Download Jar. Libraryless. Click here for Pure Java version (29459L/172K).
!7 // See also #1016582 for the Global Utils set flag AllPublic. set flag InCore. // mainClassName x30 // would be good to support "main <id>" but causes a problem should not include function cget. do not include function has. do not include function list. should not include class RemoteDB. should not include class Concepts. /** JavaX runner version 30 Changes to v29: -added integrated MultiPort -useBossBot = false -Beginning support for offline mode (transpiled programs only so far) -faster console update (100ms) -weakref -made first program an injection -manage multi-ports -multitry for loadPage (partially implemented) -list injections -additional "get output" questions -send line * to system.in -multi-port 1 accessible directly through VM android -getInjectionID (from main.class) -allow programs without main method -increase buffer size for PipedInputStream (console output/input) -registerSourceCode + getSourceCodeForClass -autoScroll -retaining class files for 30 days (restart JavaX programs after 30 days!!) -close confirmation for console (no running apps without console!) -utf8 fixed in transpilations! -maxConsoleChars -pause button -regular GC every 60s -GC after main ran -and more TODO when making x31: change program ID in source */ interface StringFunc { String get(String s); } /*interface DynamicMethods { O _dynCall(S methodName, O[] args); }*/ m { p { throw new RuntimeException("placebo"); } } class x30 { static final String version = "JavaX 30"; static final int subversion = 2; static S dateChanged = "2020/06/19"; static final S javaxProgramID = "#1001638"; // If programs run longer than this, they might have their class files // deleted. Should set to 30 for servers. Working on real solution. static int tempFileRetentionTime = 2*24; // hours static int maxConsoleChars = 1024*1024; static int consoleUpdateDelay = 50; // ms static int pipeDelay = 50; static bool focusConsoleInputOnActivate = false; sS donePrefix = "."; // "[Done] "; static bool consoleGrabFocus; static int consoleWidth = 550, consoleHeight = 200; static int consoleXGap = 10, consoleYGap = 10; static bool gcAfterMainDone = true, registerSourceCodes = false; static bool verbose = false, translate = false, list = false, virtualizeTranslators = true; sbool dontCompileThroughPort5000; static S translateTo = null; static bool noID = false, noPrefetch = false, noAWT = false; static bool safeOnly = false, safeTranslate = false, javacOnly = false, logOn = true, noCleanCache; static volatile bool cleanCacheDone; static bool runMainInProcess = true, consoleOn = true, hasHelloMessage = false; static L<S[]> mainTranslators = new ArrayList<S[]>(); private static Map<Long, String> memSnippetCache = new HashMap<Long, String>(); private static int processesStarted, compilations; // snippet ID -> md5 private static HashMap<Long, String> prefetched = new HashMap<Long, String>(); private static File virtCache; // doesn't work yet private static Map<String, Class<?>> programCache = new HashMap<String, Class<?>>(); static boolean cacheTranslators = false; // this should work (caches transpiled translators) private static HashMap<Long, Object[]> translationCache = new HashMap<Long, Object[]>(); static boolean cacheTranspiledTranslators = true; // which snippets are available pre-transpiled server-side? private static Set<Long> hasTranspiledSet = new HashSet<Long>(); static boolean useServerTranspiled = true; static boolean useBossBot = false; static Object androidContext; static boolean android = isAndroid(); // We used to stick to 1.7 to support Android. // Now using Java 11. static S javaTarget = System.getProperty("java.version").startsWith("1.6.") ? "1.6" : "11"; // Translators currently being translated (to detect recursions) private static Set<Long> translating = new HashSet<Long>(); static String lastOutput; static String[] fullArgs; private static Console console; static String javaCompilerOutput; static int systemOutPipeSize = 128*1024; // 128 K static int systemErrPipeSize = 4*1024; // 4 K static int systemInPipeSize = 4*1024; // 4 K static S caseID; static volatile bool hiddenVM; static long vmStarted, vmStarted_sysTime; // store anything here static Map generalMap = synchroHashMap(); static { //putIfNotThere(generalMap, newPing_actionTL := new BetterThreadLocal); vmStarted = now(); vmStarted_sysTime = sysNow(); } sclass VMKeep { S programMD5; new HashMap<S, S> vars; // var name -> structure } static new HashMap<S, VMKeep> vmKeep; static Lock vmKeep_lock = lock(); public static void main(String[] args) { try { goMain(args); } catch (Throwable e) { printStackTrace(e); } } // rewrite command line args if we're called from browser // e.g. "javax:123" static S[] rewriteArgsForURLHandler(S[] args) { //print("Args: " + sfu(args)); if (l(args) == 1 && args[0].startsWith("javax:")) { S a = args[0]; //print("Rewriting argument: " + a); a = dropPrefix("javax:", a); a = trim(dropPrefix("//", a)); a = dropSuffix("/", a); ret asStringArray(splitAtSpace(a)); // TODO: handle quotes } ret args; } sbool inited; svoid initMe { if (inited) ret; inited = true; loadAllClasses(); coreInit(); regularGC(); computerID(); // Generate! } svoid coreInit { __javax = x30.class; // for hotwire // init Global Util's reference to me Class x30_util = classForName("x30_pkg.x30_util"); setOpt(x30_util, "__javax", x30.class); callOnLoadMethods(x30_util); } svoid initHelloMessage { if (!hasHelloMessage) { hasHelloMessage = true; //installHelloMessage(args.length == 0 ? "JavaX Start-Up VM" : "JavaX VM (" + smartJoin(args) + ")"); makeVMAndroid(); } } static void goMain(String[] args) throws Exception { initMe(); //appendToMechQ_withDate("x30 start log on computer " + computerID(), quote(first(args))); args = rewriteArgsForURLHandler(args); if (args.length != 0 && args[0].equals("-v")) verbose = true; redirectSystemOutAndErr(); for (S arg : args) if (arg.equals("-noawt")) noAWT = true; if (consoleOn && console == null && !noAWT) tryToOpenConsole(args); String autoReport = loadTextFile(new File(userHome(), ".javax/auto-report-to-chat").getPath(), "").trim(); //print("autoReport=" + autoReport); if (!isChatServer(args) && autoReport.equals("1")) autoReportToChat(); initHelloMessage(); File ioBaseDir = new File("."), inputDir = null, outputDir = null; String src = null; List<String> programArgs = new ArrayList<String>(); fullArgs = args; for (int i = 0; i < args.length; i++) { String arg = args[i]; // --quiet to -quiet arg = regexpReplace_direct(arg, "^--(?=\\w)", "-"); if (arg.equals("-version")) { showVersion(); System.exit(0); } if (arg.equals("-sysprop")) { showSystemProperties(); return; } if (arg.equals("-v") || arg.equals("-verbose")) verbose = true; else if (arg.equals("-nocerts")) disableCertificateValidation(); else if (arg.equals("-finderror")) verbose = true; else if (arg.equals("-offline") || arg.equalsIgnoreCase("-prefercached")) preferCached = true; else if (arg.equals("-novirt")) virtualizeTranslators = false; else if (arg.equals("-safeonly")) safeOnly = true; else if (arg.equals("-safetranslate")) safeTranslate = true; else if (arg.equals("-noawt")) noAWT = true; else if (arg.equals("-quiet")) quietLoading = true; else if (arg.equals("-verbose-illegal")) verboseIllegal = true; else if (arg.equals("-case")) caseID = args[++i]; else if (arg.equals("-noid")) noID = true; else if (arg.equals("-nocachetranspiled")) cacheTranspiledTranslators = false; else if (arg.equals("-javac")) javacOnly = true; else if (arg.equals("-nocleancache")) noCleanCache = true; else if (arg.equals("-localtranspile")) useServerTranspiled = false; else if (arg.equals("translate") && src == null) translate = true; else if (arg.equals("eval") && src == null) src = #1006008; else if (arg.equals("list") && src == null) { list = true; virtualizeTranslators = false; // so they are silenced } else if (arg.equals("run") && src == null) { // it's the default command anyway } else if (arg.startsWith("input=")) inputDir = new File(arg.substring(6)); else if (arg.startsWith("output=")) outputDir = new File(arg.substring(7)); else if (arg.equals("with")) mainTranslators.add(new String[] {args[++i], null}); else if (translate && arg.equals("to")) translateTo = args[++i]; else if (eqic(arg, "-dontcompilethroughport5000")) dontCompileThroughPort5000 = true; else if (eqic(arg, "-livecode")) { vm_setResourceLoader(resourceLoaderFromLiveCodeDirWithInitializing()); if (verbose) print("Using " + liveCodeDir() + " with on-demand downloads from " + tb_mainServer()); } // add more options here else if (src == null) { //System.out.println("src=" + arg); src = arg; } else programArgs.add(arg); } if (!noCleanCache) thread "Clean Cache" { cleanCache(); } if (useServerTranspiled) noPrefetch = true; if (src == null && fileExists("main.java")) { src = "."; print("WARNING: Runnning " + absolutePath("main.java") + " - this may not be what you want. Change to another directory to resume normal operation."); } // Might actually want to write to 2 disk caches (global/per program). if (virtualizeTranslators && !preferCached) virtCache = TempDirMaker_make(); if (inputDir != null) { ioBaseDir = TempDirMaker_make(); System.out.println("Taking input from: " + inputDir.getAbsolutePath()); System.out.println("Output is in: " + new File(ioBaseDir, "output").getAbsolutePath()); copyInput(inputDir, new File(ioBaseDir, "input")); } if (logOn) logStart(args); temp quietLoading ? temp_loadPage_silent() : null; if (verboseIllegal) { print("verboseIllegal ON"); vmBus_onMessage makeAccessible_error(voidfunc(Throwable e, O o) { System.out.print(e); }); } javaxmain(src, ioBaseDir, translate, list, programArgs.toArray(new String[programArgs.size()])); if (outputDir != null) { copyInput(new File(ioBaseDir, "output"), outputDir); System.out.println("Output copied to: " + outputDir.getAbsolutePath()); } if (verbose) { // print stats print("Processes started: " + processesStarted + ", compilations: " + compilations); print("Timers: " + l(_registeredTimers())); } } public static void javaxmain(String src, File ioDir, boolean translate, boolean list, String[] args) throws Exception { String programID = isSnippetID(src) ? "" + parseSnippetID(src) : null; if (programID != null && !quietLoading) System.out.println(trim("JavaX TRANSLATE " + programID + " " + smartJoin(args)) + " / " + vmPort()); new L<File> libraries; new LS libraries2; File x = transpileMain(src, libraries, libraries2); if (verbose) print("After transpileMain: " + x); if (x == null) { showVersion(); // DEFAULT PROGRAM TO RUN if (fullArgs != null) { String[] nargs; if (fullArgs.length == 0) { nargs = new String[] {str(psI(javaxDefaultProgram()))}; loadPage_retries = 60*60; // try to get internet for an hour instead of a minute, lol } else { // forward to search nargs = new String[fullArgs.length+1]; nargs[0] = str(psI(#636)); // nargs[1] = "search-runnables"; System.arraycopy(fullArgs, 0, nargs, 1, fullArgs.length); } if (console != null) console.args = nargs; main(nargs); // Hopefully we get no infinite recursion :) return; } System.out.println("No main.java found, exiting"); return; } info.transpiledSrc = x; // list or run if (translate) { File to = x; if (translateTo != null) { StringBuilder buf = new StringBuilder(); // XXX for (File f : libraries) buf.append(f.getName() + "\n"); for (S s : libraries2) buf.append("data_" + s + ".jar\n"); if (new File(translateTo).isDirectory()) { to = new File(translateTo, "main.java"); saveTextFile(new File(translateTo, "libraries.txt").getPath(), buf.toString()); } else { to = new File(translateTo); saveTextFile(new File(translateTo + "_libraries").getPath(), buf.toString()); } } if (to != x) copy(new File(x, "main.java"), to); System.out.println("Program translated to: " + to.getAbsolutePath()); } else if (list) System.out.println(loadTextFile(new File(x, "main.java").getPath(), null)); else { if (!quietLoading) { if (programID != null) System.out.println("JavaX RUN " + programID + " " + smartJoin(args)); System.out.println(); // Make empty line before actual program starts } PaA paa = javax2(x, ioDir, false, runMainInProcess, libraries, args, null, programID, info); final bool error = paa != null && paa.exception != null; if (error || !(quietLoading || !isTrue(getOpt(paa.mainClass, 'mainDoneQuietly_on)))) System.out.println("\n" + (error ? "[main done with error]" : "[main done]")); if (console != null) awt { if (eq(console.frame.getTitle(), console.title + " [Output]") && autoVMExit_visibleObjects() <= 1) console.frame.setTitle((error ? "[Error] " : donePrefix) + console.title); } // cleanup reportToChat thread if (reportToChat_q != null) { if (customSystemOut != null) Thread.sleep(1000); // delay to finish autoReportToChat. Yes it's hacky. if (verbose) System.out.println("Closing reportToChat queue"); reportToChat_q.done(); } if (gcAfterMainDone) gc(); } } // called by clients somewhere static File transpileMain(String src, List<File> libraries) throws Exception { ret transpileMain(src, libraries, new L); } static File transpileMain(String src, List<File> libraries, LS libraries2) throws Exception { File srcDir = null; boolean isTranspiled = false; if (verbose) printVars_str transpileMain(+src, +libraries, +libraries2); if (isSnippetID(src)) { S transpiledSrc = useBossBot ? getTranspilationFromBossBot(parseSnippetID(src)) : null; if (transpiledSrc != null) { int i = transpiledSrc.indexOf('\n'); String libs = transpiledSrc.substring(0, Math.max(0, i)); //print("libs for " + src + ": " + libs); transpiledSrc = transpiledSrc.substring(i+1); if (!transpiledSrc.isEmpty()) { srcDir = TempDirMaker_make(); saveTextFile(new File(srcDir, "main.java").getPath(), transpiledSrc); isTranspiled = true; Matcher m = Pattern.compile("\\d+").matcher(libs); while (m.find()) { String libid = m.group(); File libraryFile = DiskSnippetCache_getLibrary(parseSnippetID(libid)); loadLib(libid, libraries, libraries2, libraryFile); } } } if (srcDir == null) { prefetch(src); long id = parseSnippetID(src); prefetched.remove(id); // hackfix to ensure transpiled main program is found. bool offline = isOfflineMode(); srcDir = offline ? null : loadSnippetAsMainJava(src); if (verbose) System.err.println("hasTranspiledSet: " + hasTranspiledSet); if (hasTranspiledSet.contains(id) && useServerTranspiled || offline) { //System.err.println("Trying pretranspiled main program: #" + id); transpiledSrc = getServerTranspiled2("#" + id); int i = transpiledSrc.indexOf('\n'); String libs = transpiledSrc.substring(0, Math.max(0, i)); if (verbose) print("libs for " + src + ": " + libs); transpiledSrc = transpiledSrc.substring(i+1); if (!transpiledSrc.isEmpty()) { srcDir = TempDirMaker_make(); saveTextFile(new File(srcDir, "main.java").getPath(), transpiledSrc); isTranspiled = true; //translationCache.put(id, new Object[] {srcDir, libraries}); Matcher m = Pattern.compile("\\d+").matcher(libs); while (m.find()) { String libid = m.group(); File libraryFile = DiskSnippetCache_getLibrary(parseSnippetID(libid)); loadLib(libid, libraries, libraries2, libraryFile); if (verbose) print("libid=" + libid + ", libraryFile: " + libraryFile + ", libraries2=" + libraries2); } } } } } else { if (src == null) null; srcDir = new File(src); // if the argument is a file, it is assumed to be main.java if (srcDir.isFile()) { srcDir = TempDirMaker_make(); copy(new File(src), new File(srcDir, "main.java")); } if (!new File(srcDir, "main.java").exists()) return null; } // translate File x = srcDir; if (!isTranspiled) { temp tempSetThreadLocal(transpilingSnippetID, isSnippetID(src) ? fsI(src) : null); x = topLevelTranslate(x, libraries, libraries2); System.err.println("Translated " + src); // save prefetch data if (isSnippetID(src)) savePrefetchData(src); } return x; } static new ThreadLocal<S> transpilingSnippetID; private static void prefetch(String mainSnippetID) throws IOException { if (noPrefetch) return; long mainID = parseSnippetID(mainSnippetID); String s = mainID + " " + loadTextFile(javaxCachesDir("prefetch/" + mainID + ".txt").getPath(), ""); String[] ids = s.trim().split(" "); if (ids.length > 1) { String url = tb_mainServer() + "/tb-int/prefetch.php?ids=" + URLEncoder.encode(s, "UTF-8") + standardCredentials(); String data = loadPage(new URL(url)); String[] split = data.split(" "); if (split.length == ids.length) for (int i = 0; i < ids.length; i++) prefetched.put(parseSnippetID(ids[i]), split[i]); } } static String userHome() { if (android) return ((File) call(androidContext, "getFilesDir")).getAbsolutePath(); else return System.getProperty("user.home"); } private static void savePrefetchData(String mainSnippetID) throws IOException { List<String> ids = new ArrayList<String>(); long mainID = parseSnippetID(mainSnippetID); for (long id : memSnippetCache.keySet()) if (id != mainID) ids.add(String.valueOf(id)); saveTextFile(javaxCachesDir("prefetch/" + mainID + ".txt").getPath(), join(" ", ids)); } // libraries_out = normal libs // libraries2_out = source libs static File topLevelTranslate(File srcDir, List<File> libraries_out, LS libraries2_out) throws Exception { File x = srcDir; x = applyTranslators(x, mainTranslators, libraries_out, libraries2_out); // translators supplied on command line (unusual) // actual inner translation of the JavaX source x = defaultTranslate(x, libraries_out, libraries2_out); return x; } private static File defaultTranslate(File x, List<File> libraries_out, LS libraries2_out) throws Exception { x = luaPrintToJavaPrint(x); x = repeatAutoTranslate(x, libraries_out, libraries2_out); return x; } private static File repeatAutoTranslate(File x, List<File> libraries_out, LS libraries2_out) throws Exception { List<String[]> postTranslators = new ArrayList; while (true) { String main = loadTextFile(new File(x, "main.java").getPath(), null); List<String> lines = toLines(main); List<String[]> t = findPostTranslators(lines); postTranslators.addAll(t); if (!t.isEmpty()) { main = fromLines(lines); x = TempDirMaker_make(); saveTextFile(new File(x, "main.java").getPath(), main); } File y = autoTranslate(x, libraries_out, libraries2_out); if (y == x) break; x = y; } x = applyTranslators(x, postTranslators, libraries_out, libraries2_out); return x; } private static File autoTranslate(File x, List<File> libraries_out, LS libraries2_out) throws Exception { String main = loadTextFile(new File(x, "main.java").getPath(), null); L<S[]> translators = new L; main = findTranslators2x(main, translators); if (verbose) print("autoTranslate: Translators=" + sfu(translators)); if (translators.isEmpty()) return x; //main = fromLines(lines); File newDir = TempDirMaker_make(); saveTextFile(new File(newDir, "main.java").getPath(), main); return applyTranslators(newDir, translators, libraries_out, libraries2_out); } static S findTranslators2x(S src, L<S[]> translatorsOut) { L<S> tok = javaTok(src); int i; while ((i = jfind(tok, "!<int>(")) >= 0) { int j = indexOf(tok, ")", i); translatorsOut.add(new S[] {tok.get(i+2), join(subList(tok, i+4, j+1))}); clearTokens(tok, i, j+1); } while ((i = jfind(tok, "!<int>")) >= 0) { translatorsOut.add(new S[] {tok.get(i+2), null}); clearTokens(tok, i, i+3); } ret join(tok); } static List<String[]> findPostTranslators(List<String> lines) { List<String[]> translators = new ArrayList<String[]>(); Pattern pattern = Pattern.compile("^!post\\s*([0-9# \t]+)"); Pattern pArgs = Pattern.compile("^\\s*\\((.*)\\)"); for (ListIterator<String> iterator = lines.listIterator(); iterator.hasNext(); ) { String line = iterator.next(); line = line.trim(); Matcher matcher = pattern.matcher(line); if (matcher.find()) { String[] t = matcher.group(1).split("[ \t]+"); String rest = line.substring(matcher.end()); String arg = null; if (t.length == 1) { Matcher mArgs = pArgs.matcher(rest); if (mArgs.find()) arg = mArgs.group(1); } for (String transi : t) translators.add(new String[]{transi, arg}); iterator.remove(); } } return translators; } private static File applyTranslators(File x, List<String[]> translators, List<File> libraries_out, LS libraries2_out) throws Exception { for (String[] translator : translators) x = applyTranslator(x, translator[0], translator[1], libraries_out, libraries2_out); return x; } // also takes a library private static File applyTranslator(File x, String translator, String arg, List<File> libraries_out, LS libraries2_out) throws Exception { if (verbose) System.out.println("Using translator " + translator + " on sources in " + x.getPath()); File newDir = runTranslatorOnInput(translator, null, arg, x, !verbose, libraries_out, libraries2_out); if (!new File(newDir, "main.java").exists()) { throw new Exception("Translator " + translator + " did not generate main.java"); // TODO: show translator output } if (verbose) System.out.println("Translated with " + translator + " from " + x.getPath() + " to " + newDir.getPath()); x = newDir; return x; } private static File luaPrintToJavaPrint(File x) throws IOException { File newDir = TempDirMaker_make(); String code = loadTextFile(new File(x, "main.java").getPath(), null); code = luaPrintToJavaPrint(code); saveTextFile(new File(newDir, "main.java").getPath(), code); return newDir; } public static String luaPrintToJavaPrint(String code) { return ("\n" + code).replaceAll( "(\n\\s*)print (\".*\")", "$1System.out.println($2);").substring(1); } public static File loadSnippetAsMainJava(String snippetID) throws IOException { checkProgramSafety(snippetID); File srcDir = TempDirMaker_make(); saveTextFile(new File(srcDir, "main.java").getPath(), loadSnippet_code(parseSnippetID(snippetID))); return srcDir; } public static File loadSnippetAsMainJavaVerified(String snippetID, String hash) throws IOException { checkProgramSafety(snippetID); File srcDir = TempDirMaker_make(); saveTextFile(new File(srcDir, "main.java").getPath(), loadSnippetVerified(snippetID, hash)); return srcDir; } @SuppressWarnings( "unchecked" ) /** returns output dir */ private static File runTranslatorOnInput(String snippetID, String hash, String arg, File input, boolean silent, List<File> libraries_out, LS libraries2_out) throws Exception { if (safeTranslate) checkProgramSafetyImpl(snippetID); long id = parseSnippetID(snippetID); File libraryFile = DiskSnippetCache_getLibrary(id); print("Checking if " + snippetID + " is translator. marked as src lib: " + isMarkedAsSrcLib(snippetID) + ". has lib: " + (libraryFile != null)); if (isMarkedAsSrcLib(snippetID) || isJavaxModuleSnippetType(getSnippetType(snippetID))) { setAdd(libraries2_out, snippetID); ret input; } if (verbose) System.out.println("Library file for " + id + ": " + libraryFile); if (libraryFile != null) { loadLib(snippetID, libraries_out, libraries2_out, libraryFile); return input; } String[] args = arg != null ? new String[]{arg} : new String[0]; File srcDir = hash == null ? loadSnippetAsMainJava(snippetID) : loadSnippetAsMainJavaVerified(snippetID, hash); long mainJavaSize = new File(srcDir, "main.java").length(); if (verbose) System.out.println(snippetID + ": length = " + mainJavaSize); if (mainJavaSize == 0) { // no text in snippet? assume it's a library loadLib(snippetID, libraries_out, libraries2_out, libraryFile); return input; } List<File> libraries = new ArrayList<File>(); new LS libraries2; Object[] cached = translationCache.get(id); if (cached != null) { //System.err.println("Taking translator " + snippetID + " from cache!"); srcDir = (File) cached[0]; libraries = (List<File>) cached[1]; } else if (hasTranspiledSet.contains(id) && useServerTranspiled) { print("Trying pretranspiled translator: #" + snippetID); S transpiledSrc = getServerTranspiled2(snippetID); int i = transpiledSrc.indexOf('\n'); S libs = takeFirst(i, transpiledSrc); transpiledSrc = transpiledSrc.substring(i+1); print("libs=" + libs); libraries.addAll(javax_librariesToFiles(libs)); libraries2.addAll(regexpAllMatches("\\d+", libs)); if (!transpiledSrc.isEmpty()) { srcDir = TempDirMaker_make(); saveTextFile(new File(srcDir, "main.java").getPath(), transpiledSrc); translationCache.put(id, cached = new Object[] {srcDir, libraries}); } } File ioBaseDir = TempDirMaker_make(); /*Class<?> mainClass = programCache.get("" + parseSnippetID(snippetID)); if (mainClass != null) return runCached(ioBaseDir, input, args);*/ // Doesn't work yet because virtualized directories are hardcoded in translator... if (cached == null) { System.err.println("Translating translator #" + id); if (translating.contains(id)) throw new RuntimeException("Recursive translator reference chain: " + structure(translating)); translating.add(id); try { srcDir = defaultTranslate(srcDir, libraries, libraries2); } finally { translating.remove(id); } System.err.println("Translated translator #" + id); translationCache.put(id, new Object[]{srcDir, libraries}); } boolean runInProcess = false; if (virtualizeTranslators) { if (verbose) System.out.println("Virtualizing translator"); // TODO: don't virtualize class _javax (as included in, say, #636) //srcDir = applyTranslator(srcDir, "#2000351"); // I/O-virtualize the translator // that doesn't work because it recurses infinitely... // So we do it right here: String s = loadTextFile(new File(srcDir, "main.java").getPath(), null); s = s.replaceAll("new\\s+File\\(", "virtual.newFile("); s = s.replaceAll("new\\s+FileInputStream\\(", "virtual.newFileInputStream("); s = s.replaceAll("new\\s+FileOutputStream\\(", "virtual.newFileOutputStream("); s += "\n\n" + loadSnippet("#1004414"); // load class virtual // forward snippet cache (virtualized one) File dir = virtCache != null ? virtCache : DiskSnippetCache_dir; s = s.replace("static File DiskSnippetCache_dir" + ";", "static File DiskSnippetCache_dir " + "= new File(" + javaQuote(dir.getAbsolutePath()) + ");"); // extra + is necessary for Dumb TinyBrain :) s = s.replace("static boolean preferCached = false;", "static boolean preferCached = true;"); /*if (verbose) { System.out.println("==BEGIN VIRTUALIZED TRANSLATOR=="); System.out.println(s); System.out.println("==END VIRTUALIZED TRANSLATOR=="); }*/ srcDir = TempDirMaker_make(); saveTextFile(new File(srcDir, "main.java").getPath(), s); // TODO: silence translator also runInProcess = true; } return runJavaX(ioBaseDir, srcDir, input, silent, runInProcess, libraries, args, cacheTranslators ? "" + id : null, "" + id); } static void checkProgramSafety(String snippetID) throws IOException { if (!safeOnly) return; checkProgramSafetyImpl(snippetID); } static void checkProgramSafetyImpl(String snippetID) throws IOException { URL url = new URL(tb_mainServer() + "/tb-int/is-javax-safe.php?id=" + parseSnippetID(snippetID) + standardCredentials()); String text = loadPage(url); if (!text.startsWith("{\"safe\":\"1\"}")) throw new RuntimeException("Program not safe: #" + parseSnippetID(snippetID)); } static void loadLib(String snippetID, List<File> libraries_out, LS libraries2_out, File libraryFile) throws IOException { if (verbose) System.out.println("Assuming " + snippetID + " is a library."); if (libraryFile == null) { byte[] data = loadDataSnippetImpl(snippetID); DiskSnippetCache_putLibrary(parseSnippetID(snippetID), data); libraryFile = DiskSnippetCache_getLibrary(parseSnippetID(snippetID)); } if (!libraries_out.contains(libraryFile)) { libraries_out.add(libraryFile); libraries2_out.add(str(psI(snippetID))); } } /** returns output dir */ private static File runJavaX(File ioBaseDir, File originalSrcDir, File originalInput, boolean silent, boolean runInProcess, List<File> libraries, String[] args, String cacheAs, String programID) throws Exception { File srcDir = new File(ioBaseDir, "src"); File inputDir = new File(ioBaseDir, "input"); File outputDir = new File(ioBaseDir, "output"); copyInput(originalSrcDir, srcDir); copyInput(originalInput, inputDir); javax2(srcDir, ioBaseDir, silent, runInProcess, libraries, args, cacheAs, programID, null); return outputDir; } private static void copyInput(File src, File dst) throws IOException { copyDirectory(src, dst); } public static boolean hasFile(File inputDir, String name) { return new File(inputDir, name).exists(); } public static void copyDirectory(File src, File dst) throws IOException { if (verbose) System.out.println("Copying " + src.getAbsolutePath() + " to " + dst.getAbsolutePath()); dst.mkdirs(); File[] files = src.listFiles(); if (files == null) return; for (File file : files) { File dst1 = new File(dst, file.getName()); if (file.isDirectory()) copyDirectory(file, dst1); else { if (verbose) System.out.println("Copying " + file.getAbsolutePath() + " to " + dst1.getAbsolutePath()); copy(file, dst1); } } } /** Quickly copy a file without a progress bar or any other fancy GUI... :) */ public static void copy(File src, File dest) throws IOException { FileInputStream inputStream = newFileInputStream(src); FileOutputStream outputStream = newFileOutputStream(dest); try { copy(inputStream, outputStream); inputStream.close(); } finally { outputStream.close(); } } private static FileInputStream newFileInputStream(File f) throws FileNotFoundException { /*if (androidContext != null) return (FileInputStream) call(androidContext, "openFileInput", f.getPath()); else*/ return new // line break for Dumb TinyBrain :) FileInputStream(f); } public static void copy(InputStream in, OutputStream out) throws IOException { byte[] buf = new byte[65536]; while (true) { int n = in.read(buf); if (n <= 0) return; out.write(buf, 0, n); } } public static String loadSnippetVerified(String snippetID, String hash) throws IOException { String text = loadSnippet(snippetID); String realHash = getHash(text.getBytes("UTF-8")); if (!realHash.equals(hash)) { String msg; if (hash.isEmpty()) msg = "Here's your hash for " + snippetID + ", please put in your program: " + realHash; else msg = "Hash mismatch for " + snippetID + ": " + realHash + " (new) vs " + hash + " - has tinybrain.de been hacked??"; throw new RuntimeException(msg); } return text; } public static String getHash(byte[] data) { return bytesToHex(getFullFingerprint(data)); } public static byte[] getFullFingerprint(byte[] data) { try { return MessageDigest.getInstance("MD5").digest(data); } catch (NoSuchAlgorithmException e) { throw new RuntimeException(e); } } public static long parseSnippetID(String snippetID) { return Long.parseLong(shortenSnippetID(snippetID)); } private static String shortenSnippetID(String snippetID) { if (snippetID.startsWith("#")) snippetID = snippetID.substring(1); String httpBlaBla = "http://tinybrain.de/"; if (snippetID.startsWith(httpBlaBla)) snippetID = snippetID.substring(httpBlaBla.length()); return snippetID; } static String getTranspilationFromBossBot(long snippetID) { return boss(format3("get transpilation for *", snippetID)); } // This is DIFFERENT from the std library loadSnippet // (this is only for code!) public static String loadSnippet_code(long snippetID) throws IOException { String text = getSnippetFromBossBot(snippetID); if (text != null) return text; if (snippetID >= 1400000 && snippetID < 1500000) ret ""; // binary snippets text = memSnippetCache.get(snippetID); if (text != null) { if (verbose) System.out.println("Getting " + snippetID + " from mem cache"); return text; } initSnippetCache(); text = DiskSnippetCache_get(snippetID); if (preferCached && text != null) { if (verbose) System.out.println("Getting " + snippetID + " from disk cache (preferCached)"); return text; } String md5 = text != null ? md5(text) : "-"; if (text != null) { String hash = prefetched.get(snippetID); if (hash != null) { if (md5.equals(hash)) { memSnippetCache.put(snippetID, text); if (verbose) System.out.println("Getting " + snippetID + " from prefetched"); return text; } else prefetched.remove(snippetID); // (maybe this is not necessary) } } try { IResourceLoader rl = vm_getResourceLoader(); if (rl != null) { hasTranspiledSet.add(snippetID); // drop libs - is this correct? ret dropFirstLine(rl.getTranspiled(fsI(snippetID))); } String theURL = tb_mainServer() + "/getraw.php?id=" + snippetID + "&getmd5=1&utf8=1&usetranspiled=1" + standardCredentials(); if (text != null) { //System.err.println("MD5: " + md5); theURL += "&md5=" + md5; } URL url = new URL(theURL); String page = loadPage(url); // parse & drop transpilation flag available line int i = page.indexOf('\n'); boolean hasTranspiled = page.substring(0, i).trim().equals("1"); if (hasTranspiled) hasTranspiledSet.add(snippetID); else hasTranspiledSet.remove(snippetID); page = page.substring(i+1); if (page.startsWith("==*#*==")) { // same, keep text //System.err.println("Snippet unchanged, keeping."); } else { // drop md5 line i = page.indexOf('\n'); String hash = page.substring(0, i).trim(); text = page.substring(i+1); String myHash = md5(text); if (myHash.equals(hash)) { //System.err.println("Hash match: " + hash); } else System.err.println("Hash mismatch"); } } catch (Exception e) { printStackTrace(e); throw new IOException("Snippet #" + snippetID + " not found or not public"); } memSnippetCache.put(snippetID, text); try { initSnippetCache(); DiskSnippetCache_put(snippetID, text); } catch (IOException e) { System.err.println("Minor warning: Couldn't save snippet to cache (" + DiskSnippetCache_getDir() + ")"); } return text; } /** runs a transpiled set of sources */ public static PaA javax2(File srcDir, File ioBaseDir, boolean silent, boolean runInProcess, List<File> libraries, String[] args, String cacheAs, String programID, Info info) throws Exception { if (android) { // TODO: no translator virtualization? huh? javax2android(srcDir, args, programID); null; } else { File jarFile = null, classesDir = null; bool jarOK = false; S javacOutput = ""; if (useDummyMainClasses()) { //print("Trying to rename " + srcDir + ", " + programID); if (isSnippetID(programID)) renameMainJava(srcDir, programID); } if (isSnippetID(programID)) { S md5 = md5(struct(libraries) + "\n" + loadTextFile(new File(srcDir, "main.java")) + loadTextFile(new File(srcDir, dummyMainClassName(programID) + ".java"))); S psi = str(parseSnippetID(programID)); jarFile = new File(getCacheProgramDir("#1001638"), psi + "-" + md5 + ".jar"); jarOK = jarFile.length() >= 50; if (jarOK) classesDir = jarFile; } if (!jarOK) { classesDir = TempDirMaker_make(); temp quietLoading ? null : tempLoadingAnim("Compiling Java"); javacOutput = compileJava(srcDir, libraries, classesDir); } // save jar if (!jarOK && isSnippetID(programID)) pcall { dir2zip_recurse_verbose = false; dir2jar(classesDir, jarFile); } // run if (verbose) System.out.println("Running program (" + srcDir.getAbsolutePath() + ") on io dir " + ioBaseDir.getAbsolutePath() + (runInProcess ? "[in-process]" : "") + "\n"); ret runProgram(javacOutput, classesDir, ioBaseDir, silent, runInProcess, libraries, args, cacheAs, programID, info); } } static Class<?> loadx2android(File srcDir, String programID) throws Exception { // TODO: optimize if it's a loaded snippet anyway URL url = new URL(tb_mainServer() + "/dexcompile.php"); URLConnection conn = url.openConnection(); String postData = "src=" + URLEncoder.encode(loadTextFile(new File(srcDir, "main.java").getPath(), null), "UTF-8") + standardCredentials(); byte[] dexData = doPostBinary(postData, conn); if (!isDex(dexData)) throw new RuntimeException("Dex generation error: " + dexData.length + " bytes - " + new String(dexData, "UTF-8")); System.out.println("Dex loaded: " + dexData.length + "b"); File dexDir = TempDirMaker_make(); File dexFile = new File(dexDir, System.currentTimeMillis() + ".dex"); File dexOutputDir = TempDirMaker_make(); System.out.println("Saving dex to: " + dexDir.getAbsolutePath()); try { saveBinaryFile(dexFile.getPath(), dexData); } catch (Throwable e) { System.out.println("Whoa!"); throw new RuntimeException(e); } System.out.println("Getting parent class loader."); ClassLoader parentClassLoader = //ClassLoader.getSystemClassLoader(); // does not find support jar //getClass().getClassLoader(); // Let's try this... x30.class.getClassLoader().getParent(); // XXX ! //System.out.println("Making DexClassLoader."); //DexClassLoader classLoader = new DexClassLoader(dexFile.getAbsolutePath(), dexOutputDir.getAbsolutePath(), null, // parentClassLoader); Class dcl = Class.forName("dalvik.system.DexClassLoader"); Object classLoader = dcl.getConstructors()[0].newInstance(dexFile.getAbsolutePath(), dexOutputDir.getAbsolutePath(), null, parentClassLoader); //System.out.println("Loading main class."); //Class<?> theClass = classLoader.loadClass(mainClassName); Class<?> theClass = (Class<?>) call(classLoader, "loadClass", "main"); //System.out.println("Main class loaded."); try { set(theClass, "androidContext", androidContext); } catch (Throwable e) {} setVars(theClass, programID); addInstance(programID, theClass); return theClass; } static void addInstance(S programID, Class mainClass) { programID = "" + parseSnippetID(programID); instances.put(programID, new WeakReference<Class>(mainClass)); } static Class getInstance(S programID) { programID = "" + parseSnippetID(programID); L<WeakReference<Class>> l = instances.get(programID); for (WeakReference<Class> c : l) { Class theClass = c.get(); // TODO: shorten the list if (theClass != null) return theClass; } return null; } static MultiMap<String, WeakReference<Class>> instances = new MultiMap<String, WeakReference<Class>>(); !include #1007192 // autoVMExit (core version) static void javax2android(File srcDir, String[] args, String programID) throws Exception { Class<?> theClass = loadx2android(srcDir, programID); Method main = null; try { main = findStaticMethod(theClass, "main", new Object[]{androidContext}); } catch (RuntimeException e) { } //System.out.println("main method for " + androidContext + " of " + theClass + ": " + main); if (main != null) { // old style main program that returns a View // TODO: maybe allow programs without main method, although it doesn't seem to make sense here really (Android main program) System.out.println("Calling main (old-style)"); Object view = main.invoke(null, androidContext); System.out.println("Calling setContentView with " + view); call(Class.forName("main"), "setContentViewInUIThread", view); //call(androidContext, "setContentView", view); System.out.println("Done."); } else { System.out.println("New-style main method running.\n\n====\n"); runMainMethod(args, theClass); } } static byte[] DEX_FILE_MAGIC = { 0x64, 0x65, 0x78, 0x0a, 0x30, 0x33, 0x35, 0x00 }; static boolean isDex(byte[] dexData) { if (dexData.length < DEX_FILE_MAGIC.length) return false; for (int i = 0; i < DEX_FILE_MAGIC.length; i++) if (dexData[i] != DEX_FILE_MAGIC[i]) return false; return true; } static String compileJava(File srcDir, List<File> libraries, File classesDir) throws IOException { javaCompilerOutput = null; ++compilations; // collect sources List<File> sources = new ArrayList<File>(); if (verbose) System.out.println("Scanning for sources in " + srcDir.getPath()); scanForSources(srcDir, sources, true); if (sources.isEmpty()) throw new IOException("No sources found"); // compile File optionsFile = File.createTempFile("javac", "", javaxTempDir()); try { if (verbose) System.out.println("Compiling " + sources.size() + " source(s) to " + classesDir.getPath()); if (verbose) System.out.println("Libraries: " + libraries); String options = "-d " + bashQuote(classesDir.getPath()); libraries.add(pathToJavaxJar()); writeOptions(sources, libraries, optionsFile, options); classesDir.mkdirs(); return invokeJavaCompiler(optionsFile); } finally { optionsFile.delete(); } } private static PaA runProgram(String javacOutput, File classesDir, File ioBaseDir, boolean silent, boolean runInProcess, List<File> libraries, String[] args, String cacheAs, String programID, Info info) throws Exception { // print javac output if compile failed and it hasn't been printed yet if (info != null) { info.programID = programID; info.programArgs = args; } boolean didNotCompile = !didCompile(classesDir); if (verbose || didNotCompile) System.out.println(javacOutput); if (didNotCompile) null; if (runInProcess || (ioBaseDir.getAbsolutePath().equals(new File(".").getAbsolutePath()) && !silent)) { ret runProgramQuick(classesDir, libraries, args, cacheAs, programID, info, ioBaseDir); } boolean echoOK = false; // TODO: add libraries to class path String bashCmd = "(cd " + bashQuote(ioBaseDir.getAbsolutePath()) + " && (java -cp " + bashQuote(classesDir.getAbsolutePath()) + " main" + (echoOK ? "; echo ok" : "") + "))"; if (verbose) System.out.println(bashCmd); String output = backtick(bashCmd); lastOutput = output; if (verbose || !silent) System.out.println(output); null; } // classesDir can also be a .jar static boolean didCompile(File classesDir) { return classesDir.length() >= 50 || hasFile(classesDir, "main.class"); } private static PaA runProgramQuick(File classesDir, List<File> libraries, String[] args, String cacheAs, String programID, Info info, File ioBaseDir) throws Exception { // make class loader JavaXClassLoader classLoader = new JavaXClassLoader(programID, concatLists(ll(classesDir), libraries)); // load JavaX main class Class<?> mainClass = classLoader.loadClass("main"); S src = null; if (info != null && info.transpiledSrc != null) src = loadTextFile(findMainJavaInDir(info.transpiledSrc)); if (info == null) { //print("no info"); } else { //print("info.transpiledSrc = " + info.transpiledSrc); info.mainClass = mainClass; if (hasFieldNamed(mainClass, "myJavaSource_code")) { //print("src = " + l(src)); set(mainClass, "myJavaSource_code", src); } if (registerSourceCodes && info.transpiledSrc != null) registerSourceCode(mainClass, src); } if (cacheAs != null) programCache.put(cacheAs, mainClass); // record injection final PaA paa = new PaA(programID, args); paa.injectionID = randomID(8); paa.mainClass = mainClass; if (src != null) paa.srcMD5 = md5(src); addInjection(paa); // set case if (caseID != null) setOpt(mainClass, 'caseID_caseID, caseID); // change baseDir try { //print("Changing base dir to " + ioBaseDir.getAbsolutePath()); Class virtual = mainClass.getClassLoader().loadClass("virtual"); set(virtual, "virtual_baseDir", ioBaseDir.getAbsolutePath()); } catch (Throwable e) { /* whatever */ } setVars(mainClass, programID); addInstance(programID, mainClass); paaRun(paa); ret paa; } static void paaRun(PaA paa) { moveThisThreadToChild(paa.mainClass); paa.mainThread = new WeakReference(currentThread()); paa.exception = null; try { runMainMethod(paa.arguments, paa.mainClass); } catch (Throwable e) { paa.exception = e; printStackTrace2(e); //throw e; } finally { paa.mainDone = true; synchronized(x30.class) {} } } static void setVars(Class<?> theClass, String programID) { try { set(theClass, "programID", formatSnippetIDOpt(programID)); } catch (Throwable e) {} try { set(theClass, "__javax", x30.class); } catch (Throwable e) {} callOnLoadMethods(theClass); } static void runMainMethod(String[] args, Class<?> mainClass) throws NoSuchMethodException, IllegalAccessException, InvocationTargetException { callMain(mainClass, args); } static String invokeJavaCompiler(File optionsFile) throws IOException { long time = now(); String output; if (hasEcj() && !javacOnly) output = invokeEcj(optionsFile); else output = invokeJavac(optionsFile); if (verbose) System.out.println(output); if (!quietLoading) done(time, "Java compile"); return output; } private static boolean hasEcj() { try { Class.forName("org.eclipse.jdt.internal.compiler.batch.Main"); return true; } catch (ClassNotFoundException e) { return false; } } // TODO: fix UTF-8 here too private static String invokeJavac(File optionsFile) throws IOException { String output; output = backtick("javac " + bashQuote("@" + optionsFile.getPath())); javaCompilerOutput = output; if (backtick_exitValue != 0) { System.out.println(output); throw new RuntimeException("javac returned errors."); } return output; } // throws ClassNotFoundException if ecj is not in classpath static String invokeEcj(File optionsFile) { if (vmPort() != 5000 && !dontCompileThroughPort5000) pcall-short { ret invokeEcjInFirstVM(optionsFile); } try { StringWriter writer = new StringWriter(); PrintWriter printWriter = new PrintWriter(writer); // add more eclipse options in the line below String[] args = { "-source", javaTarget, "-target", javaTarget, "-nowarn", "-encoding", "UTF-8", "@" + optionsFile.getPath() }; if (verbose) { print("ECJ options: " + structure(args)); print(loadTextFile(optionsFile)); } Class ecjClass = Class.forName("org.eclipse.jdt.internal.compiler.batch.Main"); Object main = newInstance(ecjClass, printWriter, printWriter, false); call(main, "compile", new Object[]{args}); int errors = (Integer) get(main, "globalErrorsCount"); String output = cleanJavaCompilerOutput(writer.toString()); javaCompilerOutput = output; if (errors != 0) { //System.out.println(output); throw new JavaCompileException(output); } return output; } catch (Exception e) { throw e instanceof RuntimeException ? (RuntimeException) e : new RuntimeException(e); } } static Object newInstance(Class c, Object... args) { try { Constructor m = findConstructor(c, args); m.setAccessible(true); return m.newInstance(args); } catch (Throwable __e) { throw __e instanceof RuntimeException ? (RuntimeException) __e : new RuntimeException(__e); }} static Constructor findConstructor(Class c, Object... args) { for (Constructor m : c.getDeclaredConstructors()) { if (!checkArgs(m.getParameterTypes(), args, false)) continue; return m; } throw new RuntimeException("Constructor with " + args.length + " matching parameter(s) not found in " + c.getName()); } static boolean checkArgs(Class[] types, Object[] args, boolean debug) { if (types.length != args.length) { if (debug) System.out.println("Bad parameter length: " + args.length + " vs " + types.length); return false; } for (int i = 0; i < types.length; i++) if (!(args[i] == null || isInstanceX(types[i], args[i]))) { if (debug) System.out.println("Bad parameter " + i + ": " + args[i] + " vs " + types[i]); return false; } return true; } private static void writeOptions(List<File> sources, List<File> libraries, File optionsFile, String moreOptions) throws IOException { FileWriter writer = new FileWriter(optionsFile); for (File source : sources) writer.write(bashQuote(source.getPath()) + " "); if (!libraries.isEmpty()) { new LS cp; for (File lib : libraries) cp.add(lib.getAbsolutePath()); writer.write("-cp " + bashQuote(join(File.pathSeparator, cp)) + " "); } writer.write(moreOptions); writer.close(); } static void scanForSources(File source, List<File> sources, boolean topLevel) { if (source.isFile() && source.getName().endsWith(".java")) sources.add(source); else if (source.isDirectory() && !isSkippedDirectoryName(source.getName(), topLevel)) { File[] files = source.listFiles(); for (File file : files) scanForSources(file, sources, false); } } private static boolean isSkippedDirectoryName(String name, boolean topLevel) { if (topLevel) return false; // input or output ok as highest directory (intentionally specified by user, not just found by a directory scan in which case we probably don't want it. it's more like heuristics actually.) return name.equalsIgnoreCase("input") || name.equalsIgnoreCase("output"); } public final static String charsetForTextFiles = "UTF8"; static long TempDirMaker_lastValue; public static File TempDirMaker_make() { File dir = javaxTempDir("" + TempDirMaker_newValue()); dir.mkdirs(); chmod_aPlusRX(dir); return dir; } private static long TempDirMaker_newValue() { long value; do value = System.currentTimeMillis(); while (value == TempDirMaker_lastValue); TempDirMaker_lastValue = value; return value; } !include #1000810 // join static String computerID; public static String getComputerID() throws IOException { if (noID) return null; if (computerID == null) { File file = computerIDFile(); computerID = loadTextFile(file.getPath()); if (computerID == null) { // legacy load computerID = loadTextFile(userDir(".tinybrain/computer-id")); if (computerID == null) computerID = makeRandomID(12); saveTextFile(file.getPath(), computerID); } if (verbose) System.out.println("Local computer ID: " + computerID); } return computerID; } static void cleanCache() { try { pcall { S s = trim(loadTextFile(getProgramFile("#1001638", "temp-file-retention-time"))); if (nempty(s)) tempFileRetentionTime = parseInt(s); } cleanJavaXCache(tempFileRetentionTime, verbose); } finally { cleanCacheDone = true; } } static void showSystemProperties() { System.out.println("System properties:\n"); for (Map.Entry<Object, Object> entry : System.getProperties().entrySet()) { System.out.println(" " + entry.getKey() + " = " + entry.getValue()); } System.out.println(); } static void showVersion() { //showSystemProperties(); boolean eclipseFound = hasEcj(); //String platform = System.getProperty("java.vendor") + " " + System.getProperty("java.runtime.name") + " " + System.getProperty("java.version"); String platform = System.getProperty("java.vm.name") + " " + System.getProperty("java.version"); String os = System.getProperty("os.name"), arch = System.getProperty("os.arch"); System.out.println("This is " + version + ", last changed " + dateChanged + ", transpiled " + localDateWithMinutes(myTranspilationDate()) + "."); System.out.println("[Details: " + (eclipseFound ? "Eclipse compiler (good)" : "javac (not so good)") + ", " + platform + ", " + arch + ", " + os + "]"); } static boolean isAndroid() { return System.getProperty("java.vendor").toLowerCase().indexOf("android") >= 0; } !include #1000415 // set function static String smartJoin(String[] args) { String[] a2 = new String[args.length]; for (int i = 0; i < args.length; i++) { a2[i] = Pattern.compile("\\w+").matcher(args[i]).matches() ? args[i] : quote(args[i]); } return join(" ", a2); } static void logStart(String[] args) throws IOException { String line = smartJoin(args); appendToLog(new File(userHome(), ".javax/log.txt").getPath(), line); } static void appendToLog(String path, String line) throws IOException { appendToFile(path, "\n" + line + "\n"); } static PrintStream oldOut, oldErr; static Thread reader, reader2; static boolean quit; // always false now static PipedInputStream pin=new PipedInputStream(systemOutPipeSize); static PipedInputStream pin2=new PipedInputStream(systemErrPipeSize); static PipedInputStream pin3=new PipedInputStream(systemInPipeSize); static PipedOutputStream pout3; static class Console /*extends WindowAdapter implements WindowListener,*/ implements ActionListener { JFrame frame; JFastLogView_noWrap logView; JTextField tfInput; JComboBox cbInput; // alternative to tfInput StringBuffer buf = new StringBuffer(); JButton buttonclear, buttonkill, buttonrestart, buttonduplicate, buttonassist, buttonpause, buttonhide; String[] args; volatile boolean autoScroll = true; JScrollPane scrollPane; S title; JLabel memoryView; final DelayedUpdate du = new DelayedUpdate(r { bool show = !consoleUpdateOff && isVisibleFrame(frame); S text = ""; synchronized(buf) { int max = maxConsoleChars; if (buf.length() > max) { try { int newLength = max/2; int ofs = buf.length()-newLength; S newString = buf.substring(ofs); buf.setLength(0); buf.append("[...] ").append(newString); } catch (Exception e) { buf.setLength(0); } buf.trimToSize(); } if (show) text = str(buf); } if (!show) ret; // TODO: optimize more? if (logView != null && logView.setText(text) && autoScroll) scrollAllTheWayDown(logView); }); public Console(final String[] args) ctex { du.delay = consoleUpdateDelay; this.args = args; // create all components and add them frame = new JFrame(args.length == 0 ? "JavaX Starter Output" : "JavaX Output - " + join(" ", args)); if (!consoleGrabFocus) frame.setAutoRequestFocus(false); /*Dimension screenSize=Toolkit.getDefaultToolkit().getScreenSize(); Dimension frameSize=new Dimension((int)(screenSize.width/2),(int)(screenSize.height/2)); int x=(int)(frameSize.width/2); int y=(int)(frameSize.height/2); frame.setBounds(x,y,frameSize.width,frameSize.height);*/ // put in bottom-right corner Rectangle r = GraphicsEnvironment.getLocalGraphicsEnvironment().getMaximumWindowBounds(); frame.setBounds(r.x+r.width-consoleWidth-consoleXGap, r.y+r.height-consoleHeight-consoleYGap, consoleWidth, consoleHeight); moveWindowIntoScreen(frame); if (verbose) print("Making log view"); logView = jFastLogView_noWrap(); logView.verbose = verbose; if (verbose) print("Made log view"); buttonclear = consoleButton("clear"); buttonkill = consoleButton("kill"); buttonrestart = consoleButton("restart"); buttonrestart.setToolTipText("Restart program"); buttonduplicate = consoleButton("duplicate"); buttonassist = consoleButton("assist"); buttonpause = consoleButton("pause"); buttonhide = consoleButton("hide"); JLabel mv = memoryView = jMemoryView(); JPanel buttons = westAndCenter(withRightMargin(mv), hgrid( buttonclear, buttonkill, buttonrestart, buttonduplicate, buttonassist, buttonpause, buttonhide)); componentPopupMenuItem(mv, "Re-run main", r reRunMain); componentPopupMenuItem(mv, "Print stack traces", r listUserThreadsWithStackTraces); componentPopupMenuItem(mv, "10 second profile", r swing_tenSecondProfile); componentPopupMenuItem(mv, "Hide VM", r hideVM); componentPopupMenuItem(mv, "Set variable...", r setVarDialog); componentPopupMenu(mv, voidfunc(JPopupMenu menu) { if (isOfflineMode()) addMenuItem(menu, "Switch to online mode", r goOnlineMode); else addMenuItem(menu, "Switch to offline mode", r goOfflineMode); }); //componentPopupMenuItem(mv, "Bigger fonts", r swingBiggerFonts); //componentPopupMenuItem(mv, "Smaller fonts", r swingSmallerFonts); pout3 = new PipedOutputStream(pin3); tfInput = new JTextField(); tfInput.addActionListener(actionListener { S line = tfInput.getText(); try { pout3.write((line + "\n").getBytes("UTF-8")); pout3.flush(); } catch (Exception e) {} //tfInput.setText(""); tfInput.selectAll(); }); addHistoryToTextField(tfInput); JPanel panel = new JPanel(new BorderLayout()); if (verbose) print("Making scroll pane"); panel.add(scrollPane = jscroll_copyBackground(logView), BorderLayout.CENTER); if (verbose) print("Made scroll pane"); panel.add(tfInput, BorderLayout.SOUTH); frame.setDefaultCloseOperation(JFrame.DO_NOTHING_ON_CLOSE); frame.addWindowListener(new WindowAdapter() { public void windowActivated(WindowEvent e) { if (focusConsoleInputOnActivate) tfInput.requestFocus(); } public synchronized void windowClosing(WindowEvent evt) { if (JOptionPane.showConfirmDialog(frame, "Close " + (empty(title) ? "JavaX Application" : title) + "?", "JavaX", JOptionPane.YES_NO_OPTION) == JOptionPane.YES_OPTION) cleanKillVM_noSleep(); } }); frame.getContentPane().setLayout(new BorderLayout()); frame.getContentPane().add(panel, BorderLayout.CENTER); frame.getContentPane().add(buttons, BorderLayout.SOUTH); if (verbose) print("Showing console frame"); if (consoleOn) frame.setVisible(true); if (verbose) print("Showed console frame"); setFrameIconLater(frame, javaxDefaultIcon()); //frame.addWindowListener(this); // disabled for now buttonclear.addActionListener(this); buttonkill.addActionListener(this); buttonrestart.addActionListener(this); buttonduplicate.addActionListener(this); buttonassist.addActionListener(this); buttonpause.addActionListener(this); buttonhide.addActionListener(this); quit=false; // signals the Threads that they should exit if (args.length != 0) { //print("Starting title updater"); new Thread("Console Title Updater :)") { public void run() { if (args.length != 0) { int i = 0; while (i < args.length && !isSnippetID(args[i])) { if (eq(args[i], "-case")) ++i; ++i; } //print("Getting title for " + args[i]); title = getSnippetTitle(get(args, i)); //print("Title: " + title); if (title != null && title.length() != 0) frame.setTitle(title + " [Output]"); } } }.start(); } System.setIn(pin3); } void scrollToBottomLater { awt { scrollToBottom(); } } void scrollToBottom { JScrollBar vertical = scrollPane.getVerticalScrollBar(); vertical.setValue(vertical.getMaximum()); } /*public synchronized void windowClosed(WindowEvent evt) { console = null; //quit=true; //this.notifyAll(); // stop all threads //try { reader.join(1000);pin.close(); } catch (Exception e){} //try { reader2.join(1000);pin2.close(); } catch (Exception e){} //System.exit(0); }*/ /*public synchronized void windowClosing(WindowEvent evt) { frame.setVisible(false); // default behaviour of JFrame frame.dispose(); }*/ public synchronized void actionPerformed(ActionEvent evt) { if (evt.getSource() == buttonkill) { cleanKillVM_noSleep(); } else if (evt.getSource() == buttonrestart) { cleanRestart(args); } else if (evt.getSource() == buttonduplicate) { print("Console: Duplicate button pressed."); nohupJavax(smartJoin(args)); } else if (evt.getSource() == buttonassist) { assist(); } else if (evt.getSource() == buttonpause) { O mainClass = getMainMainClass(); if (mainClass != null) { if (eq(buttonpause.getText(), "pause")) { buttonpause.setText("resume"); pauseAll(true); } else { buttonpause.setText("pause"); pauseAll(false); } } } else if (evt.getSource() == buttonhide) { hideConsole(); } else { // clear log if (logView != null) logView.setText(""); buf = new StringBuffer(); } } void showConsole() { swing { if (!frame.isVisible()) { makeFrameVisible(frame); du.trigger(); } } } void hideConsole() { autoVMExit(); frame.setVisible(false); } public void appendText(String s, boolean outNotErr) { //if (verbose) oldOut.println("Console appendText " + outNotErr + " " + quote(s)); synchronized(buf) { buf.append(s); } du.trigger(); } } // Console static void tryToOpenConsole(String[] args) { try { if (isHeadless()) ret; swing { if (console == null) console = new Console(args); } } catch (HeadlessException e) { // ok, we're headless. } catch (Throwable e) { // some other error in console - continue without it printStackTrace(e); } } //// END CONSOLE STUFF static long now_virtualTime; static long now() { return now_virtualTime != 0 ? now_virtualTime : System.currentTimeMillis(); } static <A> A print(A a) { System.out.println(a); ret a; } static void print_noNewLine(String s) { System.out.print(s); } static void print() { print(""); } static <A> A print(S s, A o) { print((endsWithLetterOrDigit(s) ? s + ": " : s) + o); ret o; } static runnable class StdOutPiper { try { new UTF8Processor p; while (Thread.currentThread()==reader) { sleep(pipeDelay); if (pin.available()!=0) { String input=readLineThroughUTF8Processor(p, pin); //if (verbose) oldOut.println("reader: " + quote(input)); appendText(input, true); } if (quit) return; } while (Thread.currentThread()==reader2) { sleep(pipeDelay); if (pin2.available()!=0) { String input=readLineThroughUTF8Processor(p, pin2); //if (verbose) oldOut.println("reader2: " + quote(input)); appendText(input, false); } if (quit) return; } } catch (Exception e) { appendText("\nConsole reports an Internal error.", false); appendText("The error is: "+e, false); } } static void redirectSystemOutAndErr() { if (reader != null) return; // did this already StdOutPiper _this = new StdOutPiper; if (verbose) print("Redirecting System.out"); try { PipedOutputStream pout=new PipedOutputStream(pin); oldOut = System.out; TeeOutputStream tee = new TeeOutputStream(oldOut, pout); System.setOut(new PrintStream(tee,true)); } catch (Exception io) { System.err.println("Couldn't redirect STDOUT - " + io.getMessage()); } if (verbose) System.out.println("Redirecting System.err"); try { PipedOutputStream pout2=new PipedOutputStream(pin2); oldErr = System.err; TeeOutputStream tee = new TeeOutputStream(oldErr, pout2); System.setErr(new PrintStream(tee,true)); } catch (Exception io) { System.err.println("Couldn't redirect STDERR - " + io.getMessage()); } if (verbose) System.out.println("Redirects done. Starting readers"); // Starting two seperate threads to read from the PipedInputStreams // reader=new Thread(_this, "StdOut Piper"); reader.setDaemon(true); reader.start(); // reader2 = new Thread(_this, "StdErr Piper"); reader2.setDaemon(true); reader2.start(); } static Appendable customSystemOut; static StringBuffer outBuf; // optional all-logging static new ArrayDeque<S> systemInBuf; static void appendText(String s, boolean outNotErr) { if (empty(s)) ret; // We do this with a TeeOutputStream now (safer). // (outNotErr ? oldOut : oldErr).print(s); if (console != null) console.appendText(s, outNotErr); if (outBuf != null) outBuf.append(s); if (customSystemOut != null) try { customSystemOut.append(s); } catch (IOException e) { printStackTrace(e); } } /*static String readLine(PipedInputStream in) throws IOException { new StringBuilder input; do { int available=in.available(); if (available==0) break; byte b[]=new byte[available]; in.read(b); S s = new String(b,0,b.length); input.append(s); if (s.contains("\n")) break; // }while( !input.endsWith("\n") && !input.endsWith("\r\n") && !quit); } while (!quit); return str(input); }*/ static void autoReportToChat() { if (customSystemOut == null) { print("Auto-reporting to chat."); customSystemOut = new Appendable() { LineBuf buf = new LineBuf(); // only using this one public Appendable append(CharSequence cs) { buf.append(cs.toString()); while (true) { String s = buf.nextLine(); if (s == null) break; reportToChat(s, true); } return this; } public Appendable append(char c) { return this; } public Appendable append(CharSequence s, int start, int end) { return this; } }; } } static void reportToChat(final String s, boolean silent) { if (s == null || s.length() == 0) return; if (!silent) print("reportToChat: " + quote(s)); reportToChat_getChatThread().add(new Runnable() { public void run() { try { startChatServerIfNotUp(); waitForChatServer(); chatSend(s); } catch (Exception __e) { throw __e instanceof RuntimeException ? (RuntimeException) __e : new RuntimeException(__e); }}}); } static Q reportToChat_q; static Q reportToChat_getChatThread() { if (reportToChat_q == null) reportToChat_q = new Q("reportToChat"); return reportToChat_q; } static void startChatServerIfNotUp() { if (portIsBound(9751)) { //print("Chat seems to be up."); } else { nohupJavax("1000867"); print("Chat server should be coming up any minute now."); } } static void waitForChatServer() { if (!portIsBound(9751)) { //System.out.print("Waiting for chat server... "); do { sleep(1000); } while (!portIsBound(9751)); //print("OK."); } } static boolean portIsBound(int port) { try { ServerSocket s = new ServerSocket(port); s.close(); return false; } catch (IOException e) { return true; } } static class LineBuf { StringBuffer buf = new StringBuffer(); void append(String s) { buf.append(s); } String nextLine() { int i = buf.indexOf("\n"); if (i >= 0) { String s = buf.substring(0, i > 0 && buf.charAt(i-1) == '\r' ? i-1 : i); buf.delete(0, i+1); return s; } return null; } } // LineBuf !include #1000937 // chatSend static class TeeOutputStream extends OutputStream { protected OutputStream out, branch; public TeeOutputStream( OutputStream out, OutputStream branch ) { this.out = out; this.branch = branch; } @Override public synchronized void write(byte[] b) throws IOException { write(b, 0, b.length); } @Override public synchronized void write(byte[] b, int off, int len) throws IOException { //if (verbose) oldOut.println("Tee write " + new String(b, "UTF-8")); out.write(b, off, len); this.branch.write(b, off, len); } @Override public synchronized void write(int b) throws IOException { write(new byte[] {(byte) b}); } /** * Flushes both streams. * @throws IOException if an I/O error occurs */ @Override public void flush() throws IOException { out.flush(); this.branch.flush(); } /** * Closes both streams. * @throws IOException if an I/O error occurs */ @Override public void close() throws IOException { out.close(); this.branch.close(); } } static boolean isChatServer(String[] args) { for (int i = 0; i < args.length; i++) if (isSnippetID(args[i])) return parseSnippetID(args[i]) == 1000867; return false; } static void listUserThreadsWithStackTraces() { print(""); Map<Thread, StackTraceElement[]> threadMap = Thread.getAllStackTraces(); int n = 0; for (Thread t : threadMap.keySet()) { ThreadGroup g = t.getThreadGroup(); if (g != null && g.getName().equals("system")) continue; ++n; print(t); for (StackTraceElement e : threadMap.get(t)) { print(" " + e); } print(""); } print(n + " user threads."); } static void makeVMAndroid() { Android3 a = new Android3("This is a JavaX VM."); a.responder = new Responder() { S answer(S s, L<S> history) { return x30.answer(s, history); } }; a.daemon = true; a.console = false; a.incomingSilent = true; // to avoid too much printing a.useMultiPort = false; a.quiet = true; makeAndroid3(a); new MultiPort; // auto-add multi-port sendOptInNewThreadQuietly("VM Lister.", "started vm * *", vmPort(), vmID()); } static class Info { S programID; S[] programArgs; File transpiledSrc; Class mainClass; } static new Info info; // hmm... // injectable info static new L<PaA> injectable_programsInjected; static boolean injectable_on = true; static class PaA { // "Program and Arguments" S injectionID; S progID; S[] arguments; transient Class mainClass; // TODO: release eventually... transient WeakReference<Thread> mainThread; volatile boolean mainDone; transient volatile Throwable exception; S srcMD5; *(S *progID, S[] *arguments) {} *() {} } static S vmID = makeRandomID(10); static synchronized void addInjection(PaA paa) { injectable_programsInjected.add(paa); } static synchronized void removeInjection(PaA paa) { cleanUp(paa.mainClass); injectable_programsInjected.remove(paa); } static synchronized L<PaA> getInjections() { ret cloneList(injectable_programsInjected); } static S answer(S s, L<S> history) ctex { new Matches m; if (match3("kill!", s)) { cleanKill(); return "ok"; } if (match3("restart", s)) { cleanRestart(fullArgs); ret "ok"; } if (match3("What is your process ID?", s) || match3("what is your pid?", s)) return getPID(); if (match3("get vm id", s)) return vmID; if (match3("what is the javax program id?", s)) return javaxProgramID; if (match3("what is the main program id?", s)) return info.programID; if (match3("what are your program arguments?", s)) return structure(info.programArgs); if (match3("get output", s)) return outBuf != null ? quote(outBuf.toString()) : "Not logged"; if (match3("get output length", s)) return outBuf != null ? "" + outBuf.length() : "Not logged"; if (match3("get output substring from *", s, m)) return quote(outBuf.substring(parseInt(m.get(0)))); if (match3("get output substring from * to *", s, m)) return quote(outBuf.substring(parseInt(m.get(0)), parseInt(m.get(1)))); if (match3("clear output", s)) { synchronized(x30.class) { int len = outBuf.length(); outBuf.setLength(0); outBuf.trimToSize(); return "OK, deleted " + len + " chars."; } } if (match3("send line * to system.in", s, m)) { S line = m.unq(0); synchronized(x30.class) { systemInBuf.add(line); } ret "ok"; } if (match3("get fields of main class", s)) return structure(listFields(info.mainClass)); if (match3("get field * of main class", s, m)) return structure(get(info.mainClass, m.m[0])); if (match3("invoke function * of main class", s, m)) return structure(call(info.mainClass, m.m[0])); if (match3("set field * of main class to *", s, m)) { set(info.mainClass, m.m[0], unstructure(m.m[1])); return "ok"; } if (match3("how much memory are you consuming", s)) return "Java heap size: " + (Runtime.getRuntime().totalMemory()+1024*1024-1)/1024/1024 + " MB"; if (match3("how much memory is used after GC?", s)) { gc(); return "Java heap used: " + (Runtime.getRuntime().totalMemory()-Runtime.getRuntime().freeMemory()+1024*1024-1)/1024/1024 + " MB"; } if (match3("how much memory is used?", s)) return "Java heap used: " + (Runtime.getRuntime().totalMemory()-Runtime.getRuntime().freeMemory()+1024*1024-1)/1024/1024 + " MB"; if (match3("please run program *", s, m) || match3("please run program * with arguments *", s, m)) { final S progID = $1; final S[] arguments = m.m.length > 1 ? toStringArray(unstructure($2)) : new S[0]; final PaA paa = preInjectProgram(progID, arguments); // program runs in same thread paaRun(paa); Throwable error = paa.exception; O result = getOpt(paa.mainClass, "result"); removeInjection(paa); ret error != null ? "Runtime Error: " + getStackTrace(error) : "OK " + struct(result); } if (match3("please inject program *", s, m) || match3("please inject program * with arguments *", s, m)) { final S progID = $1; final S[] arguments = m.m.length > 1 ? toStringArray(unstructure($2)) : new S[0]; final PaA paa = preInjectProgram(progID, arguments); // program may run in its own thread. thread progID { paaRun(paa); } ret format3("OK. Injection ID: *", paa.injectionID); } if (match3("get injection exception *", s, m)) { S injectionID = unquote(m.m[0]); PaA paa = findInjection(injectionID); if (paa == null) ret "Sorry. Injection not found"; ret "OK: " + paa.exception == null ? "no exception" : getStackTrace(paa.exception); } if (match3("get injection * variable *", s, m)) { S injectionID = unquote(m.m[0]); S var = unquote(m.m[1]); PaA paa = findInjection(injectionID); if (paa == null) ret "Sorry. Injection not found"; ret "OK: " + structure(getOpt(paa.mainClass, var)); } if (match3("get injection result *", s, m)) { S injectionID = unquote(m.m[0]); PaA paa = findInjection(injectionID); if (paa == null) ret "Sorry. Injection not found"; ret "OK: " + structure(getOpt(paa.mainClass, "result")); } if (match3("is injection's * main done", s, m)) { S injectionID = unquote(m.m[0]); PaA paa = findInjection(injectionID); if (paa == null) ret "Sorry. Injection not found"; ret paa.mainDone ? "Yes." : "No."; } if (match3("get injections", s, m)) { ret structure(getInjections()); } if (match3("remove injection *", s, m)) { S injectionID = unquote(m.m[0]); PaA paa = findInjection(injectionID); if (paa == null) ret "Sorry. Injection not found"; removeInjection(paa); ret "OK, removed."; } if (match3("which programs are you running (ids only)", s, m)) { synchronized(x30.class) { new L<S> l; for (S progID : instances.keySet()) if (getInstance(progID) != null) l.add(progID); return format3("these: *", structure(l)); } } if "show console" ret _showConsole(); if "hide console" { if (console != null) { console.hideConsole(); ret "ok"; } ret "no console"; } L multiPorts = getMultiPorts(); if (!multiPorts.isEmpty()) { O multiPort = multiPorts.get(0); S answer = makeResponder(multiPort).answer(s, history); if (answer != null) ret answer; } if "list bots" ret structure(litmap()); if "get last files written" ret structure(cloneList(lastFilesWritten)); if "dump heap to *" { dumpHeap(new File(assertAbsolutePath($1))); ret "OK"; } if "prepare for javax upgrade" { loadMyClasses(); ret "OK"; } if "invoke ecj on options file *" { long time = sysNow(); print("Invoking ECJ: " + $1); S answer = "ok " + invokeEcj(new File($1)); done2(time, "ecj"); ret answer; } // These don't show or hide any windows; it's just a flag // that says whether the VM is allowed to run without any // windows. // This does hide the console actually if "hidden vm yes" { hideVM(); ret "OK"; } if "hidden vm no" { hiddenVM = false; sendOpt("VM Lister.", "unhiding vm " + vmPort()); ret "OK"; } if "is hidden vm" ret yn(hiddenVM); if "vm start date" ret str(vmStarted); if "gc" ret "OK" with timedGC(); if "all loaded program jars" ret struct(allLoadedProgramJars()); if "all loaded library jars" ret struct(allLoadedLibraryJars()); if "stack traces" ret renderAllThreadsWithStackTraces(); null; } static void loadMyClasses() { for (S name : classNamesInJarOrDir(javaxJarPath())) pcall-silent { Class.forName(name); } } static synchronized PaA findInjection(S injectionID) { for (PaA paa : injectable_programsInjected) if (eq(paa.injectionID, injectionID)) ret paa; ret null; } static new AtomicBoolean readLine_used; static BufferedReader readLine_reader; static bool readLine_noReadLine; sbool quietLoading, verboseIllegal; static synchronized S pollSystemInBuf() { ret systemInBuf.poll(); } static S readLine() { ret readLine(false); } static S readLine(bool quiet) ctex { if (!readLine_used.compareAndSet(false, true)) throw fail("readLine is in use."); try { while (true) { S s = pollSystemInBuf(); if (s != null) { print(s); ret s; } if (readLine_reader == null) readLine_reader = new BufferedReader(new InputStreamReader(System.in, "UTF-8")); // XX - is that right? if (!readLine_reader.ready()) sleep(100); else { s = readLine_reader.readLine(); if (s != null) { if (!quiet) print(s); ret s; } } } } finally { readLine_used.set(false); } } static new HashMap<S, WeakReference> weakrefs; // static new WeakIdentityHashMap<O, S> reverseWeakrefs; static long weakRefCounter; // TODO: lookup in reverse map static synchronized S weakref(O o) { if (o == null) ret "null"; S id = vmID + "/" + ++weakRefCounter; weakrefs.put(id, new WeakReference(o)); ret id; } static synchronized O getRef(S id) { // TODO: clean up the list some time WeakReference ref = weakrefs.get(id); if (ref == null) ret null; ret ref.get(); } static new L<O> multiPorts; static synchronized L<O> getMultiPorts() { ret cloneList(multiPorts); } // true if you're the first one static synchronized boolean addMultiPort(O o) { multiPorts.add(o); /*if (multiPorts.size() == 1) { thread "keep alive" { x30.sleep(); } // keep VM alive since there is a multiport }*/ ret multiPorts.size() == 1; } static synchronized void removeMultiPort(O o) { multiPorts.remove(o); } static S getInjectionID(Class mainClass) { L<PaA> l = getInjections(); for (PaA injection : l) if (injection.mainClass == mainClass) ret injection.injectionID; ret null; } static S getInjectionID() { return null; } // used somewhere... static void sleep(long ms) { try { Thread.sleep(ms); } catch (Exception e) { throw new RuntimeException(e); } } static void sleep() ctex { print("Sleeping."); synchronized(x30.class) { x30.class.wait(); } } static Map<Class, S> classToSourceCode = newWeakHashMap(); synchronized static void registerSourceCode(Class c, S src) { classToSourceCode.put(c, src); } synchronized static S getSourceCodeForClass(Class c) { ret classToSourceCode.get(c); } static void autoScroll(boolean on) { if (console == null) ret; console.autoScroll = on; if (on) console.scrollToBottomLater(); } // get main class of first program (for console) static Class getMainMainClass() { PaA paa = first(getInjections()); ret paa == null ? null : paa.mainClass; } // program ID of first program loaded static S mainProgramID() { PaA paa = first(getInjections()); ret paa == null ? null : paa.progID; } static bool _inCore() { ret true; } static int cleanKillTimeout = 60000; static volatile bool killing; sbool preKill_verbose = false; sbool sendKillNotice = false; static void preKill() { if (killing) ret; killing = true; directNohupJava_loggingOn = false; final new Flag flag; thread "Cleaning" { try { new HashSet<Class> cleanedUp; if (preKill_verbose) print("Cleaning up injections"); for (PaA p : getInjections()) if (cleanedUp.add(p.mainClass)) preKill_cleanUp(p.mainClass); if (preKill_verbose) print("Cleaning up main classes"); for (Class c : allMainClasses()) if (cleanedUp.add(c)) preKill_cleanUp(c); if (preKill_verbose) print("Clean-up done"); } finally { flag.raise(); } } if (sendKillNotice) { if (verbose || preKill_verbose) print("Sending kill notice to vm lister"); evalWithTimeout(1.0, r { sendOptQuietly("VM Lister.", "killing vm " + vmPort()) }); } if (verbose) print("Waiting for clean kill flag with timeout " + cleanKillTimeout); flag.waitUntilUp(cleanKillTimeout); if (verbose) print("Clean kill flag up (or timeout)"); } svoid preKill_cleanUp(O o) { S programID = null; if (preKill_verbose) { programID = (S) getOpt(o, 'programID); print("prekill: Cleaning " + o + " (" + programID + ")"); } cleanUp(o); if (preKill_verbose) print("prekill: Cleaned " + programID); } static void cleanRestart(final S[] args) { print("\nClean-restarting myself."); thread "Clean Restart" { preKill(); nohupJavax(smartJoin(args), fullVMArguments()); System.exit(0); } } sS cleanKillMsg = "\nClean exit\n"; svoid cleanKill() { print_noNewLine(cleanKillMsg); thread "Clean Kill" { preKill(); System.exit(0); } } static void pauseAll(bool b) { for (PaA injection : getInjections()) setOpt(injection.mainClass, "ping_pauseAll", b); } static Class mc() { return x30.class; } static Class getMainClass() { return x30.class; } static Class getMainClass(O o) ctex { ret (o instanceof Class ? (Class) o : o.getClass()).getClassLoader().loadClass("main"); } static class FileAccess { S path; long time; *(S *path) { time = now(); } } static L<FileAccess> lastFilesWritten = synchroList(); static int lastFilesWritten_max = 5; static void registerIO(O o, S path, bool forWriting) { if (forWriting) recordWriteAccess(path); } static void recordWriteAccess(S path) { synchronized(lastFilesWritten) { trimListToSizeInFront(lastFilesWritten, lastFilesWritten_max); lastFilesWritten.add(new FileAccess(new File(path).getAbsolutePath())); } } static L<S> lastURLsOpened = synchroList(); static int lastURLsOpened_max = 10; static volatile long urlsOpenedCounter; static void recordOpenURLConnection(S url) { url = hideCredentials(url); synchronized(lastURLsOpened) { urlsOpenedCounter++; trimListToSizeInFront(lastURLsOpened, lastURLsOpened_max); lastURLsOpened.add(url); } } static void dropIO(O o) {} // for the "assist" button static Class include(S progID) { Class c = hotwire(progID); setOpt(c, "programID", mainProgramID()); ret c; } static void reRunMain { final PaA paa = first(getInjections()); if (paa != null) { if (!paa.mainDone) print("Main still running"); else { paa.mainDone = false; S progID = paa.progID; thread progID { print(); paaRun(paa); System.out.println(paa.exception != null ? "[main done with error]" : "[main done]"); } } } } !include #1000963 // hotwire !include #1001372 // nohupJavax volatile sbool consoleUpdateOff; // static Map<Class, L<Thread>> mainThreads = newWeakHashMap(); static synchronized PaA preInjectProgram(S progID, S[] arguments) { progID = fsI(progID); PaA paa = new PaA(progID, arguments); paa.injectionID = randomID(8); addInjection(paa); // better call JavaX for translation in a single thread. paa.mainClass = hotwire(progID); ret paa; } please include function startDeadlockDetector. static Map<Class, Bool> allMainClasses = newWeakHashMap(); static void registerAMainClass(Class c) { allMainClasses.put(c, Boolean.TRUE); } static L<Class> allMainClasses() { ret asList(keys(cloneMap(allMainClasses))); } svoid hideVM { hiddenVM = true; sendOpt("VM Lister.", "hiding vm " + vmPort()); hideConsole(); } static void vmKeep_store(S programID, S programMD5, S var, S structure) { lock vmKeep_lock; programID = fsI(programID); VMKeep data = vmKeep.get(programID); if (data == null || neq(data.programMD5, programMD5)) vmKeep.put(programID, data = nu(VMKeep, +programMD5)); data.vars.put(var, structure); } static S vmKeep_get(S programID, S programMD5, S var) { lock vmKeep_lock; programID = fsI(programID); VMKeep data = vmKeep.get(programID); if (data == null) null; if (neq(data.programMD5, programMD5)) { vmKeep.remove(programID); null; } ret data.vars.get(var); } static JButton consoleButton(S text) { ret setHorizontalMargin(0, jbutton(text)); } // value = true (dangerous) or init function (dangerous) or false (not dangerous) static WeakIdentityHashMap<Map, O> weakMaps; static bool weakMaps_initing, weakMaps_debug; static WeakIdentityHashMap<Cl, O> weakCollections; static <A extends Map> A _registerWeakMap(A o) { ret _registerWeakMap(o, false); } static <A extends Map> A _registerDangerousWeakMap(A o) { ret _registerWeakMap(o, true); } static <A extends Map> A _registerDangerousWeakMap(A o, O init) { ret _registerWeakMap(o, init == null ? true : init); } static <A extends Map> A _registerWeakMap(A o, O init) { if (weakMaps == null) { if (weakMaps_debug) print("_registerWeakMap init cycle"); if (weakMaps_initing) ret o; weakMaps_initing = true; weakMaps = newWeakIdentityHashMap(); weakMaps_initing = false; } synchronized(weakMaps) { if (weakMaps_debug) print("_registerWeakMap adding " + getClassName(o) + ", size=" + l(weakMaps)); O result = weakMaps.put(o, init); if (weakMaps_debug) print("_registerWeakMap added. " + result + ", size=" + l(weakMaps)); } ret o; } static <A extends Cl> A _registerWeakCollection(A o) { if (weakCollections == null) { if (weakMaps_debug) print("_registerWeakCollection init cycle"); weakCollections = newWeakIdentityHashMap(); } synchronized(weakCollections) { if (weakMaps_debug) print("_registerWeakCollection adding " + getClassName(o) + ", size=" + l(weakCollections)); // there are dangerous weak maps (when a value hard-references // its key), but there are no dangerous weak collections. // so the value here is always "false" O result = weakCollections.put(o, false); if (weakMaps_debug) print("_registerWeakCollection added. " + result + ", size=" + l(weakCollections)); } ret o; } static void cleanWeakMaps() { pcall { cleanWeakCollections(); new L<Map> maps; new Map<Map, O> dangerousMaps; if (weakMaps == null) ret; synchronized(weakMaps) { for (Map map : keys(weakMaps)) { // This cleans the weakMaps map itself O init = weakMaps.get(map); if (eq(init, false)) maps.add(map); else dangerousMaps.put(map, init); } if (weakMaps_debug) print("cleanWeakMaps: got " + l(maps)); } for (Map o : maps) pcall { cleanWeakMap(o); } for (Map o : keys(dangerousMaps)) pcall { synchronized(o) { o.clear(); O init = dangerousMaps.get(o); //print("Calling init on dangerous map: " + init + " / " + className(o)); if (!init instanceof Bool) callF(init, o); } } }} static void cleanWeakCollections() { pcall { new L<Cl> collections; if (weakCollections == null) ret; synchronized(weakCollections) { for (Cl cl : keys(weakCollections)) { // This cleans the weakCollections map itself O init = weakCollections.get(cl); collections.add(cl); } if (weakMaps_debug) print("cleanWeakCollections: got " + l(collections)); } for (Cl o : collections) pcall { cleanWeakCollection(o); } }} svoid setVarDialog { final Class c = getMainMainClass(); final JComboBox cb = jcombobox(staticFieldNames(c)); final JTextField tf = jtextfield(); showFormTitled("Set variable", "Name", cb, "Value", tf, func { try { S var = getSelectedItem(cb), value = getText(tf); set(c, var, unstructure(value)); infoBox("Variable " + var + " set to " + value + "!"); } catch e { messageBox(e); false; } null; }); } please include function findTranslators. // 1006722 calls this // VM-wide FAST string interning (need to expose to programs per interface for more speed) please include function internPerProgram. please include function setGCFrequency. please include function noRegularGC. please include function myTranspilationDate. // for programs: please include function newWeakHashMap. please include function print_append. please include function get. please include function getOpt. please include function callF. please include function call. please include function fixNewLines. !include once #1016423 // _handleError (core version) //please include function substance. static Thread _registerThread(Thread t) { ret t; } svoid _registerThread() {} static Thread _unregisterThread(Thread t) { ret t; } svoid _unregisterThread() {} static Map<Thread, Bool> _registerThread_threads; svoid failIfUnlicensed() {} sS _showConsole() { if (console == null) tryToOpenConsole(new S[0]); if (console != null) { console.showConsole(); ret "ok"; } ret "no console"; } please include function loadNativeLibrary. static Map vm_generalMap() { ret generalMap; } // can't do newPing stuff in x30 because we can't see x30_pkg.x30_util.BetterThreadLocal //static BetterThreadLocal<Runnable> newPing_actionTL() { null; } svoid newPing() {} } // end of class x30
Began life as a copy of #1001600
download show line numbers debug dex old transpilations
Travelled to 21 computer(s): aoiabmzegqzx, bhatertpkbcr, cbybwowwnfue, cfunsshuasjs, ddnzoavkxhuk, gwrvuhgaqvyk, irmadwmeruwu, ishqpsrjomds, lpdgvwnxivlt, mowyntqkapby, mqqgnosmbjvj, nysugtttblhj, omdjrrnzbjjv, onxytkatvevr, podlckwnjdmb, pyentgdyhuwx, pzhvpgtvlbxg, tslmcundralx, tvejysmllsmz, vouqrxazstgt, xrpafgyirdlv
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