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package org.ntlab.traceDebugger.analyzerProvider;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import org.ntlab.traceAnalysisPlatform.tracer.trace.FieldUpdate;
import org.ntlab.traceAnalysisPlatform.tracer.trace.MethodExecution;
import org.ntlab.traceAnalysisPlatform.tracer.trace.MethodInvocation;
import org.ntlab.traceAnalysisPlatform.tracer.trace.ObjectReference;
import org.ntlab.traceAnalysisPlatform.tracer.trace.Statement;
import org.ntlab.traceAnalysisPlatform.tracer.trace.ThreadInstance;
import org.ntlab.traceAnalysisPlatform.tracer.trace.Trace;
import org.ntlab.traceAnalysisPlatform.tracer.trace.TracePoint;
public class VariableUpdatePointFinder {
private static VariableUpdatePointFinder theInstance = new VariableUpdatePointFinder();
private Trace trace;
private Map<String, Map<String, List<TracePoint>>> updatePoints = new HashMap<>(); // コンテナIDとフィールド名をキーにした変数更新ポイント
private Map<String, Map<String, List<TracePoint>>> definitionInvocationPoints = new HashMap<>(); // レシーバIDと引数IDをキーにしたコレクションへの追加ポイント
private Map<String, TracePoint> gettingIteratorPoints = new HashMap<>(); // イテレータのIDをキーにそれを取得したポイント
public void setTrace(Trace trace) {
this.trace = trace;
init();
}
public static VariableUpdatePointFinder getInstance() {
return theInstance;
}
private void init() {
registerUpdatePoints();
System.out.println(updatePoints);
System.out.println(definitionInvocationPoints);
sort(updatePoints);
sort(definitionInvocationPoints);
System.out.println(updatePoints);
System.out.println(definitionInvocationPoints);
}
private void registerUpdatePoints() {
for (Map.Entry<String, ThreadInstance> entry : trace.getAllThreads().entrySet()) {
ThreadInstance thread = entry.getValue();
for (MethodExecution me : thread.getRoot()) {
TracePoint start = me.getEntryPoint();
while (start.stepFull()) {
Statement statement = start.getStatement();
if (statement instanceof FieldUpdate) {
registerFieldUpdatePoint(start, (FieldUpdate)statement);
} else if (statement instanceof MethodInvocation) {
MethodInvocation mi = (MethodInvocation)statement;
MethodExecution calledME = mi.getCalledMethodExecution();
String methodName = calledME.getSignature();
if (methodName.contains(".add(") || methodName.contains(".addElement(")) {
registerdefinitionInvocationPoint(start, calledME);
} else if (methodName.contains(".iterator(") || methodName.contains("Iterator(")) {
registerIteratorPoint(start, calledME);
}
}
}
}
}
}
private void registerFieldUpdatePoint(TracePoint tp, FieldUpdate fu) {
String objectId = fu.getContainerObjId();
String fieldName = fu.getFieldName();
register(updatePoints, objectId, fieldName, tp);
}
// private void registerdefinitionInvocationPoints(TracePoint tp, MethodInvocation mi) {
// MethodExecution calledME = mi.getCalledMethodExecution();
// String methodName = calledME.getSignature();
// List<ObjectReference> args = calledME.getArguments();
// if (methodName.contains(".add(") || methodName.contains(".addElement(")) {
// if (args.size() == 1) {
// String receiverId = calledME.getThisObjId();
// String argId = args.get(0).getId();
// register(definitionInvocationPoints, receiverId, argId, tp);
// }
// }
// }
private void registerdefinitionInvocationPoint(TracePoint tp, MethodExecution calledME) {
List<ObjectReference> args = calledME.getArguments();
if (args.size() == 1) {
String receiverId = calledME.getThisObjId();
String argId = args.get(0).getId();
register(definitionInvocationPoints, receiverId, argId, tp);
}
}
private void registerIteratorPoint(TracePoint tp, MethodExecution calledME) {
ObjectReference returnIteratorValue = calledME.getReturnValue();
String iteratorId = returnIteratorValue.getId();
gettingIteratorPoints.put(iteratorId, tp.duplicate());
}
private void register(Map<String, Map<String, List<TracePoint>>> map, String key1, String key2, TracePoint tp) {
Map<String, List<TracePoint>> innerMap = map.get(key1);
if (innerMap == null) {
innerMap = new HashMap<>();
map.put(key1, innerMap);
}
List<TracePoint> tracePoints = innerMap.get(key2);
if (tracePoints == null) {
tracePoints = new ArrayList<>();
innerMap.put(key2, tracePoints);
}
tracePoints.add(tp.duplicate());
}
private void sort(Map<String, Map<String, List<TracePoint>>> map) {
for (Map<String, List<TracePoint>> innerMap : map.values()) {
for (List<TracePoint> tracePoints : innerMap.values()) {
Collections.sort(tracePoints, new Comparator<TracePoint>() {
@Override
public int compare(TracePoint arg0, TracePoint arg1) {
long time0 = arg0.getStatement().getTimeStamp();
long time1 = arg1.getStatement().getTimeStamp();
return (time0 < time1) ? -1 : 1;
}
});
}
}
}
public TracePoint getPoint(String objectId, String fieldName, TracePoint before) {
return getPoint(updatePoints, objectId, fieldName, before);
}
public TracePoint getDefinitionInvocationPoint(String receiverId, String argId, TracePoint before) {
return getPoint(definitionInvocationPoints, receiverId, argId, before);
}
public TracePoint getIteratorPoint(String iteratorId) {
return gettingIteratorPoints.get(iteratorId);
}
private TracePoint getPoint(Map<String, Map<String, List<TracePoint>>> map, String key1, String key2, TracePoint before) {
Map<String, List<TracePoint>> innerMap = map.get(key1);
if (innerMap == null) return null;
List<TracePoint> tracePoints = innerMap.get(key2);
if (tracePoints == null) return null;
long beforeTime = before.getStatement().getTimeStamp();
TracePoint tmp = null;
for (TracePoint tp : tracePoints) {
long time = tp.getStatement().getTimeStamp();
if (time >= beforeTime) return tmp;
tmp = tp;
}
return tmp;
}
}