import java.util.*;
/** Encapsulates a single JS interpreter (ie call stack) */
-class Interpreter implements ByteCodes, Tokens {
+class Interpreter implements ByteCodes, Tokens, Pausable {
// Thread-Interpreter Mapping /////////////////////////////////////////////////////////////////////////
static Interpreter current() { return (Interpreter)threadToInterpreter.get(Thread.currentThread()); }
final Stack stack = new Stack(); ///< the object stack
int pc = 0; ///< the program counter
- Interpreter(JSFunction f, boolean pauseable, JSArgs args) {
+ Interpreter(JSFunction f, boolean pauseable, JS[] args) {
this.f = f;
this.pausecount = pauseable ? 0 : -1;
this.scope = f.parentScope;
}
}
- Interpreter(Trap t, JS val, boolean pauseOnPut) {
+ Interpreter(JS.Trap t, JS val, boolean pauseOnPut) {
this.pausecount = -1;
try {
setupTrap(t,val,new TrapMarker(null,t,val,pauseOnPut));
throw new Error("should never happen");
}
}
-
+
+ private boolean get = false;
+ // FIXME: split this stuff out into a Script instance control object
+ // so it's possible to make JS either single or multi threaded.
/** this is the only synchronization point we need in order to be threadsafe */
- synchronized JS resume() throws JSExn {
- if(f == null) throw new RuntimeException("function already finished");
- if(scope == null) throw new RuntimeException("scope is null");
+ public synchronized Object run(Object o) throws JSExn {
+ if (f == null) throw new AlreadyRunningException("function already finished");
+ if (scope == null) throw new RuntimeException("scope is null");
+
Thread t = Thread.currentThread();
Interpreter old = (Interpreter)threadToInterpreter.get(t);
threadToInterpreter.put(t, this);
+
+ if (get) stack.push(o);
+
try {
return run();
} finally {
else threadToInterpreter.put(t, old);
}
}
+
+ public void pause() throws NotPausableException {
+ if (pausecount == -1 || f == null) throw new NotPausableException();
+ pausecount++;
+ switch(f.op[pc]) {
+ case Tokens.RETURN: case ByteCodes.PUT: get = false; break;
+ case ByteCodes.GET: case ByteCodes.CALL: get = true; break;
+ default: throw new Error("should never happen");
+ }
+ }
static int getLine() {
Interpreter c = Interpreter.current();
}
switch(op) {
case LITERAL: stack.push((JS)arg); break;
- case OBJECT: stack.push(new JS.O()); break;
- case ARRAY: stack.push(new JSArray(JS.toInt((JS)arg))); break;
+ case OBJECT: stack.push(new JS.Obj()); break;
+ case ARRAY: stack.push(new JSArray(JSU.toInt((JS)arg))); break;
//case DECLARE: scope.declare((JS)(arg==null ? stack.peek() : arg)); if(arg != null) stack.push((JS)arg); break;
- case JT: if (JS.toBoolean(stack.pop())) pc += JS.toInt((JS)arg) - 1; break;
- case JF: if (!JS.toBoolean(stack.pop())) pc += JS.toInt((JS)arg) - 1; break;
- case JMP: pc += JS.toInt((JS)arg) - 1; break;
+ case JT: if (JSU.toBoolean((JS)stack.pop())) pc += JSU.toInt((JS)arg) - 1; break;
+ case JF: if (!JSU.toBoolean((JS)stack.pop())) pc += JSU.toInt((JS)arg) - 1; break;
+ case JMP: pc += JSU.toInt((JS)arg) - 1; break;
case POP: stack.pop(); break;
case SWAP: stack.swap(); break;
case DUP: stack.push(stack.peek()); break;
case NEWSCOPE: {
- int n = JS.toInt((JS)arg);
+ int n = JSU.toInt((JS)arg);
scope = new JSScope(scope,(n>>>16)&0xffff,(n>>>0)&0xffff);
break;
}
case OLDSCOPE: scope = scope.parent; break;
case GLOBALSCOPE: stack.push(scope.getGlobal()); break;
case SCOPEGET: stack.push(scope.get((JS)arg)); break;
- case SCOPEPUT: scope.put((JS)arg,stack.peek()); break;
- case ASSERT: if (!JS.toBoolean(stack.pop())) throw je("ibex.assertion.failed"); break;
- case BITNOT: stack.push(JS.N(~JS.toLong(stack.pop()))); break;
- case BANG: stack.push(JS.B(!JS.toBoolean(stack.pop()))); break;
+ case SCOPEPUT: scope.put((JS)arg, (JS)stack.peek()); break;
+ case ASSERT: if (!JSU.toBoolean((JS)stack.pop())) throw je("ibex.assertion.failed"); break;
+ case BITNOT: stack.push(JSU.N(~JSU.toLong((JS)stack.pop()))); break;
+ case BANG: stack.push(JSU.B(!JSU.toBoolean((JS)stack.pop()))); break;
case NEWFUNCTION: stack.push(((JSFunction)arg)._cloneWithNewParentScope(scope)); break;
case LABEL: break;
case TYPEOF: {
Object o = stack.pop();
if (o == null) stack.push(null);
- else if (o instanceof JSString) stack.push(JS.S("string"));
- else if (o instanceof JSNumber.B) stack.push(JS.S("boolean"));
- else if (o instanceof JSNumber) stack.push(JS.S("number"));
- else stack.push(JS.S("object"));
+ else if (o instanceof JSString) stack.push(JSU.S("string"));
+ else if (o instanceof JSNumber.B) stack.push(JSU.S("boolean"));
+ else if (o instanceof JSNumber) stack.push(JSU.S("number"));
+ else stack.push(JSU.S("object"));
break;
}
case PUSHKEYS: {
- JS o = stack.peek();
+ JS o = (JS)stack.peek();
stack.push(o == null ? null : o.keys());
break;
}
case LOOP:
- stack.push(new LoopMarker(pc, pc > 0 && f.op[pc - 1] == LABEL ? (String)f.arg[pc - 1] : (String)null, scope));
- stack.push(JS.T);
+ stack.push(new LoopMarker(pc, (String)(pc > 0 && f.op[pc - 1] == LABEL ? f.arg[pc - 1] : null), scope));
+ stack.push(JSU.T);
break;
case BREAK:
case CONTINUE:
while(!stack.empty()) {
- JS o = stack.pop();
+ JS o = (JS)stack.pop();
if (o instanceof CallMarker) je("break or continue not within a loop");
if (o instanceof TryMarker) {
if(((TryMarker)o).finallyLoc < 0) continue; // no finally block, keep going
if (o instanceof LoopMarker) {
if (arg == null || arg.equals(((LoopMarker)o).label)) {
int loopInstructionLocation = ((LoopMarker)o).location;
- int endOfLoop = JS.toInt((JS)f.arg[loopInstructionLocation]) + loopInstructionLocation;
+ int endOfLoop = JSU.toInt((JS)f.arg[loopInstructionLocation]) + loopInstructionLocation;
scope = ((LoopMarker)o).scope;
- if (op == CONTINUE) { stack.push(o); stack.push(JS.F); }
+ if (op == CONTINUE) { stack.push(o); stack.push(JSU.F); }
pc = op == BREAK ? endOfLoop - 1 : loopInstructionLocation;
continue OUTER;
}
}
case RETURN: {
- JS retval = stack.pop();
+ JS retval = (JS)stack.pop();
while(!stack.empty()) {
Object o = stack.pop();
if (o instanceof TryMarker) {
boolean didTrapPut = false;
if (o instanceof TrapMarker) { // handles return component of a write trap
TrapMarker tm = (TrapMarker) o;
- boolean cascade = tm.t.isWriteTrap() && !tm.cascadeHappened && !JS.toBoolean(retval);
+ boolean cascade = tm.t.isWriteTrap() && !tm.cascadeHappened && !JSU.toBoolean(retval);
if(cascade) {
- Trap t = tm.t.nextWriteTrap();
- if(t == null && tm.t.target instanceof JS.Clone) {
- t = ((JS.Clone)tm.t.target).clonee.getTrap(tm.t.key);
- if(t != null) t = t.writeTrap();
+ JS.Trap t = tm.t.nextWrite();
+ if(t == null && tm.t.target() instanceof JS.Clone) {
+ t = ((JS.Clone)tm.t.target()).clonee.getTrap(tm.t.key());
+ if(t != null && !t.isWriteTrap()) t = t.nextWrite();
}
if(t != null) {
tm.t = t; // we reuse the old trap marker
- setupTrap(t,tm.val,tm);
+ setupTrap(t, tm.val, tm);
pc--; // we increment it on the next iter
continue OUTER;
} else {
didTrapPut = true;
- if(!tm.pauseOnPut) tm.t.target.put(tm.t.key,tm.val);
+ if(!tm.pauseOnPut) tm.t.target().put(tm.t.key(), tm.val);
}
}
}
}
case CASCADE: {
- boolean write = JS.toBoolean((JS)arg);
- JS val = write ? stack.pop() : null;
+ boolean write = JSU.toBoolean((JS)arg);
+ JS val = write ? (JS)stack.pop() : null;
CallMarker o = stack.findCall();
if(!(o instanceof TrapMarker)) throw new JSExn("tried to CASCADE while not in a trap");
TrapMarker tm = (TrapMarker) o;
- JS key = tm.t.key;
- JS target = tm.t.target;
+ JS key = tm.t.key();
+ JS target = tm.t.target();
if(tm.t.isWriteTrap() != write) throw new JSExn("tried to do a " + (write?"write":"read") + " cascade in a " + (write?"read":"write") + " trap");
- Trap t = write ? tm.t.nextWriteTrap() : tm.t.nextReadTrap();
+ JS.Trap t = write ? tm.t.nextWrite() : tm.t.nextRead();
// FIXME: Doesn't handle multiple levels of clone's (probably can just make this a while loop)
if(t == null && target instanceof JS.Clone) {
target = ((JS.Clone)target).clonee;
t = target.getTrap(key);
- if(t != null) t = write ? t.writeTrap() : t.readTrap();
+ if(t != null) t = write ? t.write() : t.read();
}
if(write) {
tm.cascadeHappened = true;
target.put(key,val);
} else {
JS ret = target.get(key);
- if (ret == JS.METHOD) ret = new Stub(target, key);
- stack.push(ret);
+ if (ret != null && ret instanceof JS.Method) ret = new Stub(target, key);
+ stack.push(ret);
}
if (pausecount > initialPauseCount) { pc++; return null; } // we were paused
}
}
case PUT: {
- JS val = stack.pop();
- JS key = stack.pop();
- JS target = stack.peek();
- if (target == null) throw je("tried to put " + JS.debugToString(val) + " to the " + JS.debugToString(key) + " property on the null value");
- if (key == null) throw je("tried to assign \"" + JS.debugToString(val) + "\" to the null key");
+ JS val = (JS)stack.pop();
+ JS key = (JS)stack.pop();
+ JS target = (JS)stack.peek();
+ if (target == null) throw je("tried to put " + JSU.str(val) + " to the " + JSU.str(key) + " property on the null value");
+ if (key == null) throw je("tried to assign \"" + JSU.str(val) + "\" to the null key");
- Trap t = target.getTrap(key);
- if(t != null) t = t.writeTrap();
+ JS.Trap t = target.getTrap(key);
+ if(t != null) t = t.write();
if(t == null && target instanceof JS.Clone) {
target = ((JS.Clone)target).clonee;
t = target.getTrap(key);
- if(t != null) t = t.writeTrap();
+ if(t != null) t = t.nextWrite();
}
stack.push(val);
case GET_PRESERVE: {
JS target, key;
if (op == GET) {
- key = arg == null ? stack.pop() : (JS)arg;
- target = stack.pop();
+ key = arg == null ? (JS)stack.pop() : (JS)arg;
+ target = (JS)stack.pop();
} else {
- key = stack.pop();
- target = stack.peek();
+ key = (JS)stack.pop();
+ target = (JS)stack.peek();
stack.push(key);
}
JS ret = null;
- if (key == null) throw je("tried to get the null key from " + JS.debugToString(target));
- if (target == null) throw je("tried to get property \"" + JS.debugToString(key) + "\" from the null object");
+ if (key == null) throw je("tried to get the null key from " + JSU.str(target));
+ if (target == null) throw je("tried to get property \"" + JSU.str(key) + "\" from the null object");
- Trap t = target.getTrap(key);
- if(t != null) t = t.readTrap();
+ JS.Trap t = target.getTrap(key);
+ if(t != null) t = t.read();
if(t == null && target instanceof JS.Clone) {
target = ((JS.Clone)target).clonee;
t = target.getTrap(key);
- if(t != null) t = t.readTrap();
+ if(t != null) t = t.nextRead();
}
if(t != null) {
} else {
ret = target.get(key);
if (pausecount > initialPauseCount) { pc++; return null; } // we were paused
- if (ret == JS.METHOD) ret = new Stub(target, key);
+
+ if (ret != null && ret instanceof JS.Method) ret = new Stub(target, key);
stack.push(ret);
}
break;
}
case CALL: case CALLMETHOD: {
- int numArgs = JS.toInt((JS)arg);
-
- JS[] rest = numArgs > 3 ? new JS[numArgs - 3] : null;
- for(int i=numArgs - 1; i>2; i--) rest[i-3] = stack.pop();
- JS a2 = numArgs <= 2 ? null : stack.pop();
- JS a1 = numArgs <= 1 ? null : stack.pop();
- JS a0 = numArgs <= 0 ? null : stack.pop();
-
+ // FIXME: can a lot of simple cases in Parser be
+ // reduced so creating a new JS[] is not necessary?
+ JS[] jsargs;
+ if (arg instanceof JSNumber.I) {
+ jsargs = new JS[((JSNumber.I)arg).toInt()];
+ for (int i=0; i < jsargs.length; i++) jsargs[i] = (JS)stack.pop();
+ } else jsargs = (JS[])arg;
+
JS method = null;
JS ret = null;
- JS object = stack.pop();
+ JS object = (JS)stack.pop();
if (op == CALLMETHOD) {
- if (object == JS.METHOD) {
- method = stack.pop();
- object = stack.pop();
- } else if (object == null) {
- method = stack.pop();
- object = stack.pop();
- throw new JSExn("function '"+JS.debugToString(method)+"' not found in " + object.getClass().getName());
+ if (object == null) {
+ method = (JS)stack.pop();
+ object = (JS)stack.pop();
+ throw new JSExn("function '"+JSU.str(method)+"' not found in " + object.getClass().getName());
+ } else if (object instanceof JS.Method) {
+ method = (JS)stack.pop();
+ object = (JS)stack.pop();
} else {
stack.pop();
stack.pop();
if (object instanceof JSFunction) {
stack.push(new CallMarker(this));
- stack.push(new JSArgs(a0,a1,a2,rest,numArgs,object));
+ stack.push(jsargs);
f = (JSFunction)object;
scope = f.parentScope;
pc = -1;
break;
} else {
JS c = (JS)object;
- ret = method == null ? c.call(a0, a1, a2, rest, numArgs) : c.callMethod(method, a0, a1, a2, rest, numArgs);
+ ret = method == null ? c.call(jsargs) : c.call(method, jsargs);
}
if (pausecount > initialPauseCount) { pc++; return null; }
}
case THROW:
- throw new JSExn(stack.pop(), this);
+ throw new JSExn((JS)stack.pop(), this);
/* FIXME GRAMMAR
case MAKE_GRAMMAR: {
final Grammar r = (Grammar)arg;
final JSScope final_scope = scope;
Grammar r2 = new Grammar() {
- public int match(String s, int start, Hash v, JSScope scope) throws JSExn {
+ public int match(String s, int start, Map v, JSScope scope) throws JSExn {
return r.match(s, start, v, final_scope);
}
- public int matchAndWrite(String s, int start, Hash v, JSScope scope, String key) throws JSExn {
+ public int matchAndWrite(String s, int start, Map v, JSScope scope, String key) throws JSExn {
return r.matchAndWrite(s, start, v, final_scope, key);
}
public Object call(Object a0, Object a1, Object a2, Object[] rest, int nargs) throws JSExn {
- Hash v = new Hash();
+ Map v = new Map();
r.matchAndWrite((String)a0, 0, v, final_scope, "foo");
return v.get("foo");
}
}
*/
case ADD_TRAP: case DEL_TRAP: {
- JS val = stack.pop();
- JS key = stack.pop();
- JS js = stack.peek();
+ JS val = (JS)stack.pop();
+ JS key = (JS)stack.pop();
+ JS js = (JS)stack.peek();
// A trap addition/removal
- if(!(val instanceof JSFunction)) throw new JSExn("tried to add/remove a non-function trap");
- if(op == ADD_TRAP) js.addTrap(key, (JSFunction)val);
- else js.delTrap(key, (JSFunction)val);
+ if(!(val instanceof JSFunction)) throw new JSExn("tried to add/remove a non-function trap"); // FIXME
+ if(op == ADD_TRAP) js.addTrap(key, val);
+ else js.delTrap(key, val);
break;
}
if(count < 2) throw new Error("this should never happen");
if(count == 2) {
// common case
- JS right = stack.pop();
- JS left = stack.pop();
+ JS right = (JS)stack.pop();
+ JS left = (JS)stack.pop();
JS ret;
if(left instanceof JSString || right instanceof JSString)
- ret = JS.S(JS.toString(left).concat(JS.toString(right)));
+ ret = JSU.S(JSU.toString(left).concat(JSU.toString(right)));
else if(left instanceof JSNumber.D || right instanceof JSNumber.D)
- ret = JS.N(JS.toDouble(left) + JS.toDouble(right));
+ ret = JSU.N(JSU.toDouble(left) + JSU.toDouble(right));
else {
- long l = JS.toLong(left) + JS.toLong(right);
- if(l < Integer.MIN_VALUE || l > Integer.MAX_VALUE) ret = JS.N(l);
- ret = JS.N((int)l);
+ long l = JSU.toLong(left) + JSU.toLong(right);
+ if(l < Integer.MIN_VALUE || l > Integer.MAX_VALUE) ret = JSU.N(l);
+ ret = JSU.N((int)l);
}
stack.push(ret);
} else {
JS[] args = new JS[count];
- while(--count >= 0) args[count] = stack.pop();
+ while(--count >= 0) args[count] = (JS)stack.pop();
if(args[0] instanceof JSString) {
StringBuffer sb = new StringBuffer(64);
- for(int i=0;i<args.length;i++) sb.append(JS.toString(args[i]));
- stack.push(JS.S(sb.toString()));
+ for(int i=0;i<args.length;i++) sb.append(JSU.toString(args[i]));
+ stack.push(JSU.S(sb.toString()));
} else {
int numStrings = 0;
for(int i=0;i<args.length;i++) if(args[i] instanceof JSString) numStrings++;
if(numStrings == 0) {
double d = 0.0;
- for(int i=0;i<args.length;i++) d += JS.toDouble(args[i]);
- stack.push(JS.N(d));
+ for(int i=0;i<args.length;i++) d += JSU.toDouble(args[i]);
+ stack.push(JSU.N(d));
} else {
int i=0;
StringBuffer sb = new StringBuffer(64);
if(!(args[0] instanceof JSString || args[1] instanceof JSString)) {
double d=0.0;
do {
- d += JS.toDouble(args[i++]);
+ d += JSU.toDouble(args[i++]);
} while(!(args[i] instanceof JSString));
- sb.append(JS.toString(JS.N(d)));
+ sb.append(JSU.toString(JSU.N(d)));
}
- while(i < args.length) sb.append(JS.toString(args[i++]));
- stack.push(JS.S(sb.toString()));
+ while(i < args.length) sb.append(JSU.toString(args[i++]));
+ stack.push(JSU.S(sb.toString()));
}
}
}
}
default: {
- JS right = stack.pop();
- JS left = stack.pop();
+ JS right = (JS)stack.pop();
+ JS left = (JS)stack.pop();
switch(op) {
- case BITOR: stack.push(JS.N(JS.toLong(left) | JS.toLong(right))); break;
- case BITXOR: stack.push(JS.N(JS.toLong(left) ^ JS.toLong(right))); break;
- case BITAND: stack.push(JS.N(JS.toLong(left) & JS.toLong(right))); break;
-
- case SUB: stack.push(JS.N(JS.toDouble(left) - JS.toDouble(right))); break;
- case MUL: stack.push(JS.N(JS.toDouble(left) * JS.toDouble(right))); break;
- case DIV: stack.push(JS.N(JS.toDouble(left) / JS.toDouble(right))); break;
- case MOD: stack.push(JS.N(JS.toDouble(left) % JS.toDouble(right))); break;
+ case BITOR: stack.push(JSU.N(JSU.toLong(left) | JSU.toLong(right))); break;
+ case BITXOR: stack.push(JSU.N(JSU.toLong(left) ^ JSU.toLong(right))); break;
+ case BITAND: stack.push(JSU.N(JSU.toLong(left) & JSU.toLong(right))); break;
+
+ case SUB: stack.push(JSU.N(JSU.toDouble(left) - JSU.toDouble(right))); break;
+ case MUL: stack.push(JSU.N(JSU.toDouble(left) * JSU.toDouble(right))); break;
+ case DIV: stack.push(JSU.N(JSU.toDouble(left) / JSU.toDouble(right))); break;
+ case MOD: stack.push(JSU.N(JSU.toDouble(left) % JSU.toDouble(right))); break;
- case LSH: stack.push(JS.N(JS.toLong(left) << JS.toLong(right))); break;
- case RSH: stack.push(JS.N(JS.toLong(left) >> JS.toLong(right))); break;
- case URSH: stack.push(JS.N(JS.toLong(left) >>> JS.toLong(right))); break;
+ case LSH: stack.push(JSU.N(JSU.toLong(left) << JSU.toLong(right))); break;
+ case RSH: stack.push(JSU.N(JSU.toLong(left) >> JSU.toLong(right))); break;
+ case URSH: stack.push(JSU.N(JSU.toLong(left) >>> JSU.toLong(right))); break;
//#repeat </<=/>/>= LT/LE/GT/GE
case LT: {
if(left instanceof JSString && right instanceof JSString)
- stack.push(JS.B(JS.toString(left).compareTo(JS.toString(right)) < 0));
+ stack.push(JSU.B(JSU.toString(left).compareTo(JSU.toString(right)) < 0));
else
- stack.push(JS.B(JS.toDouble(left) < JS.toDouble(right)));
+ stack.push(JSU.B(JSU.toDouble(left) < JSU.toDouble(right)));
}
//#end
boolean ret;
if(left == null && right == null) ret = true;
else if(left == null || right == null) ret = false;
- else ret = left.jsequals(right);
- stack.push(JS.B(op == EQ ? ret : !ret)); break;
+ else ret = left.equals(right);
+ stack.push(JSU.B(op == EQ ? ret : !ret)); break;
}
default: throw new Error("unknown opcode " + op);
*/
void catchException(JSExn e) throws JSExn {
while(!stack.empty()) {
- JS o = stack.pop();
+ Object o = stack.pop();
if (o instanceof CatchMarker || o instanceof TryMarker) {
boolean inCatch = o instanceof CatchMarker;
if(inCatch) {
- o = stack.pop();
+ o = (JS)stack.pop();
if(((TryMarker)o).finallyLoc < 0) continue; // no finally block, keep going
}
if(!inCatch && ((TryMarker)o).catchLoc >= 0) {
throw e;
}
- void setupTrap(Trap t, JS val, CallMarker cm) throws JSExn {
+ void setupTrap(JS.Trap t, JS val, CallMarker cm) throws JSExn {
stack.push(cm);
- stack.push(new TrapArgs(t,val));
- f = t.f;
+ stack.push(new TrapArgs(t, val));
+ f = (JSFunction)t.function(); // FIXME
scope = f.parentScope;
pc = 0;
}
// Markers //////////////////////////////////////////////////////////////////////
- static class Marker extends JS {
- public JS get(JS key) throws JSExn { throw new Error("this should not be accessible from a script"); }
- public void put(JS key, JS val) throws JSExn { throw new Error("this should not be accessible from a script"); }
- public String coerceToString() { throw new Error("this should not be accessible from a script"); }
- public JS call(JS a0, JS a1, JS a2, JS[] rest, int nargs) throws JSExn { throw new Error("this should not be accessible from a script"); }
- }
+ static class Marker {}
static class CallMarker extends Marker {
final int pc;
}
static class TrapMarker extends CallMarker {
- Trap t;
+ JS.Trap t;
JS val;
boolean cascadeHappened;
final boolean pauseOnPut;
- public TrapMarker(Interpreter cx, Trap t, JS val) { this(cx,t,val,false); }
- public TrapMarker(Interpreter cx, Trap t, JS val, boolean pauseOnPut) {
+ public TrapMarker(Interpreter cx, JS.Trap t, JS val) { this(cx,t,val,false); }
+ public TrapMarker(Interpreter cx, JS.Trap t, JS val, boolean pauseOnPut) {
super(cx);
this.t = t;
this.val = val;
}
static class CatchMarker extends Marker { }
- private static CatchMarker catchMarker = new CatchMarker();
+ private static final CatchMarker catchMarker = new CatchMarker();
static class LoopMarker extends Marker {
final public int location;
public FinallyData(JSExn exn) { this.exn = exn; this.op = -1; this.arg = null; } // Just throw this exn
}
- static class TrapArgs extends JS {
+ static class TrapArgs extends JS.Immutable {
private Trap t;
private JS val;
public TrapArgs(Trap t, JS val) { this.t = t; this.val = val; }
public JS get(JS key) throws JSExn {
- if(JS.isInt(key) && JS.toInt(key) == 0) return val;
- //#switch(JS.toString(key))
- case "trapee": return t.target;
- case "callee": return t.f;
- case "trapname": return t.key;
- case "length": return t.isWriteTrap() ? ONE : ZERO;
+ if(JSU.isInt(key) && JSU.toInt(key) == 0) return val;
+ //#switch(JSU.str(key))
+ case "trapee": return t.target();
+ case "callee": return t.function();
+ case "trapname": return t.key();
+ case "length": return t.isWriteTrap() ? JSU.ONE : JSU.ZERO;
//#end
return super.get(key);
}
}
- static class JSArgs extends JS {
- private final JS a0;
- private final JS a1;
- private final JS a2;
- private final JS[] rest;
- private final int nargs;
- private final JS callee;
-
- public JSArgs(JS callee) { this(null,null,null,null,0,callee); }
- public JSArgs(JS a0, JS callee) { this(a0,null,null,null,1,callee); }
- public JSArgs(JS a0, JS a1, JS a2, JS[] rest, int nargs, JS callee) {
- this.a0 = a0; this.a1 = a1; this.a2 = a2;
- this.rest = rest; this.nargs = nargs;
- this.callee = callee;
- }
-
- public JS get(JS key) throws JSExn {
- if(JS.isInt(key)) {
- int n = JS.toInt(key);
- switch(n) {
- case 0: return a0;
- case 1: return a1;
- case 2: return a2;
- default: return n>= 0 && n < nargs ? rest[n-3] : null;
- }
- }
- //#switch(JS.toString(key))
- case "callee": return callee;
- case "length": return JS.N(nargs);
- //#end
- return super.get(key);
- }
- }
-
- static class Stub extends JS {
+ static class Stub extends JS.Immutable {
private JS method;
JS obj;
public Stub(JS obj, JS method) { this.obj = obj; this.method = method; }
- public JS call(JS a0, JS a1, JS a2, JS[] rest, int nargs) throws JSExn {
- return ((JS)obj).callMethod(method, a0, a1, a2, rest, nargs);
- }
+ public JS call(JS[] args) throws JSExn { return obj.call(method, args); }
}
- static class Stack {
+ static final class Stack {
private static final int MAX_STACK_SIZE = 512;
- private JS[] stack = new JS[64];
+ private Object[] stack = new Object[8];
private int sp = 0;
boolean empty() { return sp == 0; }
- void push(JS o) throws JSExn { if(sp == stack.length) grow(); stack[sp++] = o; }
- JS peek() { if(sp == 0) throw new RuntimeException("Stack underflow"); return stack[sp-1]; }
- final JS pop() { if(sp == 0) throw new RuntimeException("Stack underflow"); return stack[--sp]; }
+ void push(Object o) throws JSExn { if(sp == stack.length) grow(); stack[sp++] = o; }
+ Object peek() { if(sp == 0) throw new RuntimeException("stack underflow"); return stack[sp-1]; }
+ final Object pop() { if(sp == 0) throw new RuntimeException("stack underflow"); return stack[--sp]; }
void swap() throws JSExn {
if(sp < 2) throw new JSExn("stack overflow");
- JS tmp = stack[sp-2];
+ Object tmp = stack[sp-2];
stack[sp-2] = stack[sp-1];
stack[sp-1] = tmp;
}
return null;
}
void grow() throws JSExn {
- if(stack.length >= MAX_STACK_SIZE) throw new JSExn("Stack overflow");
- JS[] stack2 = new JS[stack.length * 2];
+ if(stack.length >= MAX_STACK_SIZE) throw new JSExn("stack overflow");
+ Object[] stack2 = new Object[stack.length * 2];
System.arraycopy(stack,0,stack2,0,stack.length);
+ stack = stack2;
}
void backtrace(JSExn e) {
if(cm.f == null) break;
String s = cm.f.sourceName + ":" + cm.f.line[cm.pc-1];
if(cm instanceof Interpreter.TrapMarker)
- s += " (trap on " + JS.debugToString(((Interpreter.TrapMarker)cm).t.key) + ")";
+ s += " (trap on " + JSU.str(((Interpreter.TrapMarker)cm).t.key()) + ")";
e.addBacktrace(s);
}
}