/*
* Runs the test case.
*/
void runTest()
{
Document doc;
Node newChild;
NodeList elementList;
Node employeeNode;
NodeList childList;
Node oldChild;
Node replacedNode;
doc = (Document) baseT::load("staff", true);
newChild = doc.getDocumentElement();
elementList = doc.getElementsByTagName(SA::construct_from_utf8("employee"));
employeeNode = elementList.item(1);
childList = employeeNode.getChildNodes();
oldChild = childList.item(0);
{
boolean success = false;
try {
replacedNode = employeeNode.replaceChild(newChild, oldChild);
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::HIERARCHY_REQUEST_ERR);
}
assertTrue(success);
}
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Node employeeNode;
NodeList employeeList;
Node child;
int length;
String childName;
doc = (Document) baseT::load("staff", false);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("employee"));
employeeNode = elementList.item(2);
employeeList = employeeNode.getChildNodes();
length = (int) employeeList.getLength();
if (baseT::equals(6, length)) {
child = employeeList.item(1);
} else {
child = employeeList.item(3);
}
childName = child.getNodeName();
baseT::assertEquals("name", childName, __LINE__, __FILE__);
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Element firstNode;
Node testNode;
NamedNodeMap attributes;
Attr domesticAttr;
Attr setAttr;
Node setNode;
doc = (Document) baseT::load("staff", true);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("address"));
firstNode = (Element) elementList.item(0);
domesticAttr = doc.createAttribute(SA::construct_from_utf8("domestic"));
domesticAttr.setValue(SA::construct_from_utf8("Yes"));
setAttr = firstNode.setAttributeNode(domesticAttr);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("address"));
testNode = elementList.item(2);
attributes = testNode.getAttributes();
{
boolean success = false;
try {
setNode = attributes.setNamedItem(domesticAttr);
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::INUSE_ATTRIBUTE_ERR);
}
assertTrue(success);
}
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Element lastEmployee;
NodeList lastempList;
Node child;
String childName;
std::vector<string_type> result;
std::vector<string_type> expectedResult;
expectedResult.push_back(SA::construct_from_utf8("employeeId"));
expectedResult.push_back(SA::construct_from_utf8("name"));
expectedResult.push_back(SA::construct_from_utf8("position"));
expectedResult.push_back(SA::construct_from_utf8("salary"));
expectedResult.push_back(SA::construct_from_utf8("gender"));
expectedResult.push_back(SA::construct_from_utf8("address"));
doc = (Document) baseT::load("staff", false);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("employee"));
lastEmployee = (Element) elementList.item(4);
lastempList = lastEmployee.getElementsByTagName(SA::construct_from_utf8("*"));
for (unsigned int indexN65642 = 0; indexN65642 != lastempList.getLength(); indexN65642++) {
child = (Node) lastempList.item(indexN65642);
childName = child.getNodeName();
result.push_back(childName);
}
baseT::assertEquals(expectedResult, result, __LINE__, __FILE__);
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Node employeeNode;
NodeList childNodes;
Node childNode;
int childType;
String childName;
std::vector<string_type> elementNames;
std::vector<string_type> expectedElementNames;
expectedElementNames.push_back(SA::construct_from_utf8("employeeId"));
expectedElementNames.push_back(SA::construct_from_utf8("name"));
expectedElementNames.push_back(SA::construct_from_utf8("position"));
expectedElementNames.push_back(SA::construct_from_utf8("salary"));
expectedElementNames.push_back(SA::construct_from_utf8("gender"));
expectedElementNames.push_back(SA::construct_from_utf8("address"));
doc = (Document) baseT::load("staff", false);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("employee"));
employeeNode = elementList.item(1);
childNodes = employeeNode.getChildNodes();
for (unsigned int indexN65644 = 0; indexN65644 != childNodes.getLength(); indexN65644++) {
childNode = (Node) childNodes.item(indexN65644);
childType = (int) childNode.getNodeType();
if (baseT::equals(1, childType)) {
childName = childNode.getNodeName();
elementNames.push_back(childName);
}
}
baseT::assertEquals(expectedElementNames, elementNames, __LINE__, __FILE__);
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Node employeeNode;
NodeList childList;
Node oldChild;
Node removedChild;
String childName;
int length;
doc = (Document) baseT::load("staff", true);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("employee"));
employeeNode = elementList.item(1);
childList = employeeNode.getChildNodes();
length = (int) childList.getLength();
oldChild = childList.item(0);
removedChild = employeeNode.removeChild(oldChild);
childName = removedChild.getNodeName();
if (baseT::equals(6, length)) {
baseT::assertEquals("employeeId", childName, __LINE__, __FILE__);
} else {
baseT::assertEquals("#text", childName, __LINE__, __FILE__);
}
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
Element root;
NodeList elementList;
Element testName;
Node firstChild;
String childValue;
Text textNode;
Node retNode;
doc = (Document) baseT::load("hc_staff", true);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("sup"));
testName = (Element) elementList.item(0);
textNode = doc.createTextNode(SA::construct_from_utf8(""));
retNode = testName.appendChild(textNode);
textNode = doc.createTextNode(SA::construct_from_utf8(",000"));
retNode = testName.appendChild(textNode);
root = doc.getDocumentElement();
root.normalize();
elementList = doc.getElementsByTagName(SA::construct_from_utf8("sup"));
testName = (Element) elementList.item(0);
firstChild = testName.getFirstChild();
childValue = firstChild.getNodeValue();
baseT::assertEquals("56,000,000", childValue, __LINE__, __FILE__);
}
Element *Context::getNowEle(Element *pEle, std::string eleName) {
NodeList *tempNodeList = pEle->getChildNodes();
for (int i = 0; i < tempNodeList->getLength(); i++) {
if (dynamic_cast<Element *>(tempNodeList->item(i)) != 0) {
Element *nowEle = static_cast<Element *>(tempNodeList->item(i));
if (nowEle->getTagName()->equals(eleName)) {
return nowEle;
}
}
}
return 0;
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList genderList;
Node gender;
NodeList genList;
Node gen;
NodeList gList;
Node g;
NamedNodeMap attrList;
Attr attrNode;
doc = (Document) baseT::load("staff", true);
genderList = doc.getElementsByTagName(SA::construct_from_utf8("gender"));
gender = genderList.item(2);
baseT::assertNotNull(gender, __LINE__, __FILE__);
genList = gender.getChildNodes();
gen = genList.item(0);
baseT::assertNotNull(gen, __LINE__, __FILE__);
gList = gen.getChildNodes();
g = gList.item(0);
baseT::template skipIfNot<EntityReference>(g);
baseT::assertNotNull(g, __LINE__, __FILE__);
attrList = g.getAttributes();
baseT::assertNotNull(attrList, __LINE__, __FILE__);
attrNode = (Attr) attrList.getNamedItem(SA::construct_from_utf8("domestic"));
baseT::assertNotNull(attrNode, __LINE__, __FILE__);
{
boolean success = false;
try {
attrNode.setValue(SA::construct_from_utf8("newvalue"));
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::NO_MODIFICATION_ALLOWED_ERR);
}
assertTrue(success);
}
{
boolean success = false;
try {
attrNode.setNodeValue(SA::construct_from_utf8("newvalue2"));
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::NO_MODIFICATION_ALLOWED_ERR);
}
assertTrue(success);
}
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
NodeList childList;
Node childNode;
Node newChild;
Node memberNode;
String memberName;
std::vector<string_type> refreshedActual;
std::vector<string_type> actual;
int nodeType;
std::vector<string_type> expected;
expected.push_back(SA::construct_from_utf8("strong"));
expected.push_back(SA::construct_from_utf8("code"));
expected.push_back(SA::construct_from_utf8("sup"));
expected.push_back(SA::construct_from_utf8("var"));
expected.push_back(SA::construct_from_utf8("acronym"));
expected.push_back(SA::construct_from_utf8("em"));
Node appendedChild;
doc = (Document) baseT::load("hc_staff", true);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("p"));
childNode = elementList.item(1);
childList = ((Element) /*Node */childNode).getElementsByTagName(SA::construct_from_utf8("*"));
newChild = childList.item(0);
appendedChild = childNode.appendChild(newChild);
for (unsigned int indexN65669 = 0; indexN65669 != childList.getLength(); indexN65669++) {
memberNode = (Node) childList.item(indexN65669);
memberName = memberNode.getNodeName();
actual.push_back(memberName);
}
baseT::assertEquals(expected, actual, __LINE__, __FILE__);
childList = childNode.getChildNodes();
for (unsigned int indexN65692 = 0; indexN65692 != childList.getLength(); indexN65692++) {
memberNode = (Node) childList.item(indexN65692);
nodeType = (int) memberNode.getNodeType();
if (baseT::equals(1, nodeType)) {
memberName = memberNode.getNodeName();
refreshedActual.push_back(memberName);
}
}
baseT::assertEquals(expected, refreshedActual, __LINE__, __FILE__);
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc1;
Document doc2;
Attr newAttribute;
NodeList addressElementList;
Element testAddress;
Attr attrAddress;
doc1 = (Document) baseT::load("staff", true);
doc2 = (Document) baseT::load("staff", false);
newAttribute = doc2.createAttribute(SA::construct_from_utf8("newAttribute"));
addressElementList = doc1.getElementsByTagName(SA::construct_from_utf8("address"));
testAddress = (Element) addressElementList.item(4);
{
boolean success = false;
try {
attrAddress = testAddress.setAttributeNode(newAttribute);
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::WRONG_DOCUMENT_ERR);
}
assertTrue(success);
}
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList acronymList;
Node testNode;
NamedNodeMap attributes;
Attr titleAttr;
String value;
Node textNode;
Node retval;
Node lastChild;
Document otherDoc;
doc = (Document) baseT::load("hc_staff", true);
otherDoc = (Document) baseT::load("hc_staff", true);
acronymList = doc.getElementsByTagName(SA::construct_from_utf8("acronym"));
testNode = acronymList.item(3);
attributes = testNode.getAttributes();
titleAttr = (Attr) attributes.getNamedItem(SA::construct_from_utf8("title"));
textNode = otherDoc.createTextNode(SA::construct_from_utf8("terday"));
{
boolean success = false;
try {
retval = titleAttr.appendChild(textNode);
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::WRONG_DOCUMENT_ERR);
}
assertTrue(success);
}
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList genderList;
Node gender;
EntityReference entRef;
Element entElement;
Node entNode;
Node appendedChild;
doc = (Document) baseT::load("staff", true);
genderList = doc.getElementsByTagName(SA::construct_from_utf8("gender"));
gender = genderList.item(2);
entRef = doc.createEntityReference(SA::construct_from_utf8("ent4"));
baseT::assertNotNull(entRef, __LINE__, __FILE__);
appendedChild = gender.appendChild(entRef);
entNode = entRef.getFirstChild();
baseT::template skipIfNot<Element>(entNode);
entElement = (Element) entRef.getFirstChild();
baseT::assertNotNull(entElement, __LINE__, __FILE__);
{
boolean success = false;
try {
entElement.removeAttribute(SA::construct_from_utf8("domestic"));
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::NO_MODIFICATION_ALLOWED_ERR);
}
assertTrue(success);
}
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
Element rootNode;
Node newChild;
NodeList elementList;
Node oldChild;
Node replacedChild;
doc = (Document) baseT::load("hc_staff", true);
newChild = doc.createAttribute(SA::construct_from_utf8("lang"));
elementList = doc.getElementsByTagName(SA::construct_from_utf8("p"));
oldChild = elementList.item(1);
rootNode = (Element) oldChild.getParentNode();
{
boolean success = false;
try {
replacedChild = rootNode.replaceChild(newChild, oldChild);
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::HIERARCHY_REQUEST_ERR);
}
assertTrue(success);
}
}
void NodeRemovedFromDocument(Node* node)
{
NodeList* childNodes = node->get_childNodes();
unsigned int length = childNodes->get_length();
for (unsigned int i = 0; i < length; ++i)
{
Node* child = childNodes->item(i);
NodeRemovedFromDocument(child);
}
Document* ownerDocument = node->get_ownerDocument();
DocumentEvent* ownerDocumentEvent = dynamic_cast<DocumentEvent*>(ownerDocument);
ASSERT(ownerDocumentEvent != nullptr);
MutationEvent* event = dynamic_cast<MutationEvent*>(ownerDocumentEvent->createEvent(S("MutationEvent")));
event->initMutationEvent(S("DOMNodeRemovedFromDocument"), false, false, NULL/*relatedNode*/, nullptr, nullptr, nullptr, CHANGE_UNKNOWN);
EventTarget* target = dynamic_cast<EventTarget*>(node);
target->dispatchEvent(event);
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Node child;
String childName;
String childValue;
int commentCount = 0;
int childType;
NamedNodeMap attributes;
doc = (Document) baseT::load("hc_staff", false);
elementList = doc.getChildNodes();
for (unsigned int indexN65630 = 0; indexN65630 != elementList.getLength(); indexN65630++) {
child = (Node) elementList.item(indexN65630);
childType = (int) child.getNodeType();
if (baseT::equals(8, childType)) {
childName = child.getNodeName();
baseT::assertEquals("#comment", childName, __LINE__, __FILE__);
childValue = child.getNodeValue();
baseT::assertEquals(" This is comment number 1.", childValue, __LINE__, __FILE__);
attributes = child.getAttributes();
baseT::assertNull(attributes, __LINE__, __FILE__);
commentCount += 1;
}
}
assertTrue((commentCount < 2));
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Element testEmployee;
Node firstC;
String childName;
int nodeType;
CharacterData employeeIDNode;
String employeeID;
doc = (Document) baseT::load("hc_staff", false);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("p"));
testEmployee = (Element) elementList.item(3);
firstC = testEmployee.getFirstChild();
nodeType = (int) firstC.getNodeType();
while (baseT::equals(3, nodeType)) {
firstC = firstC.getNextSibling();
nodeType = (int) firstC.getNodeType();
}
childName = firstC.getNodeName();
baseT::assertEquals("em", childName, __LINE__, __FILE__);
employeeIDNode = (CharacterData) firstC.getFirstChild();
employeeID = employeeIDNode.getNodeValue();
baseT::assertEquals("EMP0004", employeeID, __LINE__, __FILE__);
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Node child;
String childName;
String childValue;
int commentCount = 0;
int childType;
doc = (Document) baseT::load("staff", false);
elementList = doc.getChildNodes();
for (unsigned int indexN65623 = 0; indexN65623 != elementList.getLength(); indexN65623++) {
child = (Node) elementList.item(indexN65623);
childType = (int) child.getNodeType();
if (baseT::equals(8, childType)) {
childName = child.getNodeName();
baseT::assertEquals("#comment", childName, __LINE__, __FILE__);
childValue = child.getNodeValue();
baseT::assertEquals(" This is comment number 1.", childValue, __LINE__, __FILE__);
commentCount = commentCount + 1;
}
}
baseT::assertEquals(1, commentCount, __LINE__, __FILE__);
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
Attr newAttribute;
NodeList addressElementList;
Element testAddress;
Element newElement;
Attr attrAddress;
Node appendedChild;
Attr setAttr1;
Attr setAttr2;
doc = (Document) baseT::load("hc_staff", true);
addressElementList = doc.getElementsByTagName(SA::construct_from_utf8("body"));
testAddress = (Element) addressElementList.item(0);
newElement = doc.createElement(SA::construct_from_utf8("p"));
appendedChild = testAddress.appendChild(newElement);
newAttribute = doc.createAttribute(SA::construct_from_utf8("title"));
setAttr1 = newElement.setAttributeNode(newAttribute);
{
boolean success = false;
try {
setAttr2 = testAddress.setAttributeNode(newAttribute);
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::INUSE_ATTRIBUTE_ERR);
}
assertTrue(success);
}
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc1;
Document doc2;
NodeList elementList;
Node testAddress;
NamedNodeMap attributes;
Node newAttribute;
String strong;
Node setNode;
doc1 = (Document) baseT::load("hc_staff", true);
doc2 = (Document) baseT::load("hc_staff", true);
elementList = doc1.getElementsByTagName(SA::construct_from_utf8("acronym"));
testAddress = elementList.item(2);
newAttribute = doc2.createAttribute(SA::construct_from_utf8("newAttribute"));
attributes = testAddress.getAttributes();
{
boolean success = false;
try {
setNode = attributes.setNamedItem(newAttribute);
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::WRONG_DOCUMENT_ERR);
}
assertTrue(success);
}
}
static Position innerNodePosition(const Position& innerPosition)
{
ASSERT(!innerPosition.isBeforeAnchor());
ASSERT(!innerPosition.isAfterAnchor());
HTMLElement* element = toHTMLElement(innerPosition.anchorNode());
ASSERT(element);
NodeList* childNodes = element->childNodes();
if (!childNodes->length())
return Position(element, 0);
unsigned offset = 0;
if (innerPosition.isOffsetInAnchor())
offset = std::max(0, std::min(innerPosition.offsetInContainerNode(), static_cast<int>(childNodes->length())));
else if (innerPosition.isAfterChildren())
offset = childNodes->length();
if (offset == childNodes->length())
return Position(element->lastChild(), PositionAnchorType::AfterAnchor);
Node* node = childNodes->item(offset);
if (node->isTextNode())
return Position(toText(node), 0);
return Position(node, PositionAnchorType::BeforeAnchor);
}
NodeList
Element::getElementsByTagName (const DOMString& name)
{
NodeList elements;
for (size_t i = 0; i < _children.length(); i++) {
Node* node = _children.item(i);
if (node->nodeType() == Node::ELEMENT_NODE) {
if (((Element*)node)->tagName() == Utils::toUpper(name)) {
elements.insert(node);
}
}
}
for (size_t i = 0; i < _children.length(); i++) {
Node* node = _children.item(i);
if (node->nodeType() == Node::ELEMENT_NODE) {
NodeList subElements = ((Element*)node)->getElementsByTagName(name);
for (size_t h = 0; h < subElements.length(); h++) {
elements.insert(subElements.item(h));
}
}
}
return elements;
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc1;
Document doc2;
Node refChild;
Node newChild;
NodeList elementList;
Node elementNode;
Node insertedNode;
doc1 = (Document) baseT::load("staff", false);
doc2 = (Document) baseT::load("staff", true);
newChild = doc1.createElement(SA::construct_from_utf8("newChild"));
elementList = doc2.getElementsByTagName(SA::construct_from_utf8("employee"));
elementNode = elementList.item(1);
refChild = elementNode.getFirstChild();
{
boolean success = false;
try {
insertedNode = elementNode.insertBefore(newChild, refChild);
} catch (const DOMException& ex) {
success = (ex.code() == DOMException::WRONG_DOCUMENT_ERR);
}
assertTrue(success);
}
}
void ReadAppXml::read(std::string filePathName) throw(Exception) {
Document *doc = 0;
//建立一个解析器工厂
DocumentBuilderFactory *factory = DocumentBuilderFactory::newInstance();
//获得一个DocumentBuilder对象,这个对象代表了具体的DOM解析器
DocumentBuilder *builder = factory->newDocumentBuilder();
//得到一个表示XML文档的Document对象
doc = builder->parse(filePathName);
//去掉XML文档中作为格式化内容的空白而映射在DOM树中的不必要的Text Node对象
doc->normalize();
// //获取jdbc
// NodeList jdbc = doc.getElementsByTagName("jdbc");
// //只有一个jdbc,获取jdbc中的驱动类的名称
// NodeList driverClassNode = ((Element)jdbc.item(0)).getElementsByTagName("driver-class");
// String driverClass = driverClassNode.item(0).getFirstChild().getNodeValue();
// System.out.println("driverClass=="+driverClass);
// //同理获取url、user、password等值
// NodeList urlNode = ((Element)jdbc.item(0)).getElementsByTagName("url");
// String url = urlNode.item(0).getFirstChild().getNodeValue();
// System.out.println("url=="+url);
//
// NodeList userNode = ((Element)jdbc.item(0)).getElementsByTagName("user");
// String user = userNode.item(0).getFirstChild().getNodeValue();
// System.out.println("user=="+user);
//
// NodeList passwordNode = ((Element)jdbc.item(0)).getElementsByTagName("password");
// String password = passwordNode.item(0).getFirstChild().getNodeValue();
// System.out.println("password=="+password);
// //获取application-xml
// NodeList applicationXmlNode = doc.getElementsByTagName("application-xml");
// String applicationXml = applicationXmlNode.item(0).getFirstChild().getNodeValue();
// System.out.println("applicationXml=="+applicationXml);
//先要获取spring-default,然后获取application-xmls
//然后才能获取application-xml
NodeList *springDefaultNode = doc->getElementsByTagName("spring-default");
NodeList *appXmlsNode = (static_cast<Element *>(springDefaultNode->item(0)))->getElementsByTagName("application-xmls");
NodeList *appXmlNode = (static_cast<Element *>(appXmlsNode->item(0)))->getElementsByTagName("application-xml");
//循环获取每个application-xml元素的值
for (int i = 0; i < appXmlNode->getLength(); i++) {
std::string applicationXml = appXmlNode->item(i)->getFirstChild()->getNodeValue();
puts("applicationXml==" + applicationXml);
}
}
// Compiles a list of zoomable subtargets.
void compileZoomableSubtargets(const NodeList& intersectedNodes, SubtargetGeometryList& subtargets)
{
unsigned length = intersectedNodes.length();
for (unsigned i = 0; i < length; ++i) {
Node* const candidate = intersectedNodes.item(i);
if (nodeIsZoomTarget(candidate))
appendZoomableSubtargets(candidate, subtargets);
}
}
// Compiles a list of subtargets of all the relevant target nodes.
void compileSubtargetList(const NodeList& intersectedNodes, SubtargetGeometryList& subtargets, NodeFilter nodeFilter)
{
// Find candidates responding to tap gesture events in O(n) time.
HashMap<Node*, Node*> responderMap;
HashSet<Node*> ancestorsToRespondersSet;
Vector<Node*> candidates;
// A node matching the NodeFilter is called a responder. Candidate nodes must either be a
// responder or have an ancestor that is a responder.
// This iteration tests all ancestors at most once by caching earlier results.
unsigned length = intersectedNodes.length();
for (unsigned i = 0; i < length; ++i) {
Node* const node = intersectedNodes.item(i);
Vector<Node*> visitedNodes;
Node* respondingNode = 0;
for (Node* visitedNode = node; visitedNode; visitedNode = visitedNode->parentOrHostNode()) {
// Check if we already have a result for a common ancestor from another candidate.
respondingNode = responderMap.get(visitedNode);
if (respondingNode)
break;
visitedNodes.append(visitedNode);
// Check if the node filter applies, which would mean we have found a responding node.
if (nodeFilter(visitedNode)) {
respondingNode = visitedNode;
// Continue the iteration to collect the ancestors of the responder, which we will need later.
for (visitedNode = visitedNode->parentOrHostNode(); visitedNode; visitedNode = visitedNode->parentOrHostNode()) {
pair<HashSet<Node*>::iterator, bool> addResult = ancestorsToRespondersSet.add(visitedNode);
if (!addResult.second)
break;
}
break;
}
}
// Insert the detected responder for all the visited nodes.
for (unsigned j = 0; j < visitedNodes.size(); j++)
responderMap.add(visitedNodes[j], respondingNode);
if (respondingNode)
candidates.append(node);
}
// We compile the list of component absolute quads instead of using the bounding rect
// to be able to perform better hit-testing on inline links on line-breaks.
length = candidates.size();
for (unsigned i = 0; i < length; i++) {
Node* candidate = candidates[i];
// Skip nodes who's responders are ancestors of other responders. This gives preference to
// the inner-most event-handlers. So that a link is always preferred even when contained
// in an element that monitors all click-events.
Node* respondingNode = responderMap.get(candidate);
ASSERT(respondingNode);
if (ancestorsToRespondersSet.contains(respondingNode))
continue;
appendSubtargetsForNodeToList(candidate, subtargets);
}
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Node employeeNode;
NodeList employeeList;
Node secondChildNode;
Node textNode;
Node noChildNode;
doc = (Document) baseT::load("staff", false);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("employee"));
employeeNode = elementList.item(0);
employeeList = employeeNode.getChildNodes();
secondChildNode = employeeList.item(1);
textNode = secondChildNode.getFirstChild();
noChildNode = textNode.getFirstChild();
baseT::assertNull(noChildNode, __LINE__, __FILE__);
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Element cdataName;
NodeList childList;
Node child;
String cdataNodeValue;
doc = (Document) baseT::load("staff", false);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("name"));
cdataName = (Element) elementList.item(1);
childList = cdataName.getChildNodes();
child = childList.item(1);
if ((baseT::isNull(child))) {
child = doc.createCDATASection(SA::construct_from_utf8("This is a CDATASection with EntityReference number 2 &ent2;"));
}
cdataNodeValue = child.getNodeValue();
baseT::assertEquals("This is a CDATASection with EntityReference number 2 &ent2;", cdataNodeValue, __LINE__, __FILE__);
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList elementList;
Node employeeNode;
NodeList childList;
Node refChild;
Node newChild;
Node insertedNode;
String childName;
doc = (Document) baseT::load("hc_staff", true);
elementList = doc.getElementsByTagName(SA::construct_from_utf8("p"));
employeeNode = elementList.item(1);
childList = employeeNode.getChildNodes();
refChild = childList.item(3);
newChild = doc.createElement(SA::construct_from_utf8("br"));
insertedNode = employeeNode.insertBefore(newChild, refChild);
childName = insertedNode.getNodeName();
baseT::assertEquals("br", childName, __LINE__, __FILE__);
}
/*
* Runs the test case.
*/
void runTest()
{
Document doc;
NodeList testList;
Node piNode;
String piValue;
doc = (Document) baseT::load("staff", false);
testList = doc.getChildNodes();
piNode = testList.item(0);
piValue = piNode.getNodeValue();
baseT::assertEquals("PIDATA", piValue, __LINE__, __FILE__);
}