public void drawEdge(Graphics2D g, VisualEdge edge) {
VisualNode fromAnc = edge.getFrom().getVisibleAncestor();
VisualNode toAnc = edge.getTo().getVisibleAncestor();
if (fromAnc == toAnc) return;
Vec2 toPos = toAnc.getPos();
Vec2 fromPos = fromAnc.getPos();
setWeightAndColor(g, edge);
this.updateCurve(edge);
g.draw(curve);
if (!edge.isSymmetric()) {
GeneralPath p = this.getVectorShape(edge);
// g.draw(p);
if (this.gradientColor) {
Paint gradient =
new GradientPaint(
(float) fromPos.toPoint().getX(),
(float) fromPos.toPoint().getY(),
Color.WHITE,
(float) toPos.toPoint().getX(),
(float) toPos.toPoint().getY(),
g.getColor());
g.setPaint(gradient);
}
if (this.strokeLines) g.draw(p);
g.fill(p);
}
}
/**
* returns the center of the graph layout as a Point 2D The center of the graph is calculated as
* the median of x and y coordinates of all nodes
*
* @return the center of the graph
*/
public Point2D getCenter() {
if (this.getVertexCount() > 0) {
// initialize coords with first vertex location
VisualNode v = this.getVertices().get(0);
double minX = this.getLocation(v).getX();
double minY = this.getLocation(v).getY();
double maxX = this.getLocation(v).getX();
double maxY = this.getLocation(v).getY();
for (VisualNode jungNode : this.getVertices()) {
if (jungNode.getVisible()) {
Point2D p = this.getLocation(jungNode);
minX = (minX > p.getX() ? p.getX() : minX);
minY = (minY > p.getY() ? p.getY() : minY);
maxX = (maxX < p.getX() ? p.getX() : maxX);
maxY = (maxY < p.getY() ? p.getY() : maxY);
}
}
return new Point2D.Double((maxX + minX) / 2, (maxY + minY) / 2);
}
// else return default
return new Point2D.Double();
}
private double getDistance(VisualNode n1, VisualNode n2) {
final double x1 = n1.getValueX();
final double y1 = n1.getValueY();
final double x2 = n2.getValueX();
final double y2 = n2.getValueY();
double length = GeomUtils.distance(x1, y1, x2, y2);
return length;
}
public VisualNode getOppositeNode(VisualNode node) {
if (targetNode == node) {
return sourceNode;
}
if (sourceNode == node) {
return targetNode;
}
throw new IllegalArgumentException(
"Node '"
+ node.getLabel()
+ "' is neither the source nor the target node of the edge '"
+ getLabel()
+ "'");
}
public String getLabel() {
return sourceNode.getLabel() + " --> " + targetNode.getLabel();
}
public double getTargetY() {
return targetNode.getValueY();
}
public double getSourceY() {
return sourceNode.getValueY();
}
public void exportToXML(File file) {
try {
DocumentBuilderFactory documentBuilderFactory = DocumentBuilderFactory.newInstance();
DocumentBuilder documentBuilder = documentBuilderFactory.newDocumentBuilder();
Document document = documentBuilder.newDocument();
Element rootElement = document.createElement("HGraph");
document.appendChild(rootElement);
Element elementHnodes = document.createElement("HNodes");
Element elementHedges = document.createElement("HEdges");
// write nodes
for (VisualNode v : this.getVertices()) {
// write HNode
Element elementHnode = document.createElement("HNode");
elementHnode.setAttribute("x", new Double(this.getLocation(v).getX()).toString());
elementHnode.setAttribute("y", new Double(this.getLocation(v).getY()).toString());
elementHnodes.appendChild(elementHnode);
// write element key
Element elementKey = document.createElement("Key");
elementKey.appendChild(document.createTextNode(this.getKey(v).toString()));
elementHnode.appendChild(elementKey);
// write element name
Element elementName = document.createElement("Name");
elementName.appendChild(document.createTextNode(v.getName()));
elementHnode.appendChild(elementName);
// write element type
Element elementType = document.createElement("Type");
elementType.appendChild(document.createTextNode(v.getType().toString()));
elementHnode.appendChild(elementType);
/** @author pmanousi write element key NOW IT IS NOT NEEDED (TopologicalTravel). */
// Element elementID = document.createElement("ID");
// elementID.appendChild(document.createTextNode(String.valueOf(v.ID)));
// elementHnode.appendChild(elementID);
// write element SQL Definition
if (!v.getSQLDefinition().isEmpty()) {
Element elementSQLDefinition = document.createElement("SQLDefinition");
elementSQLDefinition.appendChild(document.createTextNode(v.getSQLDefinition()));
elementHnode.appendChild(elementSQLDefinition);
}
}
rootElement.appendChild(elementHnodes);
// write edges
for (VisualEdge e : this.getEdges()) {
// write HEdge
Element elementHedge = document.createElement("HEdge");
elementHedges.appendChild(elementHedge);
// write element key
Element elementKey = document.createElement("Key");
elementKey.appendChild(document.createTextNode(this.getKey(e).toString()));
elementHedge.appendChild(elementKey);
// write element name
Element elementName = document.createElement("Name");
elementName.appendChild(document.createTextNode(e.getName()));
elementHedge.appendChild(elementName);
// write element type
Element elementType = document.createElement("Type");
elementType.appendChild(document.createTextNode(e.getType().ToString()));
elementHedge.appendChild(elementType);
// write element fromNode
Element elementFromNode = document.createElement("FromNode");
elementFromNode.appendChild(
document.createTextNode(this.getKey(e.getFromNode()).toString()));
elementHedge.appendChild(elementFromNode);
// write element toNode
Element elementToNode = document.createElement("ToNode");
elementToNode.appendChild(document.createTextNode(this.getKey(e.getToNode()).toString()));
elementHedge.appendChild(elementToNode);
// end element HEdge
}
rootElement.appendChild(elementHedges);
/* // write policies
Element elementHPolicies = document.createElement("HPolicies");
// write events
Element elementHEvents = document.createElement("HEvents");
for (VisualNode v : this.getVertices()) {
for (EvolutionPolicy<VisualNode> p: v.getPolicies()) {
//start tag HPolicy
Element elementHPolicy = document.createElement("HPolicy");
elementHPolicies.appendChild(elementHPolicy);
//write Node having the policy
Element elementHNode = document.createElement("HNode");
elementHNode.appendChild(document.createTextNode(this.getKey(v).toString()));
elementHPolicy.appendChild(elementHNode);
//write event handled by the policy
Element elementEvent = document.createElement("HEvent");
elementHPolicy.appendChild(elementEvent);
Element elementEventNode = document.createElement("HEventNode");
elementEventNode.appendChild(document.createTextNode(this.getKey(p.getSourceEvent().getEventNode()).toString()));
elementEvent.appendChild(elementEventNode);
Element elementEventType = document.createElement("HEventType");
elementEventType.appendChild(document.createTextNode(p.getSourceEvent().getEventType().toString()));
elementEvent.appendChild(elementEventType);
//write policy type
Element elementPolicyType = document.createElement("HPolicyType");
elementPolicyType.appendChild(document.createTextNode(p.getPolicyType().toString()));
elementHPolicy.appendChild(elementPolicyType);
// end element HPolicy
}
for (EvolutionEvent<VisualNode> e : v.getEvents()) {
//write element event
Element elementHEvent = document.createElement("HEvent");
elementHEvents.appendChild(elementHEvent);
//write Node having the event
Element elementHNode = document.createElement("HNode");
elementHNode.appendChild(document.createTextNode(this.getKey(v).toString()));
elementHEvent.appendChild(elementHNode);
Element elementEventNode = document.createElement("HEventNode");
elementEventNode.appendChild(document.createTextNode(this.getKey(e.getEventNode()).toString()));
elementHEvent.appendChild(elementEventNode);
Element elementEventType = document.createElement("HEventType");
elementEventType.appendChild(document.createTextNode(e.getEventType().toString()));
elementHEvent.appendChild(elementEventType);
// end element HEvent
}
}
rootElement.appendChild(elementHPolicies);
rootElement.appendChild(elementHEvents);
*/
//
Element elementHKeyGen = document.createElement("HKeyGen");
elementHKeyGen.appendChild(
document.createTextNode((new Integer(this.getKeyGenerator()).toString())));
rootElement.appendChild(elementHKeyGen);
TransformerFactory transformerFactory = TransformerFactory.newInstance();
Transformer transformer = transformerFactory.newTransformer();
DOMSource source = new DOMSource(document);
StreamResult result = new StreamResult(file);
transformer.transform(source, result);
} catch (ParserConfigurationException e) {
e.printStackTrace();
} catch (TransformerConfigurationException e) {
e.printStackTrace();
} catch (TransformerException e) {
e.printStackTrace();
}
}
public VisualGraph importFromXML(File file) {
// holds the current key of the graph
int currentKey = this.getKeyGenerator();
myNodes = new ArrayList<VisualNode>();
String nKey = null;
String nName = null;
String nType = null;
int nID = 0;
String eKey = null;
String eName = null;
String eType = null;
String eFromNode = null;
String eToNode = null;
String nSQLDefinition = null;
try {
DocumentBuilderFactory docBuilderFactory = DocumentBuilderFactory.newInstance();
DocumentBuilder docBuilder = docBuilderFactory.newDocumentBuilder();
Document doc = docBuilder.parse(file);
// normalize text representation
doc.getDocumentElement().normalize();
NodeList listOfNodes = doc.getElementsByTagName("HNodes");
Element NodesElement = (Element) listOfNodes.item(0);
listOfNodes = NodesElement.getElementsByTagName("HNode");
for (int s = 0; s < listOfNodes.getLength(); s++) {
Node firstNode = listOfNodes.item(s);
if (firstNode.getNodeType() == Node.ELEMENT_NODE) {
Element firstNodeElement = (Element) firstNode;
double nodeX = new Double(firstNodeElement.getAttribute("x"));
double nodeY = new Double(firstNodeElement.getAttribute("y"));
// -------
NodeList KeyList = firstNodeElement.getElementsByTagName("Key");
Element KeyElement = (Element) KeyList.item(0);
NodeList textKeyList = KeyElement.getChildNodes();
nKey = ((Node) textKeyList.item(0)).getNodeValue();
// -------
NodeList NameList = firstNodeElement.getElementsByTagName("Name");
Element NameElement = (Element) NameList.item(0);
NodeList textNameList = NameElement.getChildNodes();
nName = ((Node) textNameList.item(0)).getNodeValue();
// ----
NodeList TypeList = firstNodeElement.getElementsByTagName("Type");
Element TypeElement = (Element) TypeList.item(0);
NodeList textTypeList = TypeElement.getChildNodes();
nType = ((Node) textTypeList.item(0)).getNodeValue();
/** @author pmanousi ID NOW NOT NEEDED (TopologicalTravel) */
// NodeList IDList = firstNodeElement.getElementsByTagName("ID");
// Element IDElement = (Element)IDList.item(0);
// NodeList textIDList = IDElement.getChildNodes();
// nID = Integer.parseInt(((Node)textIDList.item(0)).getNodeValue());
// ----
NodeList SQLDefinitionList = firstNodeElement.getElementsByTagName("SQLDefinition");
Element SQLDefinitionElement = (Element) SQLDefinitionList.item(0);
if (SQLDefinitionElement != null) {
NodeList textSQLDefinitionList = SQLDefinitionElement.getChildNodes();
nSQLDefinition = ((Node) textSQLDefinitionList.item(0)).getNodeValue();
} else nSQLDefinition = "";
// add node
VisualNode v = new VisualNode();
v.setName(nName);
v.setType(NodeType.valueOf(nType));
// v.setLocation(new Point2D.Double(nodeX,nodeY));
this.setLocation(v, new Point2D.Double(nodeX, nodeY));
v.setSQLDefinition(nSQLDefinition);
this.addVertex(v);
// shift node key by current key
this.setKey(v, currentKey + new Integer(nKey));
v.ID = nID;
myNodes.add(v);
} // end of if clause
} // end of for loop for nodes
NodeList listOfEdges = doc.getElementsByTagName("HEdges");
Element EdgesElement = (Element) listOfEdges.item(0);
listOfEdges = EdgesElement.getElementsByTagName("HEdge");
for (int s = 0; s < listOfEdges.getLength(); s++) {
Node firstEdge = listOfEdges.item(s);
if (firstEdge.getNodeType() == Node.ELEMENT_NODE) {
Element firstEdgeElement = (Element) firstEdge;
// -------
NodeList KeyList = firstEdgeElement.getElementsByTagName("Key");
Element KeyElement = (Element) KeyList.item(0);
NodeList textKeyList = KeyElement.getChildNodes();
eKey = ((Node) textKeyList.item(0)).getNodeValue();
// -------
NodeList NameList = firstEdgeElement.getElementsByTagName("Name");
Element NameElement = (Element) NameList.item(0);
NodeList textNameList = NameElement.getChildNodes();
eName = ((Node) textNameList.item(0)).getNodeValue();
// ----
NodeList TypeList = firstEdgeElement.getElementsByTagName("Type");
Element TypeElement = (Element) TypeList.item(0);
NodeList textTypeList = TypeElement.getChildNodes();
eType = ((Node) textTypeList.item(0)).getNodeValue();
NodeList FromNodeList = firstEdgeElement.getElementsByTagName("FromNode");
Element FromNodeElement = (Element) FromNodeList.item(0);
NodeList textFromNodeList = FromNodeElement.getChildNodes();
eFromNode = ((Node) textFromNodeList.item(0)).getNodeValue();
NodeList ToNodeList = firstEdgeElement.getElementsByTagName("ToNode");
Element ToNodeElement = (Element) ToNodeList.item(0);
NodeList textToNodeList = ToNodeElement.getChildNodes();
eToNode = ((Node) textToNodeList.item(0)).getNodeValue();
// add edge
VisualEdge e =
new VisualEdge(
eName,
EdgeType.toEdgeType(eType),
this.findVertex(currentKey + new Integer(eFromNode)),
this.findVertex(currentKey + new Integer(eToNode)));
this.addEdge(e);
this.setKey(e, currentKey + new Integer(eKey));
} // end of if clause
} // end of for loop for edges
/* // find the policies (if any exists) for nodes
NodeList listOfPolicies = doc.getElementsByTagName("HPolicies");
Element PoliciesElement = (Element)listOfPolicies.item(0);
listOfPolicies = PoliciesElement.getElementsByTagName("HPolicy");
if (listOfPolicies.getLength()>0) {
for(int i=0; i<listOfPolicies.getLength() ; i++){
Node firstPolicy = listOfPolicies.item(i);
if(firstPolicy.getNodeType() == Node.ELEMENT_NODE){
Element firstPolicyElement = (Element)firstPolicy;
//-------
NodeList HNodeList = firstPolicyElement.getElementsByTagName("HNode");
Element HNodeElement = (Element)HNodeList.item(0);
NodeList textHNodeList = HNodeElement.getChildNodes();
String nHNode = ((Node)textHNodeList.item(0)).getNodeValue();
//-------
NodeList HEventList = firstPolicyElement.getElementsByTagName("HEvent");
Element HEventElement = (Element)HEventList.item(0);
NodeList HEventNodeList = HEventElement.getElementsByTagName("HEventNode");
Element HEventNodeElement = (Element)HEventNodeList.item(0);
NodeList textHEventNodeList = HEventNodeElement.getChildNodes();
String nHEventNode = ((Node)textHEventNodeList.item(0)).getNodeValue();
NodeList HEventTypeList = HEventElement.getElementsByTagName("HEventType");
Element HEventTypeElement = (Element)HEventTypeList.item(0);
NodeList textHEventTypeList = HEventTypeElement.getChildNodes();
String nHEventType = ((Node)textHEventTypeList.item(0)).getNodeValue();
//----
NodeList HPolicyTypeList = firstPolicyElement.getElementsByTagName("HPolicyType");
Element HPolicyTypeElement = (Element)HPolicyTypeList.item(0);
NodeList textHPolicyTypeList = HPolicyTypeElement.getChildNodes();
String nHPolicyType = ((Node)textHPolicyTypeList.item(0)).getNodeValue();
VisualNode HNode = this.findVertex(currentKey+new Integer(nHNode));
VisualNode HEventNode = this.findVertex(currentKey+new Integer(nHEventNode));
EventType HEventType = EventType.toEventType(nHEventType);
PolicyType HPolicyType = PolicyType.toPolicyType(nHPolicyType);
HNode.addPolicy(HEventType, HEventNode, HPolicyType);
}//end of if clause
}//end of for loop for policies
}//end of if policies exist
//get events
NodeList listOfEvents = doc.getElementsByTagName("HEvents");
Element EventsElement = (Element)listOfEvents.item(0);
listOfEvents = EventsElement.getElementsByTagName("HEvent");
if (listOfEvents.getLength()>0) {
for(int i=0; i<listOfEvents.getLength() ; i++){
Node firstEvent = listOfEvents.item(i);
if(firstEvent.getNodeType() == Node.ELEMENT_NODE){
Element firstEventElement = (Element)firstEvent;
//-------
NodeList HNodeList = firstEventElement.getElementsByTagName("HNode");
Element HNodeElement = (Element)HNodeList.item(0);
NodeList textHNodeList = HNodeElement.getChildNodes();
String nHNode = ((Node)textHNodeList.item(0)).getNodeValue();
//-------
NodeList HEventNodeList = firstEventElement.getElementsByTagName("HEventNode");
Element HEventNodeElement = (Element)HEventNodeList.item(0);
NodeList textHEventNodeList = HEventNodeElement.getChildNodes();
String nHEventNode = ((Node)textHEventNodeList.item(0)).getNodeValue();
//-------
NodeList HEventTypeList = firstEventElement.getElementsByTagName("HEventType");
Element HEventTypeElement = (Element)HEventTypeList.item(0);
NodeList textHEventTypeList = HEventTypeElement.getChildNodes();
String nHEventType = ((Node)textHEventTypeList.item(0)).getNodeValue();
VisualNode HNode = this.findVertex(currentKey+new Integer(nHNode));
VisualNode HEventNode = this.findVertex(currentKey+new Integer(nHEventNode));
EventType HEventType = EventType.toEventType(nHEventType);
HNode.addEvent(HEventType);
}
}//end of for loop for events
}//end of if events exist
*/
// get the last element - graph keygenerator
NodeList keyGen = doc.getElementsByTagName("HKeyGen");
Element keyGenElement = (Element) keyGen.item(0);
NodeList textkeyGen = keyGenElement.getChildNodes();
nKey = ((Node) textkeyGen.item(0)).getNodeValue();
// set the key
this.setKeyGenerator(currentKey + new Integer(nKey));
return this;
} catch (SAXParseException err) {
System.out.println(
"** Parsing error" + ", line " + err.getLineNumber() + ", uri " + err.getSystemId());
System.out.println(" " + err.getMessage());
return null;
} catch (SAXException e) {
Exception x = e.getException();
((x == null) ? e : x).printStackTrace();
return null;
} catch (Throwable t) {
t.printStackTrace();
return null;
}
}
