@Override
public List<IWatchable> getVisibleWatchables() {
try {
StackFrame stackFrame = getStackFrame();
List<IWatchable> result = new ArrayList<IWatchable>();
if (stackFrame != null) {
for (LocalVariable variable : stackFrame.visibleVariables()) {
result.add(new JavaLocalVariable(variable, this, myClassFqName, myThreadReference));
}
ObjectReference thisObject = stackFrame.thisObject();
if (thisObject != null) {
result.add(new JavaThisObject(thisObject, this, myClassFqName, myThreadReference));
} else {
result.add(
new JavaStaticContext(
getStackFrame().location().declaringType(), myClassFqName, myThreadReference));
}
}
return result;
} catch (InvalidStackFrameException ex) {
LOG.warning(
"InvalidStackFrameException",
ex); // TODO something should be done here. See, for instance, how idea deals with those
// exceptions
return Collections.emptyList();
} catch (AbsentInformationException ex) {
// doing nothing, variables are just not available for us
return Collections.emptyList();
}
}
private void dumpStack(ThreadReference thread, boolean showPC) {
// ### Check for these.
// env.failure("Thread no longer exists.");
// env.failure("Target VM must be in interrupted state.");
// env.failure("Current thread isn't suspended.");
// ### Should handle extremely long stack traces sensibly for user.
List<StackFrame> stack = null;
try {
stack = thread.frames();
} catch (IncompatibleThreadStateException e) {
env.failure("Thread is not suspended.");
}
// ### Fix this!
// ### Previously mishandled cases where thread was not current.
// ### Now, prints all of the stack regardless of current frame.
int frameIndex = 0;
// int frameIndex = context.getCurrentFrameIndex();
if (stack == null) {
env.failure("Thread is not running (no stack).");
} else {
OutputSink out = env.getOutputSink();
int nFrames = stack.size();
for (int i = frameIndex; i < nFrames; i++) {
StackFrame frame = stack.get(i);
Location loc = frame.location();
Method meth = loc.method();
out.print(" [" + (i + 1) + "] ");
out.print(meth.declaringType().name());
out.print('.');
out.print(meth.name());
out.print(" (");
if (meth.isNative()) {
out.print("native method");
} else if (loc.lineNumber() != -1) {
try {
out.print(loc.sourceName());
} catch (AbsentInformationException e) {
out.print("<unknown>");
}
out.print(':');
out.print(loc.lineNumber());
}
out.print(')');
if (showPC) {
long pc = loc.codeIndex();
if (pc != -1) {
out.print(", pc = " + pc);
}
}
out.println();
}
out.show();
}
}
protected void runTests() throws Exception {
/*
* Get to the top of main()
* to determine targetClass and mainThread
*/
BreakpointEvent bpe = startToMain("GetLocalVariables2Targ");
targetClass = bpe.location().declaringType();
mainThread = bpe.thread();
EventRequestManager erm = vm().eventRequestManager();
bpe = resumeTo("GetLocalVariables2Targ", "bar", "(I)Z");
/*
* Inspect the stack frame for main(), not bar()...
*/
StackFrame frame = bpe.thread().frame(1);
List localVars = frame.visibleVariables();
System.out.println(" Visible variables at this point are: ");
for (Iterator it = localVars.iterator(); it.hasNext(); ) {
LocalVariable lv = (LocalVariable) it.next();
System.out.print(lv.name());
System.out.print(" typeName: ");
System.out.print(lv.typeName());
System.out.print(" signature: ");
System.out.print(lv.type().signature());
System.out.print(" primitive type: ");
System.out.println(lv.type().name());
if ("command".equals(lv.name())) {
failure("Failure: LocalVariable \"command\" should not be visible at this point.");
if (lv.isVisible(frame)) {
System.out.println("Failure: \"command.isvisible(frame)\" returned true.");
}
}
}
/*
* resume the target listening for events
*/
listenUntilVMDisconnect();
/*
* deal with results of test
* if anything has called failure("foo") testFailed will be true
*/
if (!testFailed) {
println("GetLocalVariables2Test: passed");
} else {
throw new Exception("GetLocalVariables2Test: failed");
}
}
private void commandLocals() throws NoSessionException {
ThreadReference current = context.getCurrentThread();
if (current == null) {
env.failure("No default thread specified: " + "use the \"thread\" command first.");
return;
}
StackFrame frame;
try {
frame = context.getCurrentFrame(current);
if (frame == null) {
env.failure("Thread has not yet created any stack frames.");
return;
}
} catch (VMNotInterruptedException e) {
env.failure("Target VM must be in interrupted state.");
return;
}
List<LocalVariable> vars;
try {
vars = frame.visibleVariables();
if (vars == null || vars.size() == 0) {
env.failure("No local variables");
return;
}
} catch (AbsentInformationException e) {
env.failure(
"Local variable information not available."
+ " Compile with -g to generate variable information");
return;
}
OutputSink out = env.getOutputSink();
out.println("Method arguments:");
for (LocalVariable var : vars) {
if (var.isArgument()) {
printVar(out, var, frame);
}
}
out.println("Local variables:");
for (LocalVariable var : vars) {
if (!var.isArgument()) {
printVar(out, var, frame);
}
}
out.show();
return;
}
@Override
public Map<IWatchable, IValue> getWatchableValues() {
try {
StackFrame stackFrame = getStackFrame();
Map<IWatchable, IValue> result = new HashMap<IWatchable, IValue>();
if (stackFrame != null) {
Map<LocalVariable, Value> map = stackFrame.getValues(stackFrame.visibleVariables());
for (LocalVariable variable : map.keySet()) {
result.put(
new JavaLocalVariable(variable, this, myClassFqName, stackFrame.thread()),
JavaValue.fromJDIValue(map.get(variable), myClassFqName, stackFrame.thread()));
}
ObjectReference thisObject = stackFrame.thisObject();
if (thisObject != null) {
JavaThisObject object =
new JavaThisObject(thisObject, this, myClassFqName, stackFrame.thread());
result.put(object, object.getValue());
}
}
return result;
} catch (AbsentInformationException ex) {
// doing nothing
return Collections.emptyMap();
}
}
private void printVar(OutputSink out, LocalVariable var, StackFrame frame) {
out.print(" " + var.name());
if (var.isVisible(frame)) {
Value val = frame.getValue(var);
out.println(" = " + val.toString());
} else {
out.println(" is not in scope");
}
}
/** Called when a script exception has been thrown. */
private void handleExceptionThrown(Context cx, Throwable ex, StackFrame frame) {
if (breakOnExceptions) {
ContextData cd = frame.contextData();
if (cd.lastProcessedException != ex) {
interrupted(cx, frame, ex);
cd.lastProcessedException = ex;
}
}
}
private void commandList(StringTokenizer t) throws NoSessionException {
ThreadReference current = context.getCurrentThread();
if (current == null) {
env.error("No thread specified.");
return;
}
Location loc;
try {
StackFrame frame = context.getCurrentFrame(current);
if (frame == null) {
env.failure("Thread has not yet begun execution.");
return;
}
loc = frame.location();
} catch (VMNotInterruptedException e) {
env.failure("Target VM must be in interrupted state.");
return;
}
SourceModel source = sourceManager.sourceForLocation(loc);
if (source == null) {
if (loc.method().isNative()) {
env.failure("Current method is native.");
return;
}
env.failure("No source available for " + Utils.locationString(loc) + ".");
return;
}
ReferenceType refType = loc.declaringType();
int lineno = loc.lineNumber();
if (t.hasMoreTokens()) {
String id = t.nextToken();
// See if token is a line number.
try {
lineno = Integer.valueOf(id).intValue();
} catch (NumberFormatException nfe) {
// It isn't -- see if it's a method name.
List<Method> meths = refType.methodsByName(id);
if (meths == null || meths.size() == 0) {
env.failure(
id + " is not a valid line number or " + "method name for class " + refType.name());
return;
} else if (meths.size() > 1) {
env.failure(id + " is an ambiguous method name in" + refType.name());
return;
}
loc = meths.get(0).location();
lineno = loc.lineNumber();
}
}
int startLine = (lineno > 4) ? lineno - 4 : 1;
int endLine = startLine + 9;
String sourceLine = source.sourceLine(lineno);
if (sourceLine == null) {
env.failure("" + lineno + " is an invalid line number for " + refType.name());
} else {
OutputSink out = env.getOutputSink();
for (int i = startLine; i <= endLine; i++) {
sourceLine = source.sourceLine(i);
if (sourceLine == null) {
break;
}
out.print(i);
out.print("\t");
if (i == lineno) {
out.print("=> ");
} else {
out.print(" ");
}
out.println(sourceLine);
}
out.show();
}
}
/**
* Move through a list of stack frames, searching for references to code found in the current
* sketch. Return with a RunnerException that contains the location of the error, or if nothing is
* found, just return with a RunnerException that wraps the error message itself.
*/
protected SketchException findException(
String message, ObjectReference or, ThreadReference thread) {
try {
// use to dump the stack for debugging
// for (StackFrame frame : thread.frames()) {
// System.out.println("frame: " + frame);
// }
List<StackFrame> frames = thread.frames();
for (StackFrame frame : frames) {
try {
Location location = frame.location();
String filename = null;
filename = location.sourceName();
int lineNumber = location.lineNumber() - 1;
SketchException rex = build.placeException(message, filename, lineNumber);
if (rex != null) {
return rex;
}
} catch (AbsentInformationException e) {
// Any of the thread.blah() methods can throw an AbsentInformationEx
// if that bit of data is missing. If so, just write out the error
// message to the console.
// e.printStackTrace(); // not useful
exception = new SketchException(message);
exception.hideStackTrace();
listener.statusError(exception);
}
}
} catch (IncompatibleThreadStateException e) {
// This shouldn't happen, but if it does, print the exception in case
// it's something that needs to be debugged separately.
e.printStackTrace();
}
// before giving up, try to extract from the throwable object itself
// since sometimes exceptions are re-thrown from a different context
try {
// assume object reference is Throwable, get stack trace
Method method =
((ClassType) or.referenceType())
.concreteMethodByName("getStackTrace", "()[Ljava/lang/StackTraceElement;");
ArrayReference result =
(ArrayReference)
or.invokeMethod(
thread, method, new ArrayList<Value>(), ObjectReference.INVOKE_SINGLE_THREADED);
// iterate through stack frames and pull filename and line number for each
for (Value val : result.getValues()) {
ObjectReference ref = (ObjectReference) val;
method =
((ClassType) ref.referenceType())
.concreteMethodByName("getFileName", "()Ljava/lang/String;");
StringReference strref =
(StringReference)
ref.invokeMethod(
thread, method, new ArrayList<Value>(), ObjectReference.INVOKE_SINGLE_THREADED);
String filename = strref == null ? "Unknown Source" : strref.value();
method = ((ClassType) ref.referenceType()).concreteMethodByName("getLineNumber", "()I");
IntegerValue intval =
(IntegerValue)
ref.invokeMethod(
thread, method, new ArrayList<Value>(), ObjectReference.INVOKE_SINGLE_THREADED);
int lineNumber = intval.intValue() - 1;
SketchException rex = build.placeException(message, filename, lineNumber);
if (rex != null) {
return rex;
}
}
// for (Method m : ((ClassType) or.referenceType()).allMethods()) {
// System.out.println(m + " | " + m.signature() + " | " + m.genericSignature());
// }
// Implemented for 2.0b9, writes a stack trace when there's an internal error inside core.
method = ((ClassType) or.referenceType()).concreteMethodByName("printStackTrace", "()V");
// System.err.println("got method " + method);
or.invokeMethod(
thread, method, new ArrayList<Value>(), ObjectReference.INVOKE_SINGLE_THREADED);
} catch (Exception e) {
e.printStackTrace();
}
// Give up, nothing found inside the pile of stack frames
SketchException rex = new SketchException(message);
// exception is being created /here/, so stack trace is not useful
rex.hideStackTrace();
return rex;
}
@Override
public JavaThread getThread() {
StackFrame stackFrame = getStackFrame();
if (stackFrame == null) return null;
return new JavaThread(stackFrame.thread());
}
@Override
public JavaLocation getLocation() {
StackFrame stackFrame = getStackFrame();
if (stackFrame == null) return null;
return new JavaLocation(stackFrame.location());
}
/** Interrupts script execution. */
private void interrupted(Context cx, final StackFrame frame, Throwable scriptException) {
ContextData contextData = frame.contextData();
boolean eventThreadFlag = callback.isGuiEventThread();
contextData.eventThreadFlag = eventThreadFlag;
boolean recursiveEventThreadCall = false;
interruptedCheck:
synchronized (eventThreadMonitor) {
if (eventThreadFlag) {
if (interruptedContextData != null) {
recursiveEventThreadCall = true;
break interruptedCheck;
}
} else {
while (interruptedContextData != null) {
try {
eventThreadMonitor.wait();
} catch (InterruptedException exc) {
return;
}
}
}
interruptedContextData = contextData;
}
if (recursiveEventThreadCall) {
// XXX: For now the following is commented out as on Linux
// too deep recursion of dispatchNextGuiEvent causes GUI lockout.
// Note: it can make GUI unresponsive if long-running script
// will be called on GUI thread while processing another interrupt
if (false) {
// Run event dispatch until gui sets a flag to exit the initial
// call to interrupted.
while (this.returnValue == -1) {
try {
callback.dispatchNextGuiEvent();
} catch (InterruptedException exc) {
}
}
}
return;
}
if (interruptedContextData == null) Kit.codeBug();
try {
do {
int frameCount = contextData.frameCount();
this.frameIndex = frameCount - 1;
final String threadTitle = Thread.currentThread().toString();
final String alertMessage;
if (scriptException == null) {
alertMessage = null;
} else {
alertMessage = scriptException.toString();
}
int returnValue = -1;
if (!eventThreadFlag) {
synchronized (monitor) {
if (insideInterruptLoop) Kit.codeBug();
this.insideInterruptLoop = true;
this.evalRequest = null;
this.returnValue = -1;
callback.enterInterrupt(frame, threadTitle, alertMessage);
try {
for (; ; ) {
try {
monitor.wait();
} catch (InterruptedException exc) {
Thread.currentThread().interrupt();
break;
}
if (evalRequest != null) {
this.evalResult = null;
try {
evalResult = do_eval(cx, evalFrame, evalRequest);
} finally {
evalRequest = null;
evalFrame = null;
monitor.notify();
}
continue;
}
if (this.returnValue != -1) {
returnValue = this.returnValue;
break;
}
}
} finally {
insideInterruptLoop = false;
}
}
} else {
this.returnValue = -1;
callback.enterInterrupt(frame, threadTitle, alertMessage);
while (this.returnValue == -1) {
try {
callback.dispatchNextGuiEvent();
} catch (InterruptedException exc) {
}
}
returnValue = this.returnValue;
}
switch (returnValue) {
case STEP_OVER:
contextData.breakNextLine = true;
contextData.stopAtFrameDepth = contextData.frameCount();
break;
case STEP_INTO:
contextData.breakNextLine = true;
contextData.stopAtFrameDepth = -1;
break;
case STEP_OUT:
if (contextData.frameCount() > 1) {
contextData.breakNextLine = true;
contextData.stopAtFrameDepth = contextData.frameCount() - 1;
}
break;
}
} while (false);
} finally {
synchronized (eventThreadMonitor) {
interruptedContextData = null;
eventThreadMonitor.notifyAll();
}
}
}