/* * Copyright (C) 2008 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "AccessibilityObject.h" #include "AccessibilityRenderObject.h" #include "AXObjectCache.h" #include "CharacterNames.h" #include "FloatRect.h" #include "FocusController.h" #include "Frame.h" #include "FrameLoader.h" #include "LocalizedStrings.h" #include "NodeList.h" #include "NotImplemented.h" #include "Page.h" #include "RenderImage.h" #include "RenderListMarker.h" #include "RenderMenuList.h" #include "RenderTextControl.h" #include "RenderTheme.h" #include "RenderView.h" #include "RenderWidget.h" #include "SelectionController.h" #include "TextIterator.h" #include "htmlediting.h" #include "visible_units.h" #include using namespace std; namespace WebCore { using namespace HTMLNames; AccessibilityObject::AccessibilityObject() : m_id(0) , m_haveChildren(false) #if PLATFORM(GTK) , m_wrapper(0) #endif { } AccessibilityObject::~AccessibilityObject() { ASSERT(isDetached()); } void AccessibilityObject::detach() { #if HAVE(ACCESSIBILITY) setWrapper(0); #endif } AccessibilityObject* AccessibilityObject::firstChild() const { return 0; } AccessibilityObject* AccessibilityObject::lastChild() const { return 0; } AccessibilityObject* AccessibilityObject::previousSibling() const { return 0; } AccessibilityObject* AccessibilityObject::nextSibling() const { return 0; } AccessibilityObject* AccessibilityObject::parentObject() const { return 0; } AccessibilityObject* AccessibilityObject::parentObjectUnignored() const { AccessibilityObject* parent; for (parent = parentObject(); parent && parent->accessibilityIsIgnored(); parent = parent->parentObject()) ; return parent; } AccessibilityObject* AccessibilityObject::parentObjectIfExists() const { return 0; } int AccessibilityObject::layoutCount() const { return 0; } String AccessibilityObject::text() const { return String(); } String AccessibilityObject::helpText() const { return String(); } String AccessibilityObject::textUnderElement() const { return String(); } bool AccessibilityObject::isARIAInput(AccessibilityRole ariaRole) { return ariaRole == RadioButtonRole || ariaRole == CheckBoxRole || ariaRole == TextFieldRole; } bool AccessibilityObject::isARIAControl(AccessibilityRole ariaRole) { return isARIAInput(ariaRole) || ariaRole == TextAreaRole || ariaRole == ButtonRole || ariaRole == ComboBoxRole || ariaRole == SliderRole; } int AccessibilityObject::intValue() const { return 0; } String AccessibilityObject::stringValue() const { return String(); } String AccessibilityObject::ariaAccessiblityName(const String&) const { return String(); } String AccessibilityObject::ariaLabeledByAttribute() const { return String(); } String AccessibilityObject::title() const { return String(); } String AccessibilityObject::ariaDescribedByAttribute() const { return String(); } String AccessibilityObject::accessibilityDescription() const { return String(); } IntRect AccessibilityObject::boundingBoxRect() const { return IntRect(); } IntRect AccessibilityObject::elementRect() const { return IntRect(); } IntSize AccessibilityObject::size() const { return IntSize(); } IntPoint AccessibilityObject::clickPoint() const { IntRect rect = elementRect(); return IntPoint(rect.x() + rect.width() / 2, rect.y() + rect.height() / 2); } void AccessibilityObject::linkedUIElements(AccessibilityChildrenVector&) const { return; } AccessibilityObject* AccessibilityObject::titleUIElement() const { return 0; } int AccessibilityObject::textLength() const { return 0; } PassRefPtr AccessibilityObject::ariaSelectedTextDOMRange() const { return 0; } String AccessibilityObject::selectedText() const { return String(); } const AtomicString& AccessibilityObject::accessKey() const { return nullAtom; } VisibleSelection AccessibilityObject::selection() const { return VisibleSelection(); } PlainTextRange AccessibilityObject::selectedTextRange() const { return PlainTextRange(); } unsigned AccessibilityObject::selectionStart() const { return selectedTextRange().start; } unsigned AccessibilityObject::selectionEnd() const { return selectedTextRange().length; } void AccessibilityObject::setSelectedText(const String&) { // TODO: set selected text (ReplaceSelectionCommand). notImplemented(); } void AccessibilityObject::setSelectedTextRange(const PlainTextRange&) { } void AccessibilityObject::makeRangeVisible(const PlainTextRange&) { // TODO: make range visible (scrollRectToVisible). notImplemented(); } KURL AccessibilityObject::url() const { return KURL(); } void AccessibilityObject::setFocused(bool) { } void AccessibilityObject::setValue(const String&) { } void AccessibilityObject::setSelected(bool) { } bool AccessibilityObject::press() const { Element* actionElem = actionElement(); if (!actionElem) return false; if (Frame* f = actionElem->document()->frame()) f->loader()->resetMultipleFormSubmissionProtection(); actionElem->accessKeyAction(true); return true; } String AccessibilityObject::language() const { AccessibilityObject* parent = parentObject(); // as a last resort, fall back to the content language specified in the meta tag if (!parent) { Document* doc = document(); if (doc) return doc->contentLanguage(); return String(); } return parent->language(); } AXObjectCache* AccessibilityObject::axObjectCache() const { return 0; } Widget* AccessibilityObject::widget() const { return 0; } Widget* AccessibilityObject::widgetForAttachmentView() const { return 0; } Element* AccessibilityObject::anchorElement() const { return 0; } Element* AccessibilityObject::actionElement() const { return 0; } // This function is like a cross-platform version of - (WebCoreTextMarkerRange*)textMarkerRange. It returns // a Range that we can convert to a WebCoreRange in the Obj-C file VisiblePositionRange AccessibilityObject::visiblePositionRange() const { return VisiblePositionRange(); } VisiblePositionRange AccessibilityObject::visiblePositionRangeForLine(unsigned) const { return VisiblePositionRange(); } VisiblePosition AccessibilityObject::visiblePositionForIndex(int) const { return VisiblePosition(); } int AccessibilityObject::indexForVisiblePosition(const VisiblePosition&) const { return 0; } VisiblePositionRange AccessibilityObject::visiblePositionRangeForUnorderedPositions(const VisiblePosition& visiblePos1, const VisiblePosition& visiblePos2) const { if (visiblePos1.isNull() || visiblePos2.isNull()) return VisiblePositionRange(); VisiblePosition startPos; VisiblePosition endPos; bool alreadyInOrder; // upstream is ordered before downstream for the same position if (visiblePos1 == visiblePos2 && visiblePos2.affinity() == UPSTREAM) alreadyInOrder = false; // use selection order to see if the positions are in order else alreadyInOrder = VisibleSelection(visiblePos1, visiblePos2).isBaseFirst(); if (alreadyInOrder) { startPos = visiblePos1; endPos = visiblePos2; } else { startPos = visiblePos2; endPos = visiblePos1; } return VisiblePositionRange(startPos, endPos); } VisiblePositionRange AccessibilityObject::positionOfLeftWord(const VisiblePosition& visiblePos) const { VisiblePosition startPosition = startOfWord(visiblePos, LeftWordIfOnBoundary); VisiblePosition endPosition = endOfWord(startPosition); return VisiblePositionRange(startPosition, endPosition); } VisiblePositionRange AccessibilityObject::positionOfRightWord(const VisiblePosition& visiblePos) const { VisiblePosition startPosition = startOfWord(visiblePos, RightWordIfOnBoundary); VisiblePosition endPosition = endOfWord(startPosition); return VisiblePositionRange(startPosition, endPosition); } static VisiblePosition updateAXLineStartForVisiblePosition(const VisiblePosition& visiblePosition) { // A line in the accessibility sense should include floating objects, such as aligned image, as part of a line. // So let's update the position to include that. VisiblePosition tempPosition; VisiblePosition startPosition = visiblePosition; Position p; RenderObject* renderer; while (true) { tempPosition = startPosition.previous(); if (tempPosition.isNull()) break; p = tempPosition.deepEquivalent(); if (!p.node()) break; renderer = p.node()->renderer(); if (!renderer || (renderer->isRenderBlock() && !p.deprecatedEditingOffset())) break; InlineBox* box; int ignoredCaretOffset; p.getInlineBoxAndOffset(tempPosition.affinity(), box, ignoredCaretOffset); if (box) break; startPosition = tempPosition; } return startPosition; } VisiblePositionRange AccessibilityObject::leftLineVisiblePositionRange(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return VisiblePositionRange(); // make a caret selection for the position before marker position (to make sure // we move off of a line start) VisiblePosition prevVisiblePos = visiblePos.previous(); if (prevVisiblePos.isNull()) return VisiblePositionRange(); VisiblePosition startPosition = startOfLine(prevVisiblePos); // keep searching for a valid line start position. Unless the VisiblePosition is at the very beginning, there should // always be a valid line range. However, startOfLine will return null for position next to a floating object, // since floating object doesn't really belong to any line. // This check will reposition the marker before the floating object, to ensure we get a line start. if (startPosition.isNull()) { while (startPosition.isNull() && prevVisiblePos.isNotNull()) { prevVisiblePos = prevVisiblePos.previous(); startPosition = startOfLine(prevVisiblePos); } } else startPosition = updateAXLineStartForVisiblePosition(startPosition); VisiblePosition endPosition = endOfLine(prevVisiblePos); return VisiblePositionRange(startPosition, endPosition); } VisiblePositionRange AccessibilityObject::rightLineVisiblePositionRange(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return VisiblePositionRange(); // make sure we move off of a line end VisiblePosition nextVisiblePos = visiblePos.next(); if (nextVisiblePos.isNull()) return VisiblePositionRange(); VisiblePosition startPosition = startOfLine(nextVisiblePos); // fetch for a valid line start position if (startPosition.isNull() ) { startPosition = visiblePos; nextVisiblePos = nextVisiblePos.next(); } else startPosition = updateAXLineStartForVisiblePosition(startPosition); VisiblePosition endPosition = endOfLine(nextVisiblePos); // as long as the position hasn't reached the end of the doc, keep searching for a valid line end position // Unless the VisiblePosition is at the very end, there should always be a valid line range. However, endOfLine will // return null for position by a floating object, since floating object doesn't really belong to any line. // This check will reposition the marker after the floating object, to ensure we get a line end. while (endPosition.isNull() && nextVisiblePos.isNotNull()) { nextVisiblePos = nextVisiblePos.next(); endPosition = endOfLine(nextVisiblePos); } return VisiblePositionRange(startPosition, endPosition); } VisiblePositionRange AccessibilityObject::sentenceForPosition(const VisiblePosition& visiblePos) const { // FIXME: FO 2 IMPLEMENT (currently returns incorrect answer) // Related? Text selection broken in 8A336 VisiblePosition startPosition = startOfSentence(visiblePos); VisiblePosition endPosition = endOfSentence(startPosition); return VisiblePositionRange(startPosition, endPosition); } VisiblePositionRange AccessibilityObject::paragraphForPosition(const VisiblePosition& visiblePos) const { VisiblePosition startPosition = startOfParagraph(visiblePos); VisiblePosition endPosition = endOfParagraph(startPosition); return VisiblePositionRange(startPosition, endPosition); } static VisiblePosition startOfStyleRange(const VisiblePosition visiblePos) { RenderObject* renderer = visiblePos.deepEquivalent().node()->renderer(); RenderObject* startRenderer = renderer; RenderStyle* style = renderer->style(); // traverse backward by renderer to look for style change for (RenderObject* r = renderer->previousInPreOrder(); r; r = r->previousInPreOrder()) { // skip non-leaf nodes if (r->firstChild()) continue; // stop at style change if (r->style() != style) break; // remember match startRenderer = r; } return VisiblePosition(startRenderer->node(), 0, VP_DEFAULT_AFFINITY); } static VisiblePosition endOfStyleRange(const VisiblePosition& visiblePos) { RenderObject* renderer = visiblePos.deepEquivalent().node()->renderer(); RenderObject* endRenderer = renderer; RenderStyle* style = renderer->style(); // traverse forward by renderer to look for style change for (RenderObject* r = renderer->nextInPreOrder(); r; r = r->nextInPreOrder()) { // skip non-leaf nodes if (r->firstChild()) continue; // stop at style change if (r->style() != style) break; // remember match endRenderer = r; } return lastDeepEditingPositionForNode(endRenderer->node()); } VisiblePositionRange AccessibilityObject::styleRangeForPosition(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return VisiblePositionRange(); return VisiblePositionRange(startOfStyleRange(visiblePos), endOfStyleRange(visiblePos)); } // NOTE: Consider providing this utility method as AX API VisiblePositionRange AccessibilityObject::visiblePositionRangeForRange(const PlainTextRange& range) const { if (range.start + range.length > text().length()) return VisiblePositionRange(); VisiblePosition startPosition = visiblePositionForIndex(range.start); startPosition.setAffinity(DOWNSTREAM); VisiblePosition endPosition = visiblePositionForIndex(range.start + range.length); return VisiblePositionRange(startPosition, endPosition); } static bool replacedNodeNeedsCharacter(Node* replacedNode) { // we should always be given a rendered node and a replaced node, but be safe // replaced nodes are either attachments (widgets) or images if (!replacedNode || !replacedNode->renderer() || !replacedNode->renderer()->isReplaced() || replacedNode->isTextNode()) { return false; } // create an AX object, but skip it if it is not supposed to be seen AccessibilityObject* object = replacedNode->renderer()->document()->axObjectCache()->getOrCreate(replacedNode->renderer()); if (object->accessibilityIsIgnored()) return false; return true; } String AccessibilityObject::stringForVisiblePositionRange(const VisiblePositionRange& visiblePositionRange) const { if (visiblePositionRange.isNull()) return String(); Vector resultVector; RefPtr range = makeRange(visiblePositionRange.start, visiblePositionRange.end); for (TextIterator it(range.get()); !it.atEnd(); it.advance()) { // non-zero length means textual node, zero length means replaced node (AKA "attachments" in AX) if (it.length() != 0) { resultVector.append(it.characters(), it.length()); } else { // locate the node and starting offset for this replaced range int exception = 0; Node* node = it.range()->startContainer(exception); ASSERT(node == it.range()->endContainer(exception)); int offset = it.range()->startOffset(exception); if (replacedNodeNeedsCharacter(node->childNode(offset))) { resultVector.append(objectReplacementCharacter); } } } return String::adopt(resultVector); } IntRect AccessibilityObject::boundsForVisiblePositionRange(const VisiblePositionRange&) const { return IntRect(); } int AccessibilityObject::lengthForVisiblePositionRange(const VisiblePositionRange& visiblePositionRange) const { // FIXME: Multi-byte support if (visiblePositionRange.isNull()) return -1; int length = 0; RefPtr range = makeRange(visiblePositionRange.start, visiblePositionRange.end); for (TextIterator it(range.get()); !it.atEnd(); it.advance()) { // non-zero length means textual node, zero length means replaced node (AKA "attachments" in AX) if (it.length() != 0) { length += it.length(); } else { // locate the node and starting offset for this replaced range int exception = 0; Node* node = it.range()->startContainer(exception); ASSERT(node == it.range()->endContainer(exception)); int offset = it.range()->startOffset(exception); if (replacedNodeNeedsCharacter(node->childNode(offset))) length++; } } return length; } void AccessibilityObject::setSelectedVisiblePositionRange(const VisiblePositionRange&) const { } VisiblePosition AccessibilityObject::visiblePositionForPoint(const IntPoint&) const { return VisiblePosition(); } VisiblePosition AccessibilityObject::nextVisiblePosition(const VisiblePosition& visiblePos) const { return visiblePos.next(); } VisiblePosition AccessibilityObject::previousVisiblePosition(const VisiblePosition& visiblePos) const { return visiblePos.previous(); } VisiblePosition AccessibilityObject::nextWordEnd(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return VisiblePosition(); // make sure we move off of a word end VisiblePosition nextVisiblePos = visiblePos.next(); if (nextVisiblePos.isNull()) return VisiblePosition(); return endOfWord(nextVisiblePos, LeftWordIfOnBoundary); } VisiblePosition AccessibilityObject::previousWordStart(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return VisiblePosition(); // make sure we move off of a word start VisiblePosition prevVisiblePos = visiblePos.previous(); if (prevVisiblePos.isNull()) return VisiblePosition(); return startOfWord(prevVisiblePos, RightWordIfOnBoundary); } VisiblePosition AccessibilityObject::nextLineEndPosition(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return VisiblePosition(); // to make sure we move off of a line end VisiblePosition nextVisiblePos = visiblePos.next(); if (nextVisiblePos.isNull()) return VisiblePosition(); VisiblePosition endPosition = endOfLine(nextVisiblePos); // as long as the position hasn't reached the end of the doc, keep searching for a valid line end position // There are cases like when the position is next to a floating object that'll return null for end of line. This code will avoid returning null. while (endPosition.isNull() && nextVisiblePos.isNotNull()) { nextVisiblePos = nextVisiblePos.next(); endPosition = endOfLine(nextVisiblePos); } return endPosition; } VisiblePosition AccessibilityObject::previousLineStartPosition(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return VisiblePosition(); // make sure we move off of a line start VisiblePosition prevVisiblePos = visiblePos.previous(); if (prevVisiblePos.isNull()) return VisiblePosition(); VisiblePosition startPosition = startOfLine(prevVisiblePos); // as long as the position hasn't reached the beginning of the doc, keep searching for a valid line start position // There are cases like when the position is next to a floating object that'll return null for start of line. This code will avoid returning null. if (startPosition.isNull()) { while (startPosition.isNull() && prevVisiblePos.isNotNull()) { prevVisiblePos = prevVisiblePos.previous(); startPosition = startOfLine(prevVisiblePos); } } else startPosition = updateAXLineStartForVisiblePosition(startPosition); return startPosition; } VisiblePosition AccessibilityObject::nextSentenceEndPosition(const VisiblePosition& visiblePos) const { // FIXME: FO 2 IMPLEMENT (currently returns incorrect answer) // Related? Text selection broken in 8A336 if (visiblePos.isNull()) return VisiblePosition(); // make sure we move off of a sentence end VisiblePosition nextVisiblePos = visiblePos.next(); if (nextVisiblePos.isNull()) return VisiblePosition(); // an empty line is considered a sentence. If it's skipped, then the sentence parser will not // see this empty line. Instead, return the end position of the empty line. VisiblePosition endPosition; String lineString = plainText(makeRange(startOfLine(nextVisiblePos), endOfLine(nextVisiblePos)).get()); if (lineString.isEmpty()) endPosition = nextVisiblePos; else endPosition = endOfSentence(nextVisiblePos); return endPosition; } VisiblePosition AccessibilityObject::previousSentenceStartPosition(const VisiblePosition& visiblePos) const { // FIXME: FO 2 IMPLEMENT (currently returns incorrect answer) // Related? Text selection broken in 8A336 if (visiblePos.isNull()) return VisiblePosition(); // make sure we move off of a sentence start VisiblePosition previousVisiblePos = visiblePos.previous(); if (previousVisiblePos.isNull()) return VisiblePosition(); // treat empty line as a separate sentence. VisiblePosition startPosition; String lineString = plainText(makeRange(startOfLine(previousVisiblePos), endOfLine(previousVisiblePos)).get()); if (lineString.isEmpty()) startPosition = previousVisiblePos; else startPosition = startOfSentence(previousVisiblePos); return startPosition; } VisiblePosition AccessibilityObject::nextParagraphEndPosition(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return VisiblePosition(); // make sure we move off of a paragraph end VisiblePosition nextPos = visiblePos.next(); if (nextPos.isNull()) return VisiblePosition(); return endOfParagraph(nextPos); } VisiblePosition AccessibilityObject::previousParagraphStartPosition(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return VisiblePosition(); // make sure we move off of a paragraph start VisiblePosition previousPos = visiblePos.previous(); if (previousPos.isNull()) return VisiblePosition(); return startOfParagraph(previousPos); } // NOTE: Consider providing this utility method as AX API VisiblePosition AccessibilityObject::visiblePositionForIndex(unsigned, bool) const { return VisiblePosition(); } AccessibilityObject* AccessibilityObject::accessibilityObjectForPosition(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return 0; RenderObject* obj = visiblePos.deepEquivalent().node()->renderer(); if (!obj) return 0; return obj->document()->axObjectCache()->getOrCreate(obj); } int AccessibilityObject::lineForPosition(const VisiblePosition& visiblePos) const { if (visiblePos.isNull()) return 0; unsigned lineCount = 0; VisiblePosition currentVisiblePos = visiblePos; VisiblePosition savedVisiblePos; // move up until we get to the top // FIXME: This only takes us to the top of the rootEditableElement, not the top of the // top document. while (currentVisiblePos.isNotNull() && !(inSameLine(currentVisiblePos, savedVisiblePos))) { ++lineCount; savedVisiblePos = currentVisiblePos; VisiblePosition prevVisiblePos = previousLinePosition(currentVisiblePos, 0); currentVisiblePos = prevVisiblePos; } return lineCount - 1; } // NOTE: Consider providing this utility method as AX API PlainTextRange AccessibilityObject::plainTextRangeForVisiblePositionRange(const VisiblePositionRange& positionRange) const { int index1 = index(positionRange.start); int index2 = index(positionRange.end); if (index1 < 0 || index2 < 0 || index1 > index2) return PlainTextRange(); return PlainTextRange(index1, index2 - index1); } // NOTE: Consider providing this utility method as AX API int AccessibilityObject::index(const VisiblePosition&) const { return -1; } // Given a line number, the range of characters of the text associated with this accessibility // object that contains the line number. PlainTextRange AccessibilityObject::doAXRangeForLine(unsigned) const { return PlainTextRange(); } // The composed character range in the text associated with this accessibility object that // is specified by the given screen coordinates. This parameterized attribute returns the // complete range of characters (including surrogate pairs of multi-byte glyphs) at the given // screen coordinates. // NOTE: This varies from AppKit when the point is below the last line. AppKit returns an // an error in that case. We return textControl->text().length(), 1. Does this matter? PlainTextRange AccessibilityObject::doAXRangeForPosition(const IntPoint& point) const { int i = index(visiblePositionForPoint(point)); if (i < 0) return PlainTextRange(); return PlainTextRange(i, 1); } // The composed character range in the text associated with this accessibility object that // is specified by the given index value. This parameterized attribute returns the complete // range of characters (including surrogate pairs of multi-byte glyphs) at the given index. PlainTextRange AccessibilityObject::doAXRangeForIndex(unsigned) const { return PlainTextRange(); } // Given a character index, the range of text associated with this accessibility object // over which the style in effect at that character index applies. PlainTextRange AccessibilityObject::doAXStyleRangeForIndex(unsigned index) const { VisiblePositionRange range = styleRangeForPosition(visiblePositionForIndex(index, false)); return plainTextRangeForVisiblePositionRange(range); } // A substring of the text associated with this accessibility object that is // specified by the given character range. String AccessibilityObject::doAXStringForRange(const PlainTextRange&) const { return String(); } // The bounding rectangle of the text associated with this accessibility object that is // specified by the given range. This is the bounding rectangle a sighted user would see // on the display screen, in pixels. IntRect AccessibilityObject::doAXBoundsForRange(const PlainTextRange&) const { return IntRect(); } // Given an indexed character, the line number of the text associated with this accessibility // object that contains the character. unsigned AccessibilityObject::doAXLineForIndex(unsigned index) { return lineForPosition(visiblePositionForIndex(index, false)); } FrameView* AccessibilityObject::documentFrameView() const { const AccessibilityObject* object = this; while (object && !object->isAccessibilityRenderObject()) object = object->parentObject(); if (!object) return 0; return object->documentFrameView(); } AccessibilityObject* AccessibilityObject::doAccessibilityHitTest(const IntPoint&) const { return 0; } AccessibilityObject* AccessibilityObject::focusedUIElement() const { return 0; } AccessibilityObject* AccessibilityObject::observableObject() const { return 0; } AccessibilityRole AccessibilityObject::roleValue() const { return UnknownRole; } AccessibilityRole AccessibilityObject::ariaRoleAttribute() const { return UnknownRole; } bool AccessibilityObject::isPresentationalChildOfAriaRole() const { return false; } bool AccessibilityObject::ariaRoleHasPresentationalChildren() const { return false; } void AccessibilityObject::clearChildren() { m_haveChildren = false; m_children.clear(); } void AccessibilityObject::childrenChanged() { return; } void AccessibilityObject::addChildren() { } void AccessibilityObject::selectedChildren(AccessibilityChildrenVector&) { } void AccessibilityObject::visibleChildren(AccessibilityChildrenVector&) { } unsigned AccessibilityObject::axObjectID() const { return m_id; } void AccessibilityObject::setAXObjectID(unsigned axObjectID) { m_id = axObjectID; } const String& AccessibilityObject::actionVerb() const { // FIXME: Need to add verbs for select elements. DEFINE_STATIC_LOCAL(const String, buttonAction, (AXButtonActionVerb())); DEFINE_STATIC_LOCAL(const String, textFieldAction, (AXTextFieldActionVerb())); DEFINE_STATIC_LOCAL(const String, radioButtonAction, (AXRadioButtonActionVerb())); DEFINE_STATIC_LOCAL(const String, checkedCheckBoxAction, (AXCheckedCheckBoxActionVerb())); DEFINE_STATIC_LOCAL(const String, uncheckedCheckBoxAction, (AXUncheckedCheckBoxActionVerb())); DEFINE_STATIC_LOCAL(const String, linkAction, (AXLinkActionVerb())); DEFINE_STATIC_LOCAL(const String, noAction, ()); switch (roleValue()) { case ButtonRole: return buttonAction; case TextFieldRole: case TextAreaRole: return textFieldAction; case RadioButtonRole: return radioButtonAction; case CheckBoxRole: return isChecked() ? checkedCheckBoxAction : uncheckedCheckBoxAction; case LinkRole: case WebCoreLinkRole: return linkAction; default: return noAction; } } void AccessibilityObject::updateBackingStore() { } } // namespace WebCore