package org.ntlab.deltaViewer; import java.awt.Dimension; import java.awt.geom.Point2D; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.util.Map; import org.ntlab.animations.MagnetRONAnimation; import org.ntlab.animations.TranslateAnimation; import org.ntlab.deltaExtractor.Alias; import org.ntlab.deltaExtractor.IAliasCollector; import org.ntlab.deltaExtractor.Alias.AliasType; import org.ntlab.deltaViewer.Edge.TypeName; import org.ntlab.trace.ArrayAccess; import org.ntlab.trace.FieldAccess; import org.ntlab.trace.FieldUpdate; import org.ntlab.trace.MethodExecution; import org.ntlab.trace.MethodInvocation; import org.ntlab.trace.Reference; import org.ntlab.trace.Statement; import org.ntlab.trace.TracePoint; import com.mxgraph.model.mxICell; import com.mxgraph.util.mxRectangle; import com.mxgraph.view.mxGraphView; public class CollaborationViewer extends MagnetRONViewer { private static final long serialVersionUID = 9123813231037494846L; // Test code (will be deleted) private static final String TAG = CollaborationViewer.class.getSimpleName(); private IObjectCallGraph objectCallGraph; private Dimension graphMaxSize; private double viwerScale = 1.0; public CollaborationViewer() { super(); } /** * Set {@link IObjectCallGraph} and {@link IAliasCollector}, create {@link VertexObject} and {@link Edge}. * * @param objectCallGraph * @param aliasCollector */ public void init(IObjectCallGraph objectCallGraph, IAliasCollector aliasCollector, IObjectLayout layout) { this.objectCallGraph = objectCallGraph; this.aliasCollector = aliasCollector; createObjectVertices(this.objectCallGraph, aliasCollector); layout.execute(objectCallGraph, aliasCollector, objectToVertexMap); createEdgeToObject(this.objectCallGraph, this.aliasCollector); } /** * Initialize animation. (再生ボタンを押すとき) */ public void initAnimation() { // reflectCoordinates(mxgraph); // objectVertexにmxGraphの座標を反映させる(ユーザが指定した座標位置を反映) // Fit graph size in visible JFrame. mxGraphView mxGraphView = getGraphComponent().getGraph().getView(); // int componentWidth = getGraphComponent().getWidth() - 25; // double viewWidth = (double) mxGraphView.getGraphBounds().getWidth(); // scale = (double) componentWidth/viewWidth; mxGraphView.setScale(viwerScale); update(); graphMaxSize = new Dimension(); for (ObjectVertex objVx: objectToVertexMap.values()) { double objVxInitMaxX = objVx.getInitialX() + DEFAULT_OBJECT_VERTEX_SIZE.getWidth(); double objVxInitMaxY = objVx.getInitialY() + DEFAULT_OBJECT_VERTEX_SIZE.getHeight(); if (objVxInitMaxX > graphMaxSize.getWidth()) { graphMaxSize.setSize(objVxInitMaxX, graphMaxSize.getHeight()); } if (objVxInitMaxY > graphMaxSize.getHeight()) { graphMaxSize.setSize(graphMaxSize.getWidth(), objVxInitMaxY); } } mxgraph.setMinimumGraphSize(new mxRectangle(0, 0, graphMaxSize.getWidth(), graphMaxSize.getHeight())); } /** * Step to animation of specified alias. * * @param alias: alias type and occurrence point etc */ public void stepToAnimation(Alias alias) { try { stepToAnimation(aliasCollector.getAliasList().indexOf(alias)); } catch (IndexOutOfBoundsException e) { stepToAnimation(-1); } } /** * Parent: Step to animation of specified numFrame. * * @param numFrame: current animation frame */ public void stepToAnimation(int numFrame) { // TODO: Implement doLastAnimation() to support multiple delta. // TODO: Fix bug in curFrame. System.out.println(TAG + ": Frame=" + curFrame + "->" + numFrame); // if (numFrame - curFrame == 1) { List<TracePoint> relatedPoints = objectCallGraph.getRelatedPoints(); List<Alias> aliasList = aliasCollector.getAliasList(); Alias curFrameAlias = (0 < numFrame && numFrame <= aliasList.size()) ? aliasList.get(numFrame- 1) : null; Alias numFrameAlias = (0 <= numFrame && numFrame < aliasList.size()) ? aliasList.get(numFrame) : null; if (numFrameAlias != null) { if (curFrameAlias != null) { int i = 0; for (Long rpTime:objectCallGraph.getTimeStamps()) { if (curFrameAlias.getTimeStamp() <= rpTime && rpTime < numFrameAlias.getTimeStamp()) { System.out.println("\r\n" + TAG + ": Last Animation."); TracePoint rp = relatedPoints.get(i); doLastAnimation(numFrame, rp); return; } i++; } } doAnimation(curFrame, numFrame); } else if (curFrameAlias != null && numFrameAlias == null) { System.out.println("\r\n" + TAG + ": Last Animation."); doLastAnimation(numFrame, relatedPoints.get(relatedPoints.size() - 1)); } else { System.out.println(TAG + ": ERROR Not exist alias."); } // } else { // TODO: Considering fast-forwarding animations. // } } private void doLastAnimation(int numFrame, TracePoint relatedPoint) { // TODO: Implement doLastAnimation() to support multiple delta. setCurrentFrame(numFrame); List<Alias> aliasList = aliasCollector.getAliasList(); Alias prevAlias = aliasList.get(numFrame - 1); Alias nextAlias = (numFrame < aliasList.size()) ? aliasList.get(numFrame) : null; // Make Edge object and reset position of ObjectVertex, remove MethodExecutionVertex. Statement statement = relatedPoint.getStatement(); MethodExecution prevMethodExec = prevAlias.getMethodExecution(); boolean fThisAnotherParameter = false; if (relatedPoint.isMethodEntry()) { if (prevAlias.getAliasType() == Alias.AliasType.FORMAL_PARAMETER) { // this to another (parameter) MethodExecution calledMethodExec = relatedPoint.getMethodExecution(); String srcClassName = calledMethodExec.getThisClassName(); String srcObjId = calledMethodExec.getThisObjId(); String tgtObjId = prevAlias.getObjectId(); ObjectVertex tgtObjVx = objectToVertexMap.get(tgtObjId); createObjectRefrence(srcClassName, srcObjId, tgtObjId); if (methodExecToVertexMap.containsKey(prevMethodExec)) { MethodExecutionVertex prevMethodExecVx = methodExecToVertexMap.get(prevMethodExec); if (prevMethodExecVx.getLocals().contains(tgtObjVx)) { prevMethodExecVx.getLocals().remove(tgtObjVx); } else if (prevMethodExecVx.getArguments().contains(tgtObjVx)) { prevMethodExecVx.getArguments().remove(tgtObjVx); } } if (nextAlias == null || (nextAlias != null && !calledMethodExec.getSignature().equals(nextAlias.getMethodSignature()))) { removeCalledMethodExecutionVertex(objectToVertexMap.get(srcObjId), prevMethodExec, calledMethodExec); updateObjectVertices(); } fThisAnotherParameter = true; } } if (!fThisAnotherParameter) { if (statement instanceof FieldUpdate) { // Format fieldName. FieldUpdate fieldUpdateStatement = (FieldUpdate) statement; String fieldName; if (fieldUpdateStatement.getFieldName() != null) { String fieldNames[] = formatFieldName(fieldUpdateStatement.getFieldName()); fieldName = fieldNames[fieldNames.length-1]; } else { fieldName = ""; } String srcObjId = fieldUpdateStatement.getContainerObjId(); createObjectRefrence(fieldUpdateStatement, fieldName); String tgtObjId = fieldUpdateStatement.getValueObjId(); ObjectVertex tgtObjVx = objectToVertexMap.get(tgtObjId); if (methodExecToVertexMap.containsKey(prevMethodExec)) { MethodExecutionVertex prevMethodExecVx = methodExecToVertexMap.get(prevMethodExec); if (prevMethodExecVx.getLocals().contains(tgtObjVx)) { prevMethodExecVx.getLocals().remove(tgtObjVx); } else if (prevMethodExecVx.getArguments().contains(tgtObjVx)) { prevMethodExecVx.getArguments().remove(tgtObjVx); } } if (nextAlias == null || (nextAlias != null && !prevMethodExec.getSignature().equals(nextAlias.getMethodSignature()))) { removeCalledMethodExecutionVertex(objectToVertexMap.get(srcObjId), prevMethodExec.getCallerMethodExecution(), prevMethodExec); updateObjectVertices(); } } if(statement instanceof MethodInvocation) { MethodInvocation methodInvStatement = (MethodInvocation) statement; MethodExecution calledMethodExec = methodInvStatement.getCalledMethodExecution(); String methodSignature = calledMethodExec.getSignature(); String srcClassName = null; String srcObjId = null; String tgtObjId = null; //ArrayやListのときだけラベルを付ける(確実に分かっているものとき)getSignature->contains("List.get(") || "Map.get(") <ホワイトリスト> // if (methodExec.getSignature().contains("List.add(") || // methodExec.getSignature().contains("Map.put(")) { if (calledMethodExec.isCollectionType() && (methodSignature.contains("add(") || methodSignature.contains("set(") || methodSignature.contains("put(") || methodSignature.contains("push(") || methodSignature.contains("addElement("))) { srcClassName = calledMethodExec.getThisClassName(); srcObjId = calledMethodExec.getThisObjId(); tgtObjId = calledMethodExec.getArguments().get(0).getId(); ObjectVertex tgtObjVx = objectToVertexMap.get(tgtObjId); if (!methodExecToVertexMap.containsKey(calledMethodExec)) { createMethodExecutionVertex(calledMethodExec.getThisObjId(), methodInvStatement.getCallerSideMethodName(), calledMethodExec); update(); moveArgumentObjectVertex(calledMethodExec, tgtObjVx, methodExecToVertexMap.get(calledMethodExec)); update(); createObjectRefrence(srcClassName, srcObjId, tgtObjId); removeCalledMethodExecutionVertex(null, prevMethodExec, calledMethodExec); } else { createObjectRefrence(srcClassName, srcObjId, tgtObjId); } if (methodExecToVertexMap.containsKey(prevMethodExec)) { MethodExecutionVertex prevMethodExecVx = methodExecToVertexMap.get(prevMethodExec); if (prevMethodExecVx.getLocals().contains(tgtObjVx)) { prevMethodExecVx.getLocals().remove(tgtObjVx); } else if (prevMethodExecVx.getArguments().contains(tgtObjVx)) { prevMethodExecVx.getArguments().remove(tgtObjVx); } } List<MethodExecution> methodExecList = new ArrayList<>(methodExecToVertexMap.keySet()); if (nextAlias == null || (nextAlias != null && !prevMethodExec.getSignature().equals(nextAlias.getMethodSignature()))) { if (methodExecList.size() > 1) { removeCalledMethodExecutionVertex(null, prevMethodExec.getCallerMethodExecution(), prevMethodExec); } else { removeCalledMethodExecutionVertex(null, null, prevMethodExec); } } updateObjectVertices(); } else { // this to another srcClassName = methodInvStatement.getThisClassName(); srcObjId = methodInvStatement.getThisObjId(); tgtObjId = calledMethodExec.getReturnValue().getId(); ObjectVertex tgtObjVx = objectToVertexMap.get(tgtObjId); createObjectRefrence(srcClassName, srcObjId, tgtObjId); if (methodExecToVertexMap.containsKey(prevMethodExec)) { MethodExecutionVertex prevMethodExecVx = methodExecToVertexMap.get(prevMethodExec); if (prevMethodExecVx.getLocals().contains(tgtObjVx)) { prevMethodExecVx.getLocals().remove(tgtObjVx); } else if (prevMethodExecVx.getArguments().contains(tgtObjVx)) { prevMethodExecVx.getArguments().remove(tgtObjVx); } } if (nextAlias == null || (nextAlias != null && !calledMethodExec.getSignature().equals(nextAlias.getMethodSignature()))) { removeCalledMethodExecutionVertex(objectToVertexMap.get(srcObjId), prevMethodExec, calledMethodExec); updateObjectVertices(); } } } } // Remove MethodExecutionVertex and reset position of ObjectVertex of MethodExecution remaining in methodExecToVertexMap. List<MethodExecution> methodExecList = new ArrayList<>(methodExecToVertexMap.keySet()); Collections.reverse(methodExecList); for(int i = 0; i < methodExecList.size(); i++) { String objId = methodExecList.get(i).getThisObjId(); ObjectVertex srcObjVx = objectToVertexMap.get(objId); // sourceVertex MethodExecution methodExec = methodExecList.get(i); if (nextAlias != null && methodExec.getSignature().equals(nextAlias.getMethodSignature())) break; if (i != methodExecList.size() - 1) { for(Statement st: methodExec.getStatements()) { if(st instanceof MethodInvocation) { MethodExecution calledMethodExec = ((MethodInvocation) st).getCalledMethodExecution(); String calledObjId = calledMethodExec.getThisObjId(); if(objectToVertexMap.containsKey(calledObjId)) { removeCalledMethodExecutionVertex(srcObjVx, methodExec.getCallerMethodExecution(), methodExec); updateObjectVertices(); break; } } } } else { scrollCellToVisible((mxICell) srcObjVx.getCell(), true); List<ObjectVertex> arguments = new ArrayList<>(methodExecToVertexMap.get(methodExec).getArguments()); List<ObjectVertex> locals = new ArrayList<>(methodExecToVertexMap.get(methodExec).getLocals()); if (arguments.size() != 0) { for (ObjectVertex objVx: arguments) { mxICell objVxCell = (mxICell) objVx.getCell(); Point2D objVxCellAbsPt = getAbsolutePointforCell(objVxCell); // Add a vertex to the graph in a transactional fashion. The vertex is actually a 'cell' in jgraphx terminology. mxgraph.getModel().beginUpdate(); synchronized (mxgraph.getModel()) { try { if (!objVxCell.getParent().equals(getMxDefaultParent())) { // If parent of ObjectVertex cell isn't mxDefaltParent, reset parent. objVxCell.getParent().remove(objVxCell); objVxCell.setParent(getMxDefaultParent()); } objVxCell.getGeometry().setX(objVxCellAbsPt.getX()); objVxCell.getGeometry().setY(objVxCellAbsPt.getY()); } finally { mxgraph.getModel().endUpdate(); } } MagnetRONAnimation pbjVxCellAnim = new TranslateAnimation(mxgraph, getGraphComponent()); pbjVxCellAnim.setTotalCycleCount(10); pbjVxCellAnim.setDelay(100); pbjVxCellAnim.init(objVxCell, objVx.getInitialX(), objVx.getInitialY(), threadPoolExecutor); pbjVxCellAnim.syncPlay(); methodExecToVertexMap.get(methodExec).getArguments().remove(objVx); } } else if (locals.size() != 0) { for (ObjectVertex objVx: locals) { mxICell objVxCell = (mxICell) objVx.getCell(); Point2D objVxCellAbsPt = getAbsolutePointforCell(objVxCell); // Add a vertex to the graph in a transactional fashion. The vertex is actually a 'cell' in jgraphx terminology. mxgraph.getModel().beginUpdate(); synchronized (mxgraph.getModel()) { try { if (!objVxCell.getParent().equals(getMxDefaultParent())) { // If parent of ObjectVertex cell isn't mxDefaltParent, reset parent. objVxCell.getParent().remove(objVxCell); objVxCell.setParent(getMxDefaultParent()); } objVxCell.getGeometry().setX(objVxCellAbsPt.getX()); objVxCell.getGeometry().setY(objVxCellAbsPt.getY()); } finally { mxgraph.getModel().endUpdate(); } } MagnetRONAnimation objVxCellAnim = new TranslateAnimation(mxgraph, getGraphComponent()); objVxCellAnim.setTotalCycleCount(10); objVxCellAnim.setDelay(100); objVxCellAnim.init(objVxCell, objVx.getInitialX(), objVx.getInitialY(), threadPoolExecutor); objVxCellAnim.syncPlay(); methodExecToVertexMap.get(methodExec).getLocals().remove(objVx); } } updateObjectVertices(); } } update(); } /** * Create vertices(mxGraph) and OvjectVerticies in {@code objectToVertexMap}. Vertices(mxGraph) coordinate are appropriate. * * @param objectCallGraph * @param aliasCollector */ private void createObjectVertices(IObjectCallGraph objectCallGraph, IAliasCollector aliasCollector) { //Add a vertex to the graph in a transactional fashion. The vertex is actually a 'cell' in jgraphx terminology. mxgraph.getModel().beginUpdate(); try { // Create vertices(mxGraph) and OvjectVerticies. List<Reference> refList = objectCallGraph.getReferences(); double objVxWid = DEFAULT_OBJECT_VERTEX_SIZE.getWidth(); double ObjVxHt = DEFAULT_OBJECT_VERTEX_SIZE.getHeight(); { MethodExecution coordinator = objectCallGraph.getStartPoints().get(0); String coordinatorObjId = coordinator.getThisObjId(); String coordinatorClassName = coordinator.getThisClassName(); mxICell coordinatorObjVxCell = (mxICell) mxgraph.insertDeltaVertex(getMxDefaultParent(), coordinatorObjId, coordinatorClassName, 0, 0, DEFAULT_OBJECT_VERTEX_SIZE.getWidth(), DEFAULT_OBJECT_VERTEX_SIZE.getHeight(), "fillColor=white"); //creates a white vertex. objectToVertexMap.put(coordinatorObjId, new ObjectVertex(coordinatorClassName, coordinatorObjVxCell, 0, 0)); } for (int i = 0; i < refList.size(); i++) { Reference ref = refList.get(i); if (!ref.isCreation() && !ref.getSrcObjectId().equals(ref.getDstObjectId())) { // srcSide if (!objectToVertexMap.containsKey(ref.getSrcObjectId())) { String srcObjId = ref.getSrcObjectId(); String srcClassName = ref.getSrcClassName(); System.out.println(TAG + ": Source Side(ClassName=" + srcClassName + ", ObjectId=" + srcObjId + ", isCreation=" + ref.isCreation() + ")"); if (srcClassName.contains("[L")) { srcClassName = formatArrayName(srcClassName); } mxICell srcObjVxCell = (mxICell) mxgraph.insertDeltaVertex(getMxDefaultParent(), srcObjId, srcClassName, 0, 0, objVxWid, ObjVxHt, "fillColor=white"); //creates a white vertex. objectToVertexMap.put(srcObjId, new ObjectVertex(ref.getSrcClassName(), srcObjVxCell, 0, 0)); } // dstSide if (!objectToVertexMap.containsKey(ref.getDstObjectId())) { String dstObjId = ref.getDstObjectId(); String dstClassName = ref.getDstClassName(); System.out.println(TAG + ": Destination Side(ClassName=" + dstClassName + ", ObjectId=" + dstObjId + ")"); if (dstClassName.contains("[L")) { dstClassName = formatArrayName(dstClassName); } mxICell dstObjVxCell = (mxICell) mxgraph.insertDeltaVertex(getMxDefaultParent(), dstObjId, dstClassName, 0, 0, objVxWid, ObjVxHt, "fillColor=white"); //creates a white vertex. objectToVertexMap.put(dstObjId, new ObjectVertex(ref.getDstClassName(), dstObjVxCell, 0, 0)); } } else { if (!objectToVertexMap.containsKey(ref.getSrcObjectId())) { String srcObjId = ref.getSrcObjectId(); String srcClassName = ref.getSrcClassName(); if (srcClassName.contains("[L")) { srcClassName = formatArrayName(srcClassName); } mxICell srcObjVxCell = (mxICell) mxgraph.insertDeltaVertex(getMxDefaultParent(), srcObjId, srcClassName, 0, 0, objVxWid, ObjVxHt, "fillColor=white"); //creates a white vertex. objectToVertexMap.put(srcObjId, new ObjectVertex(ref.getSrcClassName(), srcObjVxCell, 0, 0)); } String dstObjId = ref.getDstObjectId(); if (!objectToVertexMap.containsKey(dstObjId)) { String dstClassName = ref.getDstClassName(); objectToVertexMap.put(dstObjId, new ObjectVertex(dstClassName, null, 0, 0)); } else { mxgraph.removeCells(new Object[] {objectToVertexMap.get(dstObjId).getCell()}); objectToVertexMap.get(dstObjId).setCell(null); } } } for (Alias alias: aliasCollector.getAliasList()) { if (alias.getAliasType() == Alias.AliasType.THIS) { if (!objectToVertexMap.containsKey(alias.getObjectId()) && alias.getMethodExecution().isStatic()) { // When both of the calling and called method are static. String thisObjId = alias.getObjectId(); String thisClassName = alias.getMethodExecution().getThisClassName(); mxICell thisObjVxCell = (mxICell) mxgraph.insertDeltaVertex(getMxDefaultParent(), thisObjId, thisClassName, 0, 0, objVxWid, ObjVxHt, "fillColor=white"); //creates a white vertex. objectToVertexMap.put(thisObjId, new ObjectVertex(thisClassName, thisObjVxCell, 0, 0)); } } } } finally { mxgraph.getModel().endUpdate(); } } /** * Create {@code MethodExecutionVertex}. * Be careful to refer {@link IObjectCallGraph#getStartPoints()} when curFrame is 0. * * @param alias */ @Override public void createMethodExecutionVertex(Alias alias) { String objId = alias.getObjectId(); MethodExecution methodExec = alias.getMethodExecution(); String methodExecSignature = methodExec.getSignature(); if (curFrame == 0) { MethodExecution callerMethodExec = methodExec.getCallerMethodExecution(); if (callerMethodExec != null && methodExecSignature != callerMethodExec.getSignature() && objectToVertexMap.containsKey(callerMethodExec.getThisObjId()) && objectCallGraph.getStartPoints().get(0) == callerMethodExec) { createMethodExecutionVertex(callerMethodExec.getThisObjId(), callerMethodExec.getSignature(), callerMethodExec); } createMethodExecutionVertex(objId, methodExecSignature, methodExec); } else if (alias.getObjectId().startsWith("0:") && !methodExecToVertexMap.containsKey(methodExec)) { createMethodExecutionVertex(objId, methodExecSignature, methodExec); } } /** * * @param objectCallGraph * @param aliasCollector */ private void createEdgeToObject(IObjectCallGraph objectCallGraph, IAliasCollector aliasCollector) { List<TracePoint> relatedPoints = objectCallGraph.getRelatedPoints(); int rpIndex = 0; // relatedPoints index List<Alias> aliasList = aliasCollector.getAliasList(); for (int i = 0; i < aliasList.size()-1; i++) { Alias curAlias = aliasList.get(i); Alias nextAlias = aliasList.get(i+1); String curAliasObjId = curAlias.getObjectId(); // srcObjId String nextAliasObjId = nextAlias.getObjectId(); // dstObjId String srcClassName = null; String fieldName = null; // Search for objectReference srcClassName, fieldName between curAlias and nexAlias. if (curAlias.getAliasType() == AliasType.THIS) { Statement statement = nextAlias.getOccurrencePoint().getStatement(); if (nextAlias.getAliasType() == AliasType.RETURN_VALUE) { MethodExecution nextMethodExec = nextAlias.getMethodExecution(); //ArrayやListのときだけラベルを付ける(確実に分かっているものとき)getSignature->contains("List.get(") || "Map.get(") <ホワイトリスト> if (nextMethodExec.getSignature().contains("List.get(")) { srcClassName = nextMethodExec.getThisClassName(); fieldName = nextMethodExec.getArguments().get(0).getId(); System.out.println(TAG + ": Create List of Edge.(ClassName=" + srcClassName + ", ArgumentId=" + nextMethodExec.getArguments().get(0).getId() + ")"); } else if (nextMethodExec.getSignature().contains("Map.get(")) { srcClassName = nextMethodExec.getThisClassName(); fieldName = ""; System.out.println(TAG + ": Create Map of Edge.(ClassName=" + srcClassName + ")"); } else if (nextMethodExec.getSignature().contains(".next()") || nextMethodExec.getSignature().contains(".iterator()") || nextMethodExec.getSignature().contains(".listIterator()")) { srcClassName = nextMethodExec.getThisClassName(); fieldName = ""; System.out.println(TAG + ": Create List Iterator of Edge.(ClassName=" + srcClassName + ")"); } } else { if (nextAlias.getAliasType() == AliasType.FIELD) { // When final local. if (statement != null && statement instanceof MethodInvocation && curAliasObjId.equals(((MethodInvocation)statement).getThisObjId())) { MethodInvocation methodInvocation = (MethodInvocation)statement; srcClassName = methodInvocation.getThisClassName(); fieldName = nextAliasObjId; } } if (statement != null && statement instanceof FieldAccess) { FieldAccess fieldAccess = (FieldAccess)statement; String containerId = fieldAccess.getContainerObjId(); if (fieldAccess.getFieldName() != null) { String fieldNames[] = formatFieldName(fieldAccess.getFieldName()); srcClassName = fieldNames[0]; fieldName = fieldNames[1]; } else { srcClassName = fieldAccess.getContainerClassName(); fieldName = nextAliasObjId; } if (containerId.matches("0")) { containerId = "0:" + srcClassName; } if (!curAliasObjId.equals(containerId)) { // Contains alias type of nextAlias is FIELD. srcClassName = null; fieldName = null; } } } System.out.println(TAG + ": srcClassName=" + srcClassName + "(curObjectId=" + curAliasObjId + ") -- fieldName=" + fieldName + " --> " + "(nextObjectId" + nextAliasObjId + ")"); } if(curAlias.getAliasType() == AliasType.ARRAY) { Statement statement= nextAlias.getOccurrencePoint().getStatement(); if(statement instanceof ArrayAccess) { srcClassName = ((ArrayAccess)statement).getArrayClassName(); int index = ((ArrayAccess)statement).getIndex(); fieldName = formatArrayIndex(index); System.out.println(TAG + ": Create Array of Edge. srcClassName=" + srcClassName + "(curObjectId=" + curAliasObjId + ") -- fieldName=" + fieldName + " --> " + "(nextObjectId" + nextAliasObjId + ")"); } } if (srcClassName != null && fieldName != null && !edgeMap.containsKey(srcClassName + "." + fieldName)) { // Judge AliasList contains relatedPoint. (If contains not to create edge.) if (rpIndex < relatedPoints.size() - 1) { TracePoint rp = relatedPoints.get(rpIndex); Map.Entry<Reference, String> rpInf = getRelatedInformation(rp, aliasCollector); if (srcClassName.equals(rpInf.getKey().getSrcClassName()) && fieldName.equals(rpInf.getValue()) && curAliasObjId.equals(rpInf.getKey().getSrcObjectId()) && nextAliasObjId.equals(rpInf.getKey().getDstObjectId())) { rpIndex++; continue; } } // Add a vertex to the graph in a transactional fashion. The vertex is actually a 'cell' in jgraphx terminology. mxgraph.getModel().beginUpdate(); try { Object srcObjVxCell = objectToVertexMap.get(curAliasObjId).getCell(); Object dstObjVxCell = objectToVertexMap.get(nextAliasObjId).getCell(); if (srcObjVxCell != null && dstObjVxCell != null) { // isCreation() System.out.println(TAG + ": Create Edge. srcClassName=" + srcClassName + "(curObjectId=" + curAliasObjId + ") -- fieldName=" + fieldName + " --> " + "(nextObjectId" + nextAliasObjId + ")"); // TODO: Fix bug of NullPointerException. mxICell edgeCell = null; if (fieldName.equals(nextAliasObjId)) { // If fieldName is objectId. edgeCell = (mxICell) mxgraph.insertDeltaEdge(getMxDefaultParent(), "", "", srcObjVxCell, dstObjVxCell); } else { edgeCell = (mxICell) mxgraph.insertDeltaEdge(getMxDefaultParent(), fieldName, fieldName, srcObjVxCell, dstObjVxCell); } edgeMap.put(srcClassName + "." + fieldName, new Edge(fieldName, TypeName.Reference, edgeCell)); } } finally { mxgraph.getModel().endUpdate(); } } } } }