private int printThreadGroup(OutputSink out, ThreadGroupReference tg, int iThread) { out.println("Group " + tg.name() + ":"); List<ThreadReference> tlist = tg.threads(); int maxId = 0; int maxName = 0; for (int i = 0; i < tlist.size(); i++) { ThreadReference thr = tlist.get(i); int len = Utils.description(thr).length(); if (len > maxId) { maxId = len; } String name = thr.name(); int iDot = name.lastIndexOf('.'); if (iDot >= 0 && name.length() > iDot) { name = name.substring(iDot + 1); } if (name.length() > maxName) { maxName = name.length(); } } String maxNumString = String.valueOf(iThread + tlist.size()); int maxNumDigits = maxNumString.length(); for (int i = 0; i < tlist.size(); i++) { ThreadReference thr = tlist.get(i); char buf[] = new char[80]; for (int j = 0; j < 79; j++) { buf[j] = ' '; } buf[79] = '\0'; StringBuffer sbOut = new StringBuffer(); sbOut.append(buf); // Right-justify the thread number at start of output string String numString = String.valueOf(iThread + i + 1); sbOut.insert(maxNumDigits - numString.length(), numString); sbOut.insert(maxNumDigits, "."); int iBuf = maxNumDigits + 2; sbOut.insert(iBuf, Utils.description(thr)); iBuf += maxId + 1; String name = thr.name(); int iDot = name.lastIndexOf('.'); if (iDot >= 0 && name.length() > iDot) { name = name.substring(iDot + 1); } sbOut.insert(iBuf, name); iBuf += maxName + 1; sbOut.insert(iBuf, Utils.getStatus(thr)); sbOut.setLength(79); out.println(sbOut.toString()); } for (ThreadGroupReference tg0 : tg.threadGroups()) { if (!tg.equals(tg0)) { // TODO ref mgt iThread += printThreadGroup(out, tg0, iThread + tlist.size()); } } return tlist.size(); }
private void commandMethods(StringTokenizer t) throws NoSessionException { if (!t.hasMoreTokens()) { env.error("No class specified."); return; } String idClass = t.nextToken(); ReferenceType cls = findClass(idClass); if (cls != null) { List<Method> methods = cls.allMethods(); OutputSink out = env.getOutputSink(); for (int i = 0; i < methods.size(); i++) { Method method = methods.get(i); out.print(method.declaringType().name() + " " + method.name() + "("); Iterator<String> it = method.argumentTypeNames().iterator(); if (it.hasNext()) { while (true) { out.print(it.next()); if (!it.hasNext()) { break; } out.print(", "); } } out.println(")"); } out.show(); } else { // ### Should validate class name syntax. env.failure("\"" + idClass + "\" is not a valid id or class name."); } }
private ReferenceType findClass(String pattern) throws NoSessionException { List<ReferenceType> results = runtime.findClassesMatchingPattern(pattern); if (results.size() > 0) { // ### Should handle multiple results sensibly. return results.get(0); } return null; }
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(); } }
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(); } }