (foundSelected && !m_multiple && static_cast(current)->selected()) { foundSelected->setSelectedState(false); foundSelected = static_cast(current); } } if (current->hasTagName(hrTag)) m_listItems.append(static_cast(current)); } m_recalcListItems = false; } void HTMLSelectElement::childrenChanged() { setRecalcListItems(); HTMLFormControlElementWithState::childrenChanged(); } void HTMLSelectElement::setRecalcListItems() { m_recalcListItems = true; if (renderer()) { if (usesMenuList()) static_cast(renderer())->setOptionsChanged(true); else static_cast(renderer())->setOptionsChanged(true); } if (!inDocument()) m_collectionInfo.reset(); setChanged(); } void HTMLSelectElement::reset() { bool optionSelected = false; HTMLOptionElement* firstOption = 0; const Vector& items = listItems(); unsigned i; for (i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag)) { HTMLOptionElement *option = static_cast(items[i]); if (!option->getAttribute(selectedAttr).isNull()) { option->setSelectedState(true); optionSelected = true; } else option->setSelectedState(false); if (!firstOption) firstOption = option; } } if (!optionSelected && firstOption && usesMenuList()) firstOption->setSelectedState(true); setChanged(); } void HTMLSelectElement::dispatchFocusEvent() { if (usesMenuList()) // Save the selection so it can be compared to the new selection when we call onChange during dispatchBlurEvent. saveLastSelection(); HTMLFormControlElementWithState::dispatchFocusEvent(); } void HTMLSelectElement::dispatchBlurEvent() { // We only need to fire onChange here for menu lists, because we fire onChange for list boxes whenever the selection change is actually made. // This matches other browsers' behavior. if (usesMenuList()) menuListOnChange(); HTMLFormControlElementWithState::dispatchBlurEvent(); } void HTMLSelectElement::defaultEventHandler(Event* evt) { if (!renderer()) return; if (usesMenuList()) menuListDefaultEventHandler(evt); else listBoxDefaultEventHandler(evt); if (evt->defaultHandled()) return; if (evt->type() == keypressEvent && evt->isKeyboardEvent()) { KeyboardEvent* keyboardEvent = static_cast(evt); if (!keyboardEvent->ctrlKey() && !keyboardEvent->altKey() && !keyboardEvent->metaKey() && isPrintableChar(keyboardEvent->charCode())) { typeAheadFind(keyboardEvent); evt->setDefaultHandled(); return; } } HTMLFormControlElementWithState::defaultEventHandler(evt); } void HTMLSelectElement::menuListDefaultEventHandler(Event* evt) { RenderMenuList* menuList = static_cast(renderer()); if (evt->type() == keydownEvent) { if (!renderer() || !evt->isKeyboardEvent()) return; String keyIdentifier = static_cast(evt)->keyIdentifier(); bool handled = false; #if ARROW_KEYS_POP_MENU if (keyIdentifier == "Down" || keyIdentifier == "Up") { focus(); // Save the selection so it can be compared to the new selection when we call onChange during setSelectedIndex, // which gets called from RenderMenuList::valueChanged, which gets called after the user makes a selection from the menu. saveLastSelection(); menuList->showPopup(); handled = true; } #else int listIndex = optionToListIndex(selectedIndex()); if (keyIdentifier == "Down" || keyIdentifier == "Right") { int size = listItems().size(); for (listIndex += 1; listIndex >= 0 && listIndex < size && (listItems()[listIndex]->disabled() || !listItems()[listIndex]->hasTagName(optionTag)); ++listIndex); if (listIndex >= 0 && listIndex < size) setSelectedIndex(listToOptionIndex(listIndex)); handled = true; } else if (keyIdentifier == "Up" || keyIdentifier == "Left") { int size = listItems().size(); for (listIndex -= 1; listIndex >= 0 && listIndex < size && (listItems()[listIndex]->disabled() || !listItems()[listIndex]->hasTagName(optionTag)); --listIndex); if (listIndex >= 0 && listIndex < size) setSelectedIndex(listToOptionIndex(listIndex)); handled = true; } #endif if (handled) evt->setDefaultHandled(); } // Use key press event here since sending simulated mouse events // on key down blocks the proper sending of the key press event. if (evt->type() == keypressEvent) { if (!renderer() || !evt->isKeyboardEvent()) return; int keyCode = static_cast(evt)->keyCode(); bool handled = false; #if ARROW_KEYS_POP_MENU if (keyCode == ' ') { focus(); // Save the selection so it can be compared to the new selection when we call onChange during setSelectedIndex, // which gets called from RenderMenuList::valueChanged, which gets called after the user makes a selection from the menu. saveLastSelection(); menuList->showPopup(); handled = true; } if (keyCode == '\r') { menuListOnChange(); if (form()) form()->submitClick(evt); handled = true; } #else int listIndex = optionToListIndex(selectedIndex()); if (keyCode == '\r') { // listIndex should already be selected, but this will fire the onchange handler. setSelectedIndex(listToOptionIndex(listIndex), true, true); handled = true; } #endif if (handled) evt->setDefaultHandled(); } if (evt->type() == mousedownEvent && evt->isMouseEvent() && static_cast(evt)->button() == LeftButton) { focus(); if (menuList->popupIsVisible()) menuList->hidePopup(); else { // Save the selection so it can be compared to the new selection when we call onChange during setSelectedIndex, // which gets called from RenderMenuList::valueChanged, which gets called after the user makes a selection from the menu. saveLastSelection(); menuList->showPopup(); } evt->setDefaultHandled(); } } void HTMLSelectElement::listBoxDefaultEventHandler(Event* evt) { if (evt->type() == mousedownEvent && evt->isMouseEvent() && static_cast(evt)->button() == LeftButton) { focus(); MouseEvent* mEvt = static_cast(evt); int listIndex = static_cast(renderer())->listIndexAtOffset(mEvt->offsetX(), mEvt->offsetY()); if (listIndex >= 0) { // Save the selection so it can be compared to the new selection when we call onChange during mouseup, or after autoscroll finishes. saveLastSelection(); m_activeSelectionState = true; bool multiSelectKeyPressed = false; #if PLATFORM(MAC) multiSelectKeyPressed = mEvt->metaKey(); #else multiSelectKeyPressed = mEvt->ctrlKey(); #endif bool shiftSelect = multiple() && mEvt->shiftKey(); bool multiSelect = multiple() && multiSelectKeyPressed && !mEvt->shiftKey(); HTMLElement* clickedElement = listItems()[listIndex]; HTMLOptionElement* option = 0; if (clickedElement->hasLocalName(optionTag)) { option = static_cast(clickedElement); // Keep track of whether an active selection (like during drag selection), should select or deselect if (option->selected() && multiSelectKeyPressed) m_activeSelectionState = false; if (!m_activeSelectionState) option->setSelectedState(false); } // If we're not in any special multiple selection mode, then deselect all other items, excluding the clicked option. // If no option was clicked, then this will deselect all items in the list. if (!shiftSelect && !multiSelect) deselectItems(option); // If the anchor hasn't been set, and we're doing a single selection or a shift selection, then initialize the anchor to the first selected index. if (m_activeSelectionAnchorIndex < 0 && !multiSelect) setActiveSelectionAnchorIndex(selectedIndex()); // Set the selection state of the clicked option if (option && !option->disabled()) option->setSelectedState(true); // If there was no selectedIndex() for the previous initialization, or // If we're doing a single selection, or a multiple selection (using cmd or ctrl), then initialize the anchor index to the listIndex that just got clicked. if (listIndex >= 0 && (m_activeSelectionAnchorIndex < 0 || !shiftSelect)) setActiveSelectionAnchorIndex(listIndex); setActiveSelectionEndIndex(listIndex); updateListBoxSelection(!multiSelect); if (Frame* frame = document()->frame()) frame->eventHandler()->setMouseDownMayStartAutoscroll(); evt->setDefaultHandled(); } } else if (evt->type() == mouseupEvent && evt->isMouseEvent() && static_cast(evt)->button() == LeftButton && document()->frame()->eventHandler()->autoscrollRenderer() != renderer()) // This makes sure we fire onChange for a single click. For drag selection, onChange will fire when the autoscroll timer stops. listBoxOnChange(); else if (evt->type() == keydownEvent) { if (!evt->isKeyboardEvent()) return; String keyIdentifier = static_cast(evt)->keyIdentifier(); int endIndex = 0; if (m_activeSelectionEndIndex < 0) { // Initialize the end index if (keyIdentifier == "Down") endIndex = nextSelectableListIndex(lastSelectedListIndex()); else if (keyIdentifier == "Up") endIndex = previousSelectableListIndex(optionToListIndex(selectedIndex())); } else { // Set the end index based on the current end index if (keyIdentifier == "Down") endIndex = nextSelectableListIndex(m_activeSelectionEndIndex); else if (keyIdentifier == "Up") endIndex = previousSelectableListIndex(m_activeSelectionEndIndex); } if (keyIdentifier == "Down" || keyIdentifier == "Up") { // Save the selection so it can be compared to the new selection when we call onChange immediately after making the new selection. saveLastSelection(); ASSERT(endIndex >= 0 && (unsigned)endIndex < listItems().size()); setActiveSelectionEndIndex(endIndex); // If the anchor is unitialized, or if we're going to deselect all other options, then set the anchor index equal to the end index. bool deselectOthers = !multiple() || !static_cast(evt)->shiftKey(); if (m_activeSelectionAnchorIndex < 0 || deselectOthers) { m_activeSelectionState = true; if (deselectOthers) deselectItems(); setActiveSelectionAnchorIndex(m_activeSelectionEndIndex); } static_cast(renderer())->scrollToRevealElementAtListIndex(endIndex); updateListBoxSelection(deselectOthers); listBoxOnChange(); evt->setDefaultHandled(); } } else if (evt->type() == keypressEvent) { if (!evt->isKeyboardEvent()) return; int keyCode = static_cast(evt)->keyCode(); if (keyCode == '\r') { if (form()) form()->submitClick(evt); evt->setDefaultHandled(); return; } } } void HTMLSelectElement::setActiveSelectionAnchorIndex(int index) { m_activeSelectionAnchorIndex = index; // Cache the selection state so we can restore the old selection as the new selection pivots around this anchor index const Vector& items = listItems(); m_cachedStateForActiveSelection.clear(); for (unsigned i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag)) { HTMLOptionElement* option = static_cast(items[i]); m_cachedStateForActiveSelection.append(option->selected()); } else m_cachedStateForActiveSelection.append(false); } } void HTMLSelectElement::updateListBoxSelection(bool deselectOtherOptions) { ASSERT(renderer() && renderer()->isListBox()); unsigned start; unsigned end; ASSERT(m_activeSelectionAnchorIndex >= 0); start = min(m_activeSelectionAnchorIndex, m_activeSelectionEndIndex); end = max(m_activeSelectionAnchorIndex, m_activeSelectionEndIndex); const Vector& items = listItems(); for (unsigned i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag)) { HTMLOptionElement* option = static_cast(items[i]); if (!option->disabled()) { if (i >= start && i <= end) option->setSelectedState(m_activeSelectionState); else if (deselectOtherOptions) option->setSelectedState(false); else option->setSelectedState(m_cachedStateForActiveSelection[i]); } } } scrollToSelection(); } void HTMLSelectElement::menuListOnChange() { ASSERT(usesMenuList()); int selected = selectedIndex(); if (m_lastOnChangeIndex != selected) { m_lastOnChangeIndex = selected; onChange(); } } void HTMLSelectElement::listBoxOnChange() { ASSERT(!usesMenuList()); const Vector& items = listItems(); // If the cached selection list is empty, or the size has changed, then fire onChange, and return early. if (m_lastOnChangeSelection.isEmpty() || m_lastOnChangeSelection.size() != items.size()) { onChange(); return; } // Update m_lastOnChangeSelection and fire onChange bool fireOnChange = false; for (unsigned i = 0; i < items.size(); i++) { bool selected = false; if (items[i]->hasLocalName(optionTag)) selected = static_cast(items[i])->selected(); if (selected != m_lastOnChangeSelection[i]) fireOnChange = true; m_lastOnChangeSelection[i] = selected; } if (fireOnChange) onChange(); } void HTMLSelectElement::saveLastSelection() { const Vector& items = listItems(); if (usesMenuList()) { m_lastOnChangeIndex = selectedIndex(); return; } m_lastOnChangeSelection.clear(); for (unsigned i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag)) { HTMLOptionElement* option = static_cast(items[i]); m_lastOnChangeSelection.append(option->selected()); } else m_lastOnChangeSelection.append(false); } } static String stripLeadingWhiteSpace(const String& string) { int length = string.length(); int i; for (i = 0; i < length; ++i) if (string[i] != noBreakSpace && (string[i] <= 0x7F ? !isASCIISpace(string[i]) : (direction(string[i]) != WhiteSpaceNeutral))) break; return string.substring(i, length - i); } void HTMLSelectElement::typeAheadFind(KeyboardEvent* event) { if (event->timeStamp() < m_lastCharTime) return; DOMTimeStamp delta = event->timeStamp() - m_lastCharTime; m_lastCharTime = event->timeStamp(); UChar c = event->charCode(); String prefix; int searchStartOffset = 1; if (delta > typeAheadTimeout) { m_typedString = prefix = String(&c, 1); m_repeatingChar = c; } else { m_typedString.append(c); if (c == m_repeatingChar) // The user is likely trying to cycle through all the items starting with this character, so just search on the character prefix = String(&c, 1); else { m_repeatingChar = 0; prefix = m_typedString; searchStartOffset = 0; } } const Vector& items = listItems(); int itemCount = items.size(); if (itemCount < 1) return; int index = (optionToListIndex(selectedIndex()) + searchStartOffset) % itemCount; for (int i = 0; i < itemCount; i++, index = (index + 1) % itemCount) { if (!items[index]->hasTagName(optionTag) || items[index]->disabled()) continue; if (stripLeadingWhiteSpace(static_cast(items[index])->optionText()).startsWith(prefix, false)) { setSelectedIndex(listToOptionIndex(index)); setChanged(); return; } } } int HTMLSelectElement::nextSelectableListIndex(int startIndex) { const Vector& items = listItems(); int index = startIndex + 1; while (index >= 0 && (unsigned)index < items.size() && (!items[index]->hasLocalName(optionTag) || items[index]->disabled())) index++; if ((unsigned) index == items.size()) return startIndex; return index; } int HTMLSelectElement::previousSelectableListIndex(int startIndex) { const Vector& items = listItems(); if (startIndex == -1) startIndex = items.size(); int index = startIndex - 1; while (index >= 0 && (unsigned)index < items.size() && (!items[index]->hasLocalName(optionTag) || items[index]->disabled())) index--; if (index == -1) return startIndex; return index; } void HTMLSelectElement::accessKeyAction(bool sendToAnyElement) { focus(); dispatchSimulatedClick(0, sendToAnyElement); } void HTMLSelectElement::setMultiple(bool multiple) { setAttribute(multipleAttr, multiple ? "" : 0); } void HTMLSelectElement::setSize(int size) { setAttribute(sizeAttr, String::number(size)); } Node* HTMLSelectElement::namedItem(const String &name, bool caseSensitive) { return options()->namedItem(name, caseSensitive); } Node* HTMLSelectElement::item(unsigned index) { return options()->item(index); } void HTMLSelectElement::setOption(unsigned index, HTMLOptionElement* option, ExceptionCode& ec) { ec = 0; if (index > INT_MAX) index = INT_MAX; int diff = index - length(); HTMLElement* before = 0; // out of array bounds ? first insert empty dummies if (diff > 0) { setLength(index, ec); // replace an existing entry ? } else if (diff < 0) { before = static_cast(options()->item(index+1)); remove(index); } // finally add the new element if (!ec) { add(option, before, ec); if (diff >= 0 && option->selected()) setSelectedIndex(index, !m_multiple); } } void HTMLSelectElement::setLength(unsigned newLen, ExceptionCode& ec) { ec = 0; if (newLen > INT_MAX) newLen = INT_MAX; int diff = length() - newLen; if (diff < 0) { // add dummy elements do { RefPtr option = document()->createElement("option", ec); if (!option) break; add(static_cast(option.get()), 0, ec); if (ec) break; } while (++diff); } else // remove elements while (diff-- > 0) remove(newLen); } void HTMLSelectElement::scrollToSelection() { if (renderer() && !usesMenuList()) static_cast(renderer())->selectionChanged(); } #ifndef NDEBUG void HTMLSelectElement::checkListItems() const { Vector items = m_listItems; recalcListItems(); ASSERT(items == m_listItems); } #endif } // namespace