import java.io.*; import java.lang.reflect.*; import java.net.BindException; import java.net.ServerSocket; import java.net.Socket; import java.nio.file.Files; import java.util.*; import java.util.concurrent.atomic.AtomicInteger; import java.util.function.Supplier; import sun.misc.Unsafe; // the Safe /** * @author TudbuT * @since 04 Mar 2022 */ public class ISBPL { // TODO: fully implement JIO // public static final boolean ENABLE_JINTEROP = true; static Unsafe theSafe; static { try { Field f = Unsafe.class.getDeclaredField("theUnsafe"); f.setAccessible(true); theSafe = (Unsafe) f.get(null); } catch (Throwable e) { throw new Error(e); } } static boolean debug = false, printCalls = false; public ISBPLDebugger.IPC debuggerIPC = new ISBPLDebugger.IPC(); ArrayList types = new ArrayList<>(); ISBPLFrame level0 = new ISBPLFrame(this); final ISBPLThreadLocal> fileStack = ISBPLThreadLocal.withInitial(Stack::new); final ISBPLThreadLocal> frameStack = ISBPLThreadLocal.withInitial(() -> { Stack frames = new Stack<>(); frames.push(level0); return frames; }); final ISBPLThreadLocal> lastWords = ISBPLThreadLocal.withInitial(() -> new ArrayList<>(16)); int exitCode; private final ISBPLStreamer streamer = new ISBPLStreamer(this); ArrayList included = new ArrayList<>(); HashMap natives = new HashMap<>(); private final Object syncMakeThread = new Object(); private ISBPLKeyword getKeyword(String word) { switch (word) { case "native": return (idx, words, file, stack) -> { idx++; addNative(words[idx]); return idx; }; case "func": return (idx, words, file, stack) -> createFunction(idx, words, file); case "def": return (idx, words, file, stack) -> { idx++; frameStack.get().peek().define(words[idx], getNullObject()); return idx; }; case "if": return (idx, words, file, stack) -> { idx++; AtomicInteger i = new AtomicInteger(idx); ISBPLCallable callable = readBlock(i, words, file); if(stack.pop().isTruthy()) { callable.call(stack); } return i.get(); }; case "while": return (idx, words, file, stack) -> { idx++; AtomicInteger i = new AtomicInteger(idx); ISBPLCallable cond = readBlock(i, words, file); i.getAndIncrement(); ISBPLCallable block = readBlock(i, words, file); cond.call(stack); while (stack.pop().isTruthy()) { block.call(stack); cond.call(stack); } return i.get(); }; case "stop": return (idx, words, file, stack) -> { ISBPLObject o = stack.pop(); o.checkType(getType("int")); throw new ISBPLStop((int) o.object); }; case "try": return (idx, words, file, stack) -> { idx++; ISBPLObject array = stack.pop(); array.checkTypeMulti(getType("array"), getType("string")); String[] allowed; if(array.type.name.equals("string")) { allowed = new String[] { toJavaString(array) }; } else { ISBPLObject[] arr = ((ISBPLObject[]) array.object); allowed = new String[arr.length]; for (int i = 0 ; i < arr.length ; i++) { allowed[i] = toJavaString(arr[i]); } } AtomicInteger i = new AtomicInteger(idx); ISBPLCallable block = readBlock(i, words, file); i.getAndIncrement(); ISBPLCallable catcher = readBlock(i, words, file); int stackHeight = stack.size(); try { block.call(stack); } catch (ISBPLError error) { if(stack.size() > stackHeight) { stack.setSize(stackHeight); stack.trimToSize(); } while(stack.size() < stackHeight) { stack.push(getNullObject()); } if (Arrays.asList(allowed).contains(error.type) || allowed.length == 1 && allowed[0].equals("all")) { stack.push(toISBPLString(error.message)); stack.push(toISBPLString(error.type)); catcher.call(stack); } else { throw error; } } catch (Exception e) { if(stack.size() > stackHeight) { stack.setSize(stackHeight); stack.trimToSize(); } while(stack.size() < stackHeight) { stack.push(getNullObject()); } if (Arrays.asList(allowed).contains("Java") || allowed.length == 1 && allowed[0].equals("all")) { stack.push(toISBPL(e)); stack.push(toISBPLString(e.getClass().getName())); stack.push(toISBPLString("Java")); } else { throw e; } } return i.get(); }; case "do": return (idx, words, file, stack) -> { idx++; AtomicInteger i = new AtomicInteger(idx); ISBPLCallable block = readBlock(i, words, file); i.getAndIncrement(); ISBPLCallable catcher = readBlock(i, words, file); try { block.call(stack); } finally { catcher.call(stack); } return i.get(); }; // Returns closed function (func behaviour) case "{": return (idx, words, file, stack) -> { AtomicInteger i = new AtomicInteger(idx); ISBPLCallable block = readBlock(i, words, file); stack.push(new ISBPLObject(getType("func"), block)); return i.get(); }; case "fork": return (idx, words, file, stack) -> { synchronized(syncMakeThread) { idx++; AtomicInteger i = new AtomicInteger(idx); Stack s = new ISBPLStack<>(); for(ISBPLObject obj : stack) { s.push(obj); } ISBPLCallable block = readBlock(i, words, file); long tid = Thread.currentThread().getId(); Stack fstack = (Stack) frameStack.get().clone(); new Thread(() -> { debuggerIPC.run.put(Thread.currentThread().getId(), debuggerIPC.run.getOrDefault(tid, -1) == -1 ? -1 : 0); debuggerIPC.stack.put(Thread.currentThread().getId(), s); frameStack.set(fstack); try { block.call(s); } catch (ISBPLStop stop) { if(stop.amount == -1) { System.exit(exitCode); } } catch (ISBPLError err) { if(err.type.equals("Java")) ((Throwable)s.pop().object).printStackTrace(); else throw err; } }).start(); return i.get(); } }; default: return null; } } @SuppressWarnings("RedundantCast") private void addNative(String name) { ISBPLCallable func; switch (name) { case "alen": func = (Stack stack) -> { ISBPLObject o = stack.pop(); o.checkType(getType("array")); stack.push(new ISBPLObject(getType("int"), ((ISBPLObject[]) o.object).length)); }; break; case "aget": func = (Stack stack) -> { ISBPLObject i = stack.pop(); ISBPLObject o = stack.pop(); i.checkType(getType("int")); o.checkType(getType("array")); stack.push(((ISBPLObject[]) o.object)[((int) i.object)]); }; break; case "aput": func = (Stack stack) -> { ISBPLObject toPut = stack.pop(); ISBPLObject i = stack.pop(); ISBPLObject o = stack.pop(); i.checkType(getType("int")); o.checkType(getType("array")); ((ISBPLObject[]) o.object)[((int) i.object)] = toPut; }; break; case "anew": func = (Stack stack) -> { ISBPLObject i = stack.pop(); i.checkType(getType("int")); ISBPLObject[] arr = new ISBPLObject[((int) i.object)]; for (int j = 0 ; j < arr.length ; j++) { arr[j] = getNullObject(); } stack.push(new ISBPLObject(getType("array"), arr)); }; break; case "_array": func = (Stack stack) -> { ISBPLObject a = stack.pop(); if(a.type.equals(getType("array"))) stack.push(a); else if(a.object instanceof ISBPLObject[]) stack.push(new ISBPLObject(getType("array"), a.object)); else typeError(a.type.name, "array"); }; break; case "_char": func = (Stack stack) -> { ISBPLObject o = stack.pop(); o.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); stack.push(new ISBPLObject(getType("char"), ((char) o.toLong()))); }; break; case "_byte": func = (Stack stack) -> { ISBPLObject o = stack.pop(); o.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); stack.push(new ISBPLObject(getType("byte"), ((byte) o.toLong()))); }; break; case "_int": func = (Stack stack) -> { ISBPLObject o = stack.pop(); o.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); stack.push(new ISBPLObject(getType("int"), ((int) o.toLong()))); }; break; case "_float": func = (Stack stack) -> { ISBPLObject o = stack.pop(); o.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); stack.push(new ISBPLObject(getType("float"), ((float) o.toDouble()))); }; break; case "_long": func = (Stack stack) -> { ISBPLObject o = stack.pop(); o.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); stack.push(new ISBPLObject(getType("long"), o.toLong())); }; break; case "_double": func = (Stack stack) -> { ISBPLObject o = stack.pop(); o.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); stack.push(new ISBPLObject(getType("double"), o.toDouble())); }; break; case "ischar": func = (Stack stack) -> { ISBPLObject o = stack.pop(); stack.push(new ISBPLObject(getType("int"), o.type.equals(getType("char")) ? 1 : 0)); }; break; case "isbyte": func = (Stack stack) -> { ISBPLObject o = stack.pop(); stack.push(new ISBPLObject(getType("int"), o.type.equals(getType("byte")) ? 1 : 0)); }; break; case "isint": func = (Stack stack) -> { ISBPLObject o = stack.pop(); stack.push(new ISBPLObject(getType("int"), o.type.equals(getType("int")) ? 1 : 0)); }; break; case "isfloat": func = (Stack stack) -> { ISBPLObject o = stack.pop(); stack.push(new ISBPLObject(getType("int"), o.type.equals(getType("float")) ? 1 : 0)); }; break; case "islong": func = (Stack stack) -> { ISBPLObject o = stack.pop(); stack.push(new ISBPLObject(getType("int"), o.type.equals(getType("long")) ? 1 : 0)); }; break; case "isdouble": func = (Stack stack) -> { ISBPLObject o = stack.pop(); stack.push(new ISBPLObject(getType("int"), o.type.equals(getType("double")) ? 1 : 0)); }; break; case "isarray": func = (Stack stack) -> { ISBPLObject o = stack.pop(); stack.push(new ISBPLObject(getType("int"), o.type.equals(getType("array")) ? 1 : 0)); }; break; case "_layer_call": func = (Stack stack) -> { ISBPLObject i = stack.pop(); ISBPLObject s = stack.pop(); i.checkType(getType("int")); frameStack.get().get(frameStack.get().size() - 1 - ((int) i.object)).resolve(toJavaString(s)).call(stack); }; break; case "reload": func = (Stack stack) -> { String filepath = getFilePathForInclude((Stack) stack, fileStack.get()); File f = new File(filepath).getAbsoluteFile(); try { interpret(f, readFile(f), stack); } catch (IOException e) { throw new ISBPLError("IO", "Couldn't find file " + filepath + " required by reload keyword."); } }; break; case "include": func = (Stack stack) -> { String filepath = getFilePathForInclude((Stack) stack, fileStack.get()); if(!included.contains(filepath)) { File f = new File(filepath).getAbsoluteFile(); try { interpret(f, readFile(f), stack); } catch (IOException e) { throw new ISBPLError("IO", "Couldn't find file " + filepath + " required by include keyword."); } included.add(filepath); } }; break; case "putchar": func = (Stack stack) -> { ISBPLObject c = stack.pop(); c.checkType(getType("char")); System.out.print(((char) c.object)); }; break; case "eputchar": func = (Stack stack) -> { ISBPLObject c = stack.pop(); c.checkType(getType("char")); System.err.print(((char) c.object)); }; break; case "_file": func = (Stack stack) -> { ISBPLObject s = stack.pop(); File f = new File(toJavaString(s)); stack.push(new ISBPLObject(getType("file"), f)); }; break; case "read": func = (Stack stack) -> { ISBPLObject end = stack.pop(); ISBPLObject begin = stack.pop(); ISBPLObject fileToRead = stack.pop(); end.checkType(getType("int")); begin.checkType(getType("int")); fileToRead.checkType(getType("file")); try(FileInputStream f = new FileInputStream((File) fileToRead.object)) { int b = ((int) begin.object); int e = ((int) end.object); byte[] bytes = new byte[e - b]; f.read(bytes, b, e); ISBPLObject[] arr = new ISBPLObject[bytes.length]; for (int i = 0 ; i < arr.length ; i++) { arr[i] = new ISBPLObject(getType("byte"), bytes[i]); } stack.push(new ISBPLObject(getType("array"), arr)); } catch (FileNotFoundException e) { throw new ISBPLError("FileNotFound", "File not found."); } catch (IOException e) { throw new ISBPLError("IO", "File couldn't be read from" + (e.getMessage() != null ? ": " + e.getMessage() : ".")); } }; break; case "flength": func = (Stack stack) -> { ISBPLObject f = stack.pop(); f.checkType(getType("file")); stack.push(new ISBPLObject(getType("int"), ((int) ((File) f.object).length()))); }; break; case "write": func = (Stack stack) -> { ISBPLObject content = stack.pop(); ISBPLObject fileToWrite = stack.pop(); content.checkType(getType("array")); fileToWrite.checkType(getType("file")); throw new ISBPLError("NotImplemented", "_file write is not implemented"); }; break; case "getos": func = (Stack stack) -> { // TODO: This is not done yet, and it's horrible so far. stack.push(toISBPLString("linux")); }; break; case "mktype": func = (Stack stack) -> { ISBPLObject s = stack.pop(); ISBPLType type = registerType(toJavaString(s)); stack.push(new ISBPLObject(getType("int"), type.id)); }; break; case "typename": func = (Stack stack) -> { ISBPLObject i = stack.pop(); i.checkType(getType("int")); stack.push(toISBPLString(types.get(((int) i.object)).name)); }; break; case "gettype": func = (Stack stack) -> { ISBPLObject o = stack.pop(); stack.push(new ISBPLObject(getType("int"), o.type.id)); }; break; case "settype": func = (Stack stack) -> { ISBPLObject i = stack.pop(); ISBPLObject o = stack.pop(); i.checkType(getType("int")); stack.push(new ISBPLObject(types.get(((int) i.object)), o.object)); }; break; case "throw": func = (Stack stack) -> { ISBPLObject message = stack.pop(); ISBPLObject type = stack.pop(); String msg = toJavaString(message); String t = toJavaString(type); throw new ISBPLError(t, msg); }; break; case "exit": func = (Stack stack) -> { ISBPLObject code = stack.pop(); code.checkType(getType("int")); exitCode = ((int) code.object); throw new ISBPLStop(0); }; break; case "eq": func = (Stack stack) -> { ISBPLObject o1 = stack.pop(); ISBPLObject o2 = stack.pop(); stack.push(new ISBPLObject(getType("int"), o1.equals(o2) ? 1 : 0)); }; break; case "gt": func = (Stack stack) -> { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); o1.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); o2.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); stack.push(new ISBPLObject(getType("int"), o1.toDouble() > o2.toDouble() ? 1 : 0)); }; break; case "lt": func = (Stack stack) -> { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); o1.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); o2.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); stack.push(new ISBPLObject(getType("int"), o1.toDouble() < o2.toDouble() ? 1 : 0)); }; break; case "not": func = (Stack stack) -> stack.push(new ISBPLObject(getType("int"), stack.pop().isTruthy() ? 0 : 1)); break; case "neg": func = (Stack stack) -> { ISBPLObject o = stack.pop(); o.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); stack.push(new ISBPLObject(o.type, o.negative())); }; break; case "or": func = (Stack stack) -> { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); if(o1.isTruthy()) stack.push(o1); else stack.push(o2); }; break; case "and": func = (Stack stack) -> { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); // Pushes either 1 or the failed object if (o1.isTruthy()) { if (o2.isTruthy()) stack.push(new ISBPLObject(getType("int"), 1)); else stack.push(o2); } else stack.push(o1); }; break; case "+": func = (Stack stack) -> { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); o1.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); o2.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); Object object1 = o1.object; Object object2 = o2.object; ISBPLObject r = null; if(object1 instanceof Integer && object2 instanceof Integer) { r = new ISBPLObject(getType("int"), (int) ((int) (Integer) object1 + (int) (Integer) object2)); } if(object1 instanceof Long && object2 instanceof Long) { r = new ISBPLObject(getType("long"), (long) ((long) (Long) object1 + (long) (Long) object2)); } if(object1 instanceof Character && object2 instanceof Character) { r = new ISBPLObject(getType("char"), (char) ((char) (Character) object1 + (char) (Character) object2)); } if(object1 instanceof Byte && object2 instanceof Byte) { r = new ISBPLObject(getType("byte"), (byte) (Byte.toUnsignedInt((Byte) object1) + Byte.toUnsignedInt((Byte) object2))); } if(object1 instanceof Float && object2 instanceof Float) { r = new ISBPLObject(getType("float"), (float) ((float) (Float) object1 + (float) (Float) object2)); } if(object1 instanceof Double && object2 instanceof Double) { r = new ISBPLObject(getType("double"), (double) ((double) (Double) object1 + (double) (Double) object2)); } if(r != null) stack.push(r); else typeError(o1.type.name, o2.type.name); }; break; case "-": func = (Stack stack) -> { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); o1.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); o2.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); Object object1 = o1.object; Object object2 = o2.object; ISBPLObject r = null; if(object1 instanceof Integer && object2 instanceof Integer) { r = new ISBPLObject(getType("int"), (int) ((int) (Integer) object1 - (int) (Integer) object2)); } if(object1 instanceof Long && object2 instanceof Long) { r = new ISBPLObject(getType("long"), (long) ((long) (Long) object1 - (long) (Long) object2)); } if(object1 instanceof Character && object2 instanceof Character) { r = new ISBPLObject(getType("char"), (char) ((char) (Character) object1 - (char) (Character) object2)); } if(object1 instanceof Byte && object2 instanceof Byte) { r = new ISBPLObject(getType("byte"), (byte) (Byte.toUnsignedInt((Byte) object1) - Byte.toUnsignedInt((Byte) object2))); } if(object1 instanceof Float && object2 instanceof Float) { r = new ISBPLObject(getType("float"), (float) ((float) (Float) object1 - (float) (Float) object2)); } if(object1 instanceof Double && object2 instanceof Double) { r = new ISBPLObject(getType("double"), (double) ((double) (Double) object1 - (double) (Double) object2)); } if(r != null) stack.push(r); else typeError(o1.type.name, o2.type.name); }; break; case "/": func = (Stack stack) -> { try { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); o1.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); o2.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); Object object1 = o1.object; Object object2 = o2.object; ISBPLObject r = null; if (object1 instanceof Integer && object2 instanceof Integer) { r = new ISBPLObject(getType("int"), (int) ((int) (Integer) object1 / (int) (Integer) object2)); } if (object1 instanceof Long && object2 instanceof Long) { r = new ISBPLObject(getType("long"), (long) ((long) (Long) object1 / (long) (Long) object2)); } if (object1 instanceof Character && object2 instanceof Character) { r = new ISBPLObject(getType("char"), (char) ((char) (Character) object1 / (char) (Character) object2)); } if (object1 instanceof Byte && object2 instanceof Byte) { r = new ISBPLObject(getType("byte"), (byte) (Byte.toUnsignedInt((Byte) object1) / Byte.toUnsignedInt((Byte) object2))); } if (object1 instanceof Float && object2 instanceof Float) { r = new ISBPLObject(getType("float"), (float) ((float) (Float) object1 / (float) (Float) object2)); } if (object1 instanceof Double && object2 instanceof Double) { r = new ISBPLObject(getType("double"), (double) ((double) (Double) object1 / (double) (Double) object2)); } if (r != null) stack.push(r); else typeError(o1.type.name, o2.type.name); } catch (ArithmeticException ex) { throw new ISBPLError("Arithmetic", "Division by 0"); } }; break; case "*": func = (Stack stack) -> { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); o1.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); o2.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); Object object1 = o1.object; Object object2 = o2.object; ISBPLObject r = null; if(object1 instanceof Integer && object2 instanceof Integer) { r = new ISBPLObject(getType("int"), (int) ((int) (Integer) object1 * (int) (Integer) object2)); } if(object1 instanceof Long && object2 instanceof Long) { r = new ISBPLObject(getType("long"), (long) ((long) (Long) object1 * (long) (Long) object2)); } if(object1 instanceof Character && object2 instanceof Character) { r = new ISBPLObject(getType("char"), (char) ((char) (Character) object1 * (char) (Character) object2)); } if(object1 instanceof Byte && object2 instanceof Byte) { r = new ISBPLObject(getType("byte"), (byte) (Byte.toUnsignedInt((Byte) object1) * Byte.toUnsignedInt((Byte) object2))); } if(object1 instanceof Float && object2 instanceof Float) { r = new ISBPLObject(getType("float"), (float) ((float) (Float) object1 * (float) (Float) object2)); } if(object1 instanceof Double && object2 instanceof Double) { r = new ISBPLObject(getType("double"), (double) ((double) (Double) object1 * (double) (Double) object2)); } if(r != null) stack.push(r); else typeError(o1.type.name, o2.type.name); }; break; case "**": func = (Stack stack) -> { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); o1.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); o2.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); Object object1 = o1.object; Object object2 = o2.object; ISBPLObject r = null; if(object1 instanceof Integer && object2 instanceof Integer) { r = new ISBPLObject(getType("int"), (int) Math.pow((int) (Integer) object1, (int) (Integer) object2)); } if(object1 instanceof Long && object2 instanceof Long) { r = new ISBPLObject(getType("long"), (long) Math.pow((long) (Long) object1, (long) (Long) object2)); } if(object1 instanceof Character && object2 instanceof Character) { r = new ISBPLObject(getType("char"), (char) Math.pow((char) (Character) object1, (char) (Character) object2)); } if(object1 instanceof Byte && object2 instanceof Byte) { r = new ISBPLObject(getType("byte"), (byte) Math.pow(Byte.toUnsignedInt((Byte) object1), Byte.toUnsignedInt((Byte) object2))); } if(object1 instanceof Float && object2 instanceof Float) { r = new ISBPLObject(getType("float"), (float) Math.pow((float) (Float) object1, (float) (Float) object2)); } if(object1 instanceof Double && object2 instanceof Double) { r = new ISBPLObject(getType("double"), (double) Math.pow((double) (Double) object1, (double) (Double) object2)); } if(r != null) stack.push(r); else typeError(o1.type.name, o2.type.name); }; break; case "%": func = (Stack stack) -> { try { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); o1.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); o2.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("float"), getType("long"), getType("double")); Object object1 = o1.object; Object object2 = o2.object; ISBPLObject r = null; if (object1 instanceof Integer && object2 instanceof Integer) { r = new ISBPLObject(getType("int"), (int) ((int) (Integer) object1 % (int) (Integer) object2)); } if (object1 instanceof Long && object2 instanceof Long) { r = new ISBPLObject(getType("long"), (long) ((long) (Long) object1 % (long) (Long) object2)); } if (object1 instanceof Character && object2 instanceof Character) { r = new ISBPLObject(getType("char"), (char) ((char) (Character) object1 % (char) (Character) object2)); } if (object1 instanceof Byte && object2 instanceof Byte) { r = new ISBPLObject(getType("byte"), (byte) (Byte.toUnsignedInt((Byte) object1) % Byte.toUnsignedInt((Byte) object2))); } if (object1 instanceof Float && object2 instanceof Float) { r = new ISBPLObject(getType("float"), (float) ((float) (Float) object1 % (float) (Float) object2)); } if (object1 instanceof Double && object2 instanceof Double) { r = new ISBPLObject(getType("double"), (double) ((double) (Double) object1 % (double) (Double) object2)); } if (r != null) stack.push(r); else typeError(o1.type.name, o2.type.name); } catch (ArithmeticException ex) { throw new ISBPLError("Arithmetic", "Division by 0"); } }; break; case "^": func = (Stack stack) -> { ISBPLObject o2 = stack.pop(); ISBPLObject o1 = stack.pop(); o1.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("long")); o2.checkTypeMulti(getType("int"), getType("byte"), getType("char"), getType("long")); Object object1 = o1.object; Object object2 = o2.object; ISBPLObject r = null; if(object1 instanceof Integer && object2 instanceof Integer) { r = new ISBPLObject(getType("int"), (int) ((int) (Integer) object1 ^ (int) (Integer) object2)); } if(object1 instanceof Long && object2 instanceof Long) { r = new ISBPLObject(getType("long"), (long) ((long) (Long) object1 ^ (long) (Long) object2)); } if(object1 instanceof Character && object2 instanceof Character) { r = new ISBPLObject(getType("char"), (char) ((char) (Character) object1 ^ (char) (Character) object2)); } if(object1 instanceof Byte && object2 instanceof Byte) { r = new ISBPLObject(getType("byte"), Byte.toUnsignedInt((Byte) object1) ^ Byte.toUnsignedInt((Byte) object2)); } if(r != null) stack.push(r); else typeError(o1.type.name, o2.type.name); }; break; case "dup": func = (Stack stack) -> { ISBPLObject o = stack.pop(); stack.push(o); stack.push(o); }; break; case "pop": func = Stack::pop; break; case "swap": func = (Stack stack) -> { ISBPLObject o1 = stack.pop(); ISBPLObject o2 = stack.pop(); stack.push(o1); stack.push(o2); }; break; case "_last_word": func = (Stack stack) -> { ISBPLObject i = stack.pop(); i.checkType(getType("int")); int n = (int) i.object; if(n >= lastWords.get().size()) throw new ISBPLError("IllegalArgument", "_last_words called with wrong argument"); stack.push(toISBPLString(lastWords.get().get(n))); }; break; case "time": func = (Stack stack) -> { ISBPLObject i = stack.pop(); long n = (long) i.toLong(); try { Thread.sleep(n); } catch (InterruptedException e) { e.printStackTrace(); } stack.push(new ISBPLObject(getType("long"), System.currentTimeMillis())); }; break; case "stream": func = (Stack stack) -> { ISBPLObject action = stack.pop(); action.checkType(getType("int")); int n = ((int) action.object); try { streamer.action(stack, n); } catch (IOException e) { throw new ISBPLError("IO", e.getMessage()); } }; break; case "_enable_debug": func = (Stack stack) -> { if(debuggerIPC.threadID == -1) { ISBPLDebugger debugger = new ISBPLDebugger(this); debugger.start(); try { while(debuggerIPC.threadID == -1) Thread.sleep(1); } catch (InterruptedException e) { e.printStackTrace(); } } stack.push(new ISBPLObject(getType("int"), debuggerIPC.port)); }; break; case "_getvars": func = (Stack stack) -> { ISBPLObject[] objects = new ISBPLObject[frameStack.get().size()]; int i = 0; for (ISBPLFrame map : frameStack.get()) { ArrayList strings = new ArrayList<>(); for (String key : map.all().keySet()) { if(key.startsWith("=")) { strings.add(toISBPLString(key.substring(1))); } } objects[i++] = new ISBPLObject(getType("array"), strings.toArray(new ISBPLObject[0])); } ISBPLObject array = new ISBPLObject(getType("array"), objects); stack.push(array); }; break; case "stacksize": func = (Stack stack) -> stack.push(new ISBPLObject(getType("int"), stack.size())); break; case "fcall": func = (Stack stack) -> { ISBPLObject o = stack.pop(); o.checkType(getType("func")); ((ISBPLCallable) o.object).call(stack); }; break; case "subprocess": func = (Stack stack) -> { try { Runtime.getRuntime().exec(toJavaString(stack.pop())); } catch(IOException e) { throw new ISBPLError("IO", "Couldn't start process"); } }; break; case "deffunc": func = (stack) -> { ISBPLObject str = stack.pop(); ISBPLObject callable = stack.pop(); String s = toJavaString(str); callable.checkType(getType("func")); frameStack.get().peek().add(s, (ISBPLCallable) callable.object); }; break; case "defmethod": func = (stack) -> { ISBPLObject type = stack.pop(); ISBPLObject callable = stack.pop(); ISBPLObject str = stack.pop(); type.checkType(getType("int")); callable.checkType(getType("func")); ISBPLType t = types.get((int) type.object); String s = toJavaString(str); addFunction(t, s, (ISBPLCallable) callable.object); }; break; case "deffield": func = (stack) -> { ISBPLObject type = stack.pop(); ISBPLObject str = stack.pop(); type.checkType(getType("int")); ISBPLType t = types.get((int) type.object); String s = toJavaString(str); Object var = new Object(); addFunction(t, s, (stack1) -> stack1.push(t.varget(stack1.pop()).getOrDefault(var, getNullObject()))); addFunction(t, "=" + s, (stack1) -> t.varget(stack1.pop()).put(var, stack1.pop())); }; break; case "callmethod": func = (stack) -> { ISBPLObject obj = stack.pop(); ISBPLObject str = stack.pop(); String s = toJavaString(str); stack.push(obj); obj.type.methods.get(s).call(stack); }; break; case "jio.class": func = (stack) -> { ISBPLObject str = stack.pop(); String s = toJavaString(str); try { stack.push(toISBPL(Class.forName(s))); } catch (ClassNotFoundException e) { throw new ISBPLError("JIO", "Class not found"); } }; break; case "jio.getclass": func = (stack) -> { ISBPLObject str = stack.pop(); String s = toJavaString(str); try { stack.push(toISBPL((Object) Class.forName(s))); } catch (ClassNotFoundException e) { throw new ISBPLError("JIO", "Class not found"); } }; break; case "jio.context": func = (stack) -> stack.push(toISBPL(this)); break; case "null": func = (stack) -> stack.push(new ISBPLObject(getType("null"), 0)); break; case "delete": func = (stack) -> { ISBPLObject o = stack.pop(); o.type.vars.remove(o); }; break; case "mkinstance": func = (stack) -> { ISBPLObject type = stack.pop(); stack.push(new ISBPLObject(types.get((int) type.toLong()), new Object())); }; break; default: func = natives.get(name); break; } frameStack.get().peek().add(name, func); } ISBPLObject nullObj = null; public ISBPLObject getNullObject() { if(nullObj == null || nullObj.type == null) nullObj = new ISBPLObject(getType("null"), 0); return nullObj; } private final Object syncJIOClass = new Object(); public ISBPLObject toISBPL(Class clazz) { synchronized(syncJIOClass) { ISBPLType type = getType(clazz.getName()); if(type == null) { type = registerType(clazz.getName()); Class superClass = clazz.getSuperclass(); if (superClass != null) type.superTypes.add(toISBPL(superClass).type); Class[] interfaces = clazz.getInterfaces(); for(Class c : interfaces) { type.superTypes.add(toISBPL(c).type); } if (clazz.isEnum()) { for (Object o : clazz.getEnumConstants()) { addFunction(type, o.toString(), stack -> { if(debug) System.err.println("Java GetEnum: " + o); stack.push(toISBPL(o)); }); } } for (Field field : clazz.getDeclaredFields()) { addFunction(type, field.getName(), stack -> { forceAccessible(field); if(debug) System.err.println("Java Get: " + field); try { stack.push(toISBPL(field.get(stack.pop().object))); } catch (IllegalAccessException ignored) { } }); addFunction(type, "=" + field.getName(), stack -> { forceAccessible(field); if(debug) System.err.println("Java Set: " + field); try { field.set(stack.pop().object, fromISBPL(stack.pop(), field.getType())); } catch (IllegalAccessException ignored) { } }); } HashMap> methods = new HashMap<>(); for (Method method : clazz.getDeclaredMethods()) { ArrayList methodList = methods.get(method.getName() + method.getParameterCount()); if(methodList == null) methodList = new ArrayList<>(); methodList.add(method); methods.put(method.getName() + method.getParameterCount(), methodList); } for (Map.Entry> entry : methods.entrySet()) { addFunction(type, entry.getKey(), stack -> { Object o = stack.pop().object; // Resolve AtomicInteger mid = new AtomicInteger(0); ArrayList ms = entry.getValue(); Class[][] paramTypes = new Class[ms.size()][ms.get(0).getParameterCount()]; for (int i = 0 ; i < ms.size() ; i++) { paramTypes[i] = ms.get(i).getParameterTypes(); } Object[] params = resolve(mid, stack, entry.getValue().get(0).getParameterCount(), paramTypes); Method method = ms.get(mid.get()); forceAccessible(method); if(debug) System.err.println("Java Call: " + method + " - " + Arrays.toString(params)); try { Object r = method.invoke(o, params); if(method.getReturnType() != void.class) stack.push(toISBPL(r)); } catch (IllegalAccessException ignored) { } catch (InvocationTargetException e) { stack.push(toISBPL(e)); throw new ISBPLError("Java", "Java error"); } }); } HashMap>> constructors = new HashMap<>(); for (Constructor constructor : clazz.getDeclaredConstructors()) { ArrayList> constructorList = constructors.get(constructor.getParameterCount()); if (constructorList == null) constructorList = new ArrayList<>(); constructorList.add(constructor); constructors.put(constructor.getParameterCount(), constructorList); } for (Map.Entry>> entry : constructors.entrySet()) { addFunction(type, "new" + entry.getKey(), stack -> { stack.pop(); AtomicInteger mid = new AtomicInteger(0); ArrayList> ms = entry.getValue(); Class[][] paramTypes = new Class[ms.size()][ms.get(0).getParameterCount()]; for (int i = 0 ; i < ms.size() ; i++) { paramTypes[i] = ms.get(i).getParameterTypes(); } Object[] params = resolve(mid, stack, entry.getValue().get(0).getParameterCount(), paramTypes); Constructor constructor = ms.get(mid.get()); forceAccessible(constructor); if(debug) System.err.println("Java Call: " + constructor + " - " + Arrays.toString(params)); try { Object r = constructor.newInstance(params); stack.push(toISBPL(r)); } catch (IllegalAccessException ignored) { } catch (InvocationTargetException | InstantiationException e) { stack.push(toISBPL(e)); throw new ISBPLError("Java", "Java error"); } }); } } return new ISBPLObject(type, null); } } // TODO: Resolve with subclass weight public Object[] resolve(AtomicInteger mid, Stack stack, int paramCount, Class[][] paramTypes) { ISBPLObject[] o = new ISBPLObject[paramCount]; Object[][] params = new Object[paramTypes.length][paramCount]; int[] methodIDs = new int[paramCount]; Arrays.fill(methodIDs, 0); if(debug) System.err.println("Consideration of " + paramTypes.length + " methods..."); for (int i = paramCount - 1 ; i >= 0 ; i--) { o[i] = stack.pop(); for (int j = 0 ; j < paramTypes.length ; j++) { Class[] m = paramTypes[j]; try { params[j][i] = fromISBPL(o[i], m[i]); methodIDs[i] += 1 << j; if(debug) System.err.println("Consideration: Pass " + i + " " + Arrays.toString(paramTypes[j])); } catch (ISBPLError ignored) { if(debug) System.err.println("Consideration: Fail " + i + " " + Arrays.toString(paramTypes[j])); } } if(debug) System.err.println("Considerartion: " + i + " " + Integer.toBinaryString(methodIDs[i] + (1 << 31)).substring(32 - paramTypes.length)); } int msize = paramTypes.length; for (int i = 0 ; i < msize; i++) { boolean works = true; for (int j = 0 ; j < methodIDs.length ; j++) { if ((methodIDs[j] & (1 << i)) == 0) { works = false; break; } } if(works) { mid.set(i); if(debug) System.err.println("Considering: " + Arrays.toString(paramTypes[i])); } } if(debug) System.err.println("Considered " + paramTypes.length + " methods. Result: " + Arrays.toString(paramTypes[mid.get()])); return params[mid.get()]; } public Object primitiveDefault(Class expectedType) { if(expectedType == long.class) return 0L; if(expectedType == int.class) return 0; if(expectedType == double.class) return 0.0d; if(expectedType == float.class) return 0.0f; if(expectedType == short.class) return (short) 0; if(expectedType == boolean.class) return false; if(expectedType == char.class) return (char) 0; if(expectedType == byte.class) return (byte) 0; return null; } public Object fromISBPL(ISBPLObject o, Class expectedType) { ISBPLType type = o.type; if (type.equals(getType("null"))) { return null; } if (type.equals(getType("string"))) { if(expectedType.isAssignableFrom(String.class)) return toJavaString(o); else typeError("string", expectedType.getName()); } if (type.equals(getType("array"))) { ISBPLObject[] isbplArray = ((ISBPLObject[]) o.object); Object array = new Object[isbplArray.length]; if(expectedType.isArray()) array = Array.newInstance(expectedType.getComponentType(), isbplArray.length); else typeError("array", "matching-array"); for (int i = 0 ; i < isbplArray.length ; i++) { Object obj = fromISBPL(isbplArray[i], expectedType.getComponentType()); Array.set(array, i, obj == null && expectedType.getComponentType().isPrimitive() ? primitiveDefault(expectedType.getComponentType()) : obj); } return array; } if(expectedType.isPrimitive()) { if(expectedType == long.class) return o.toLong(); if(expectedType == int.class) return (int) o.toLong(); if(expectedType == double.class) return o.toDouble(); if(expectedType == float.class) return (float) o.toDouble(); if(expectedType == short.class) return (short) o.toLong(); if(expectedType == boolean.class) return o.isTruthy(); if(expectedType == char.class) return (char) o.toLong(); if(expectedType == byte.class) return (byte) o.toLong(); } if(!expectedType.isAssignableFrom(o.object.getClass())) typeError(o.type.name, expectedType.getName()); return o.object; } public ISBPLObject toISBPL(Object object) { if(object == null) { return getNullObject(); } ISBPLObject o = toISBPL(object.getClass()); if (object instanceof String) { return toISBPLString(((String) object)); } if (object instanceof Integer) return new ISBPLObject(getType("int"), object); if (object instanceof Character) return new ISBPLObject(getType("char"), object); if (object instanceof Byte) return new ISBPLObject(getType("byte"), object); if (object instanceof Float) return new ISBPLObject(getType("float"), object); if (object instanceof Long) return new ISBPLObject(getType("long"), object); if (object instanceof Double) return new ISBPLObject(getType("double"), object); if (object.getClass().isArray()) { ISBPLObject[] isbplArray = new ISBPLObject[Array.getLength(object)]; for (int i = 0 ; i < isbplArray.length ; i++) { isbplArray[i] = toISBPL(Array.get(object, i)); } o.type = getType("array"); object = isbplArray; } o.object = object; return o; } public void addFunction(ISBPLType type, String name, ISBPLCallable callable) { type.methods.put(name, callable); type.methods.put("&" + name, stack -> stack.push(new ISBPLObject(getType("func"), callable))); } private String getFilePathForInclude(Stack stack, Stack file) { ISBPLObject s = stack.pop(); String filepath = toJavaString(s); for (File f : file) { filepath = toJavaString(s); processPath: { if (filepath.startsWith("/")) break processPath; if (filepath.startsWith("#")) { filepath = System.getenv().getOrDefault("ISBPL_PATH", "/usr/lib/isbpl") + "/" + filepath.substring(1); break processPath; } filepath = f.getParentFile().getAbsolutePath() + "/" + filepath; } if(new File(filepath).exists()) return filepath; } return filepath; } private int createFunction(int i, String[] words, File file) { i++; String name = words[i]; AtomicInteger integer = new AtomicInteger(++i); ISBPLCallable callable = readBlock(integer, words, file); i = integer.get(); frameStack.get().peek().add(name, callable); return i; } private ISBPLCallable readBlock(AtomicInteger idx, String[] words, File file) { ArrayList newWords = new ArrayList<>(); int i = idx.get(); i++; int lvl = 1; for (; i < words.length && lvl > 0 ; i++) { String word = words[i]; if(word.equals("{")) lvl++; if(word.equals("}")) { if(--lvl == 0) break; } newWords.add(word); } idx.set(i); String[] theWords = newWords.toArray(new String[0]); ISBPLFrame frame = frameStack.get().peek(); return (stack) -> { fileStack.get().push(file); frameStack.get().push(new ISBPLFrame(this, frame)); try { interpretRaw(theWords, stack); } finally { frameStack.get().pop(); fileStack.get().pop(); } }; } public String toJavaString(ISBPLObject string) { string.checkType(getType("string")); ISBPLObject[] array = ((ISBPLObject[]) string.object); char[] chars = new char[array.length]; for (int i = 0 ; i < array.length ; i++) { chars[i] = ((char) array[i].object); } return new String(chars); } public ISBPLObject toISBPLString(String s) { char[] chars = s.toCharArray(); ISBPLObject[] objects = new ISBPLObject[chars.length]; ISBPLType type = getType("char"); for (int i = 0 ; i < chars.length ; i++) { objects[i] = new ISBPLObject(type, chars[i]); } return new ISBPLObject(getType("string"), objects); } public synchronized ISBPLType registerType(String name) { ISBPLType type = new ISBPLType(name, types.size()); types.add(type); return type; } // These will die as soon as std creates the real types and any types created before these are replaced become invalid. static final ISBPLType defaultTypeInt = new ISBPLType("int", -2); static final ISBPLType defaultTypeString = new ISBPLType("string", -1); public ISBPLType getType(String name) { for (int i = 0 ; i < types.size() ; i++) { if(types.get(i).name.equals(name)) return types.get(i); } if(name.equals("int")) return defaultTypeInt; if(name.equals("string")) return defaultTypeString; return null; } public void typeError(String got, String wanted) { throw new ISBPLError("IncompatibleTypes", "Incompatible types: " + got + " - " + wanted); } public void interpret(File file, String code, Stack stack) { if(code.startsWith("#!")) code = code.substring(code.indexOf("\n") + 1); fileStack.get().push(file); code = cleanCode(code); String[] words = splitWords(code); interpretRaw(words, stack); fileStack.get().pop(); } private void interpretRaw(String[] words, Stack stack) { try { nextWord: for (int i = 0 ; i < words.length ; i++) { String word = words[i]; if (word.length() == 0) continue; if(printCalls) { StringBuilder s = new StringBuilder(); for (int x = 0 ; x < frameStack.get().size() ; x++) { s.append("\t"); } System.err.println(s + word + "\t\t" + (debug ? stack : "")); } while (debuggerIPC.run.getOrDefault(Thread.currentThread().getId(), -1) == 0) Thread.sleep(1); int rid = debuggerIPC.run.getOrDefault(Thread.currentThread().getId(), -1); if(rid < 0) { if(rid < -1) { if (rid == -2) { if (word.equals(debuggerIPC.until)) { debuggerIPC.run.put(Thread.currentThread().getId(), 0); while (debuggerIPC.run.get(Thread.currentThread().getId()) == 0) Thread.sleep(1); } } if (rid == -3 && Thread.currentThread().getId() != debuggerIPC.threadID) { while (debuggerIPC.run.get(Thread.currentThread().getId()) == -3) Thread.sleep(1); } } } else debuggerIPC.run.put(Thread.currentThread().getId(), debuggerIPC.run.get(Thread.currentThread().getId()) - 1); lastWords.get().add(0, word); while(lastWords.get().size() > 16) lastWords.get().remove(lastWords.get().size() - 1); ISBPLKeyword keyword = getKeyword(word); if (keyword != null) { i = keyword.call(i, words, fileStack.get().peek(), stack); continue; } if(stack.size() > 0) { // Doing this nonrecursively because it's much better despite the slight readability disadvantage. if(stack.peek() == null) { // We need to dump things immediately. System.err.println("!!! ISBPL WORD PARSER ERROR !!!"); System.err.println("This is most likely due to a garbage collector malfunction."); System.err.println("Stack: " + stack); System.err.println("LastWords: " + lastWords); System.err.println("FileStack: " + fileStack); } ISBPLType type = stack.peek().type; Queue types = new LinkedList<>(); types.add(type); while (!types.isEmpty()) { type = types.poll(); types.addAll(type.superTypes); if(type.methods.containsKey(word)) { type.methods.get(word).call(stack); continue nextWord; } } } ISBPLCallable func = frameStack.get().peek().resolve(word); if(func != null) { func.call(stack); continue; } if (word.startsWith("\"")) { stack.push(toISBPLString(word.substring(1))); continue; } try { stack.push(new ISBPLObject(getType("int"), Integer.parseInt(word))); continue; } catch (Exception ignore) {} try { stack.push(new ISBPLObject(getType("long"), Long.parseLong(word))); continue; } catch (Exception ignore) {} try { stack.push(new ISBPLObject(getType("float"), Float.parseFloat(word))); continue; } catch (Exception ignore) {} try { stack.push(new ISBPLObject(getType("double"), Double.parseDouble(word))); continue; } catch (Exception ignore) {} throw new ISBPLError("InvalidWord", word + " is not a function, object, or keyword."); } } catch (ISBPLStop stop) { if(stop.amount == 0) return; throw new ISBPLStop(stop.amount); } catch (InterruptedException e) { e.printStackTrace(); } } // Magic, please test before pushing changes! private String[] splitWords(String code) { ArrayList words = new ArrayList<>(); char[] chars = code.toCharArray(); boolean isInString = false; boolean escaping = false; StringBuilder word = new StringBuilder(); for (int i = 0 ; i < chars.length ; i++) { char c = chars[i]; if(isInString) { if(c == '\\') { escaping = !escaping; if(escaping) continue; } if(c == 'n' && escaping) { word.append('\n'); escaping = false; continue; } if(c == 'r' && escaping) { escaping = false; word.append('\r'); continue; } if(c == 't' && escaping) { escaping = false; word.append('\t'); continue; } if(c == '"') { if (escaping) { escaping = false; } else { isInString = false; continue; } } word.append(c); if(escaping) throw new RuntimeException("Error parsing code: Invalid Escape."); } else if(c == '"' && word.length() == 0) { word.append('"'); isInString = true; } else if(c == ' ') { words.add(word.toString()); word = new StringBuilder(); } else { word.append(c); } } words.add(word.toString()); return words.toArray(new String[0]); } private String cleanCode(String code) { return code .replaceAll("\r", "\n") .replaceAll("\n", " ") ; } public void dump(Stack stack) { try { System.err.println("VAR DUMP\n----------------"); for (ISBPLFrame map : frameStack.get()) { HashMap all = map.all(); for (String key : all.keySet()) { if (key.startsWith("=")) { all.get(key.substring(1)).call(stack); System.err.println("\t" + key.substring(1) + ": \t" + stack.pop()); } } System.err.println("----------------"); } } catch (Exception e) { e.printStackTrace(); System.err.println("!!! VARS CORRUPTED! CANNOT FIX AUTOMATICALLY."); } boolean fixed = false; while (!fixed) { try { System.err.println("STACK DUMP"); for (ISBPLObject object : stack) { System.err.println("\t" + object); } fixed = true; } catch (Exception e) { e.printStackTrace(); System.err.println("!!! STACK CORRUPTED!"); stack.pop(); System.err.println("Popped. Trying again."); } } } public static void main(String[] args) { Stack stack = new ISBPLStack<>(); ISBPL isbpl = new ISBPL(); isbpl.debuggerIPC.stack.put(Thread.currentThread().getId(), stack); debug = !System.getenv().getOrDefault("DEBUG", "").equals(""); isbpl.debuggerIPC.run.put(Thread.currentThread().getId(), -1); if(debug) { new ISBPLDebugger(isbpl).start(); isbpl.debuggerIPC.run.put(Thread.currentThread().getId(), 0); } try { File std = new File(System.getenv().getOrDefault("ISBPL_PATH", "/usr/lib/isbpl") + "/std.isbpl"); isbpl.interpret(std, readFile(std), stack); if(args.length > 0) { File file = new File(args[0]).getAbsoluteFile(); isbpl.interpret(file, readFile(file), stack); stack.push(argarray(isbpl, args)); isbpl.interpret(file, "main exit", stack); } else { isbpl.level0.add("dump", isbpl::dump); BufferedReader reader = new BufferedReader(new InputStreamReader(System.in)); String line; System.out.print("> "); while ((line = reader.readLine()) != null) { try { isbpl.interpret(new File("_shell"), line, stack); } catch(ISBPLError e) { System.out.println("Error: " + e.type + ": " + e.message); } catch(Throwable e) { e.printStackTrace(); } System.out.print("\n> "); } } } catch (ISBPLStop stop) { System.exit(isbpl.exitCode); } catch (Exception e) { e.printStackTrace(); System.out.println(stack); } } private static ISBPLObject argarray(ISBPL isbpl, String[] args) { ISBPLObject[] array = new ISBPLObject[args.length - 1]; for (int i = 1 ; i < args.length ; i++) { array[i - 1] = isbpl.toISBPLString(args[i]); } return new ISBPLObject(isbpl.getType("array"), array); } private static String readFile(File f) throws IOException { //noinspection resource FileInputStream fis = new FileInputStream(f); ByteArrayOutputStream bytes = new ByteArrayOutputStream(); byte[] currentBytes = new byte[4096]; int len; while ((len = fis.read(currentBytes)) > 0) { bytes.write(currentBytes, 0, len); } return bytes.toString(); } // Used for theSafe private static class FakeAccessibleObject { boolean override; } private static void forceAccessible(AccessibleObject thing) { try { theSafe.putBoolean(thing, theSafe.objectFieldOffset(FakeAccessibleObject.class.getDeclaredField("override")), true); } catch(Exception e) { //we are doomed e.printStackTrace(); System.err.println("Failed to set accessible property. We are doomed."); System.exit(1); } } } interface ISBPLKeyword { int call(int idx, String[] words, File file, Stack stack); } interface ISBPLCallable { void call(Stack stack); } class ISBPLType { int id; String name; HashMap methods = new HashMap<>(); HashMap> vars = new HashMap<>(); ArrayList superTypes = new ArrayList<>(); public ISBPLType(String name, int id) { this.name = name; this.id = id; } public HashMap varget(ISBPLObject o) { if(!vars.containsKey(o)) { vars.put(o, new HashMap<>()); } return vars.get(o); } @Override public boolean equals(Object o) { if (this == o) return true; if (!(o instanceof ISBPLType)) return false; ISBPLType type = (ISBPLType) o; return id == type.id; } @Override public int hashCode() { return id; } @Override public String toString() { return "ISBPLType{" + "id=" + id + ", name='" + name + '\'' + '}'; } } class ISBPLObject { ISBPLType type; Object object; public ISBPLObject(ISBPLType type, Object object) { this.type = type; this.object = object; } public boolean isTruthy() { return object != null && object != Integer.valueOf(0) && !object.equals(Boolean.FALSE); } // This has heavy optimizations, please do not change unless necessary public boolean equals(Object o) { if(this == o) return true; if(!(o instanceof ISBPLObject)) return false; ISBPLObject object = (ISBPLObject) o; if(!this.type.equals(object.type)) return false; if(this.object == object.object) return true; // These can return false because the strict equality check has already been performed. if(this.object == null) return false; if(object.object == null) return false; if(this.object.getClass().isArray() || object.object.getClass().isArray()) { if(this.object.getClass().isArray() && object.object.getClass().isArray()) { return Arrays.equals((Object[]) this.object, (Object[]) object.object); } else { return false; } } return this.object.equals(object.object); } public void checkType(ISBPLType wanted) { if(wanted.id != type.id) { throw new ISBPLError("IncompatibleTypes", "Incompatible types: " + type.name + " - " + wanted.name); } } public void checkTypeMulti(ISBPLType... wanted) { int f = -1; StringBuilder wantedNames = new StringBuilder(); for (int i = 0 ; i < wanted.length ; i++) { wantedNames.append(" ").append(wanted[i].name); if(wanted[i].id == type.id) { f = i; break; } } if(f == -1) { throw new ISBPLError("IncompatibleTypes", "Incompatible types: " + type.name + " - " + wantedNames.substring(1)); } } @Override public String toString() { if(type != null && object instanceof ISBPLObject[]) { try { return "ISBPLObject{" + "type=" + type + ", object=" + Arrays.toString(((ISBPLObject[]) object)) + '}'; } catch (Exception e) { e.printStackTrace(); } } return "ISBPLObject{" + "type=" + type + ", object=" + object + '}'; } public double toDouble() { if(object instanceof Integer) { return (double) (int) (Integer) object; } if(object instanceof Long) { return (double) (long) (Long) object; } if(object instanceof Character) { return (double) (char) (Character) object; } if(object instanceof Byte) { return Byte.toUnsignedInt((Byte) object); } if(object instanceof Float) { return (double) (float) (Float) object; } if(object instanceof Double) { return (double) (Double) object; } throw new ISBPLError("InvalidArgument", "The argument is not a number."); } public long toLong() { if(object instanceof Integer) { return (long) (int) (Integer) object; } if(object instanceof Long) { return (long) (Long) object; } if(object instanceof Character) { return (long) (char) (Character) object; } if(object instanceof Byte) { return Byte.toUnsignedInt((Byte) object); } if(object instanceof Float) { return (long) (float) (Float) object; } if(object instanceof Double) { return (long) (double) (Double) object; } throw new ISBPLError("InvalidArgument", "The argument is not a number."); } public Object negative() { if(object instanceof Integer) { return -(int) (Integer) object; } if(object instanceof Long) { return -(long) (Long) object; } if(object instanceof Float) { return -(float) (Float) object; } if(object instanceof Double) { return -(double) (Double) object; } throw new ISBPLError("InvalidArgument", "This type of number can't be negated!"); } } class ISBPLError extends RuntimeException { final String type; final String message; public ISBPLError(String type, String message) { this.type = type; this.message = message; } @Override public String getMessage() { return type + ": " + message; } } class ISBPLStop extends RuntimeException { int amount; public ISBPLStop(int amount) { this.amount = amount - 1; } } class ISBPLDebugger extends Thread { private final ISBPL isbpl; int port = -1; long mainID = Thread.currentThread().getId(); public ISBPLDebugger(ISBPL isbpl) { this.isbpl = isbpl; } @Override public void run() { try { ServerSocket socket = null; try { //noinspection resource socket = new ServerSocket(Integer.parseInt(System.getenv().getOrDefault("DEBUG", "9736"))); port = socket.getLocalPort(); System.err.println("Debugger listening on :" + socket.getLocalPort()); } catch (BindException e) { while (socket == null) { try { //noinspection resource socket = new ServerSocket((int) (Math.random() * 5000 + 5000)); port = socket.getLocalPort(); System.err.println("Debugger listening on :" + socket.getLocalPort()); } catch (BindException ignored) { } } } isbpl.debuggerIPC.port = port; isbpl.debuggerIPC.threadID = Thread.currentThread().getId(); while (true) { Socket s = socket.accept(); new Thread(() -> { try { BufferedReader reader = new BufferedReader(new InputStreamReader(s.getInputStream())); String line; long tid = mainID; while ((line = reader.readLine()) != null) { try { switch (line.split(" ")[0]) { case "continue": case "cont": case "c": isbpl.debuggerIPC.run.put(tid, -1); break; case "stop": case "s": isbpl.debuggerIPC.run.put(tid, 0); break; case "next": case "n": isbpl.debuggerIPC.run.put(tid, 1); break; case "nextall": case "na": isbpl.debuggerIPC.run.replaceAll((i, v) -> 1); break; case "do": case "d": isbpl.debuggerIPC.run.put(tid, Integer.parseInt(line.split(" ")[1])); break; case "until": case "u": isbpl.debuggerIPC.until = line.split(" ")[1]; isbpl.debuggerIPC.run.put(tid, -2); break; case "eval": isbpl.debuggerIPC.run.put(tid, -3); isbpl.debuggerIPC.threadID = Thread.currentThread().getId(); try { isbpl.interpret(new File("_debug").getAbsoluteFile(), line.substring(5), isbpl.debuggerIPC.stack.get(tid)); } catch (ISBPLStop stop) { System.exit(isbpl.exitCode); } catch (Throwable e) { e.printStackTrace(); boolean fixed = false; while (!fixed) { try { System.err.println("Stack recovered: " + isbpl.debuggerIPC.stack.get(tid)); fixed = true; } catch (Exception e1) { e.printStackTrace(); System.err.println("!!! STACK CORRUPTED!"); isbpl.debuggerIPC.stack.get(tid).pop(); System.err.println("Popped. Trying again."); } } } break; case "dump": try { System.err.println("VAR DUMP\n----------------"); for (ISBPLFrame map : isbpl.frameStack.map.get(tid)) { HashMap all = map.all(); for (String key : all.keySet()) { if (key.startsWith("=")) { all.get(key.substring(1)).call(isbpl.debuggerIPC.stack.get(tid)); System.err.println("\t" + key.substring(1) + ": \t" + isbpl.debuggerIPC.stack.get(tid).pop()); } } System.err.println("----------------"); } } catch (Exception e) { e.printStackTrace(); System.err.println("!!! VARS CORRUPTED! CANNOT FIX AUTOMATICALLY."); } case "stack": boolean fixed = false; while (!fixed) { try { System.err.println("STACK DUMP"); for (ISBPLObject object : isbpl.debuggerIPC.stack.get(tid)) { System.err.println("\t" + object); } fixed = true; } catch (Exception e) { e.printStackTrace(); System.err.println("!!! STACK CORRUPTED!"); isbpl.debuggerIPC.stack.get(tid).pop(); System.err.println("Popped. Trying again."); } } break; case "son": ISBPL.debug = true; ISBPL.printCalls = true; break; case "sonf": ISBPL.debug = false; ISBPL.printCalls = true; break; case "soff": ISBPL.debug = false; ISBPL.printCalls = false; break; case "exit": System.exit(255); break; case "threads": System.err.println("THREAD DUMP"); for (Thread thread : Thread.getAllStackTraces().keySet()) { if (isbpl.debuggerIPC.stack.containsKey(thread.getId())) System.err.println(thread.getId() + "\t" + thread.getName()); } break; case "setthread": case "st": long l = Long.parseLong(line.split(" ")[1]); if (isbpl.debuggerIPC.stack.containsKey(l)) { tid = l; System.err.println("Set TID=" + l); } else System.err.println("Thread not valid"); break; default: break; } } catch (Exception e) { try { e.printStackTrace(new PrintStream(s.getOutputStream())); } catch (IOException ex) { ex.printStackTrace(); } } } } catch (IOException e) { try { s.close(); } catch (IOException ex) { ex.printStackTrace(); } } }).start(); } } catch (IOException e) { e.printStackTrace(); } } static class IPC { long threadID = -1; String until = null; HashMap run = new HashMap<>(); HashMap> stack = new HashMap<>(); int port = -1; } } class ISBPLStreamer { public static final int CREATE_FILE_IN = 0; public static final int CREATE_FILE_OUT = 1; public static final int CREATE_SOCKET = 2; public static final int CLOSE = 3; public static final int READ = 4; public static final int WRITE = 5; @SuppressWarnings("unused") public static final int AREAD = 6; @SuppressWarnings("unused") public static final int AWRITE = 7; public static final int CREATE_SERVER = 9; static class ISBPLStream { final InputStream in; final OutputStream out; static int gid = 0; final int id = gid++; public ISBPLStream(InputStream in, OutputStream out) { this.in = in; this.out = out; } public void close() throws IOException { this.in.close(); this.out.close(); } } final ISBPL isbpl; public ISBPLStreamer(ISBPL isbpl) { this.isbpl = isbpl; } public ArrayList streams = new ArrayList<>(); public synchronized void action(Stack stack, int action) throws IOException { ISBPLStream stream; ISBPLObject s, i; File f; switch (action) { case CREATE_FILE_IN: s = stack.pop(); s.checkType(isbpl.getType("string")); f = new File(isbpl.toJavaString(s)); stream = new ISBPLStream(Files.newInputStream(f.toPath()), new OutputStream() { @Override public void write(int b) { throw new ISBPLError("IllegalArgument", "Can't write to a FILE_IN stream!"); } }); streams.add(stream); stack.push(new ISBPLObject(isbpl.getType("int"), stream.id)); break; case CREATE_FILE_OUT: s = stack.pop(); s.checkType(isbpl.getType("string")); f = new File(isbpl.toJavaString(s)); stream = new ISBPLStream(new InputStream() { @Override public int read() { throw new ISBPLError("IllegalArgument", "Can't read a FILE_OUT stream!"); } }, Files.newOutputStream(f.toPath())); streams.add(stream); stack.push(new ISBPLObject(isbpl.getType("int"), stream.id)); break; case CREATE_SOCKET: i = stack.pop(); s = stack.pop(); i.checkType(isbpl.getType("int")); s.checkType(isbpl.getType("string")); Socket socket = new Socket(isbpl.toJavaString(s), ((int) i.object)); stream = new ISBPLStream(socket.getInputStream(), socket.getOutputStream()); streams.add(stream); stack.push(new ISBPLObject(isbpl.getType("int"), stream.id)); break; case CREATE_SERVER: i = stack.pop(); i.checkType(isbpl.getType("int")); ServerSocket server = new ServerSocket(((int) i.object)); stream = new ISBPLStream(new InputStream() { @Override public int read() throws IOException { Socket socket = server.accept(); ISBPLStream stream = new ISBPLStream(socket.getInputStream(), socket.getOutputStream()); return stream.id; } }, new OutputStream() { @Override public void write(int b) { throw new ISBPLError("IllegalArgument", "Can't write to a SERVER stream!"); } }); streams.add(stream); stack.push(new ISBPLObject(isbpl.getType("int"), stream.id)); break; case READ: i = stack.pop(); i.checkType(isbpl.getType("int")); try { stack.push(new ISBPLObject(isbpl.getType("int"), streams.get(((int) i.object)).in.read())); } catch (IndexOutOfBoundsException e) { throw new ISBPLError("IllegalArgument", "streamid STREAM_READ stream called with non-existing stream argument"); } break; case WRITE: i = stack.pop(); i.checkType(isbpl.getType("int")); ISBPLObject bte = stack.pop(); bte.checkTypeMulti(isbpl.getType("int"), isbpl.getType("char"), isbpl.getType("byte")); try { streams.get(((int) i.object)).out.write(((int) bte.toLong())); } catch (IndexOutOfBoundsException e) { throw new ISBPLError("IllegalArgument", "byte streamid STREAM_WRITE stream called with non-existing stream argument"); } break; case CLOSE: i = stack.pop(); i.checkType(isbpl.getType("int")); try { ISBPLStream strm = streams.get(((int) i.object)); strm.close(); } catch (IndexOutOfBoundsException e) { throw new ISBPLError("IllegalArgument", "streamid STREAM_CLOSE stream called with non-existing stream argument"); } break; default: throw new ISBPLError("NotImplemented", "Not implemented"); } } } class ISBPLThreadLocal { HashMap map = new HashMap<>(); Supplier supplier; public ISBPLThreadLocal(Supplier supplier) { this.supplier = supplier; } public static ISBPLThreadLocal withInitial(Supplier supplier) { return new ISBPLThreadLocal<>(supplier); } public synchronized T get() { long tid = Thread.currentThread().getId(); if(!map.containsKey(tid)) map.put(tid, supplier.get()); return map.get(tid); } public synchronized void set(T t) { map.put(Thread.currentThread().getId(), t); } @Override public String toString() { return get().toString(); } } class ISBPLStack extends Stack { @Override public T push(T t) { if(t == null) new IllegalArgumentException("item is null").printStackTrace(); return super.push(t); } } class ISBPLFrame { public ISBPL context; public ISBPLFrame parent; public HashMap map = new HashMap<>(); public HashMap variables = new HashMap<>(); public ISBPLFrame(ISBPL context) { this.context = context; } public ISBPLFrame(ISBPL context, ISBPLFrame parentFrame) { this.context = context; parent = parentFrame; } public ISBPLCallable resolve(String name) { if(name.startsWith("&")) { ISBPLCallable c = resolve(name.substring(1)); if(c != null) { return (stack -> stack.push(new ISBPLObject(context.getType("func"), c))); } } if(map.containsKey(name)) return map.get(name); if(parent != null) { return parent.resolve(name); } return null; } public void add(String name, ISBPLCallable callable) { map.put(name, callable); } public void define(String name, ISBPLObject value) { Object var = new Object(); variables.put(var, value); add(name, (stack) -> stack.push(variables.get(var))); add("=" + name, (stack) -> variables.put(var, stack.pop())); } public HashMap all() { HashMap r = parent == null ? new HashMap<>() : parent.all(); r.putAll(map); return r; } }