import java.io.*;
import java.util.*;
-/** Implementation of a JavaScript JSScope */
-public class JSScope extends JSCallable {
- private JSScope parentJSScope;
+/** Implementation of a JavaScript Scope */
+public class JSScope extends JS {
+
+ private JSScope parentScope;
+
private static final Object NULL_PLACEHOLDER = new Object();
- public JSScope(JSScope parentJSScope) {
- if (parentJSScope == this) throw new Error("can't make a scope its own parent!");
- this.parentJSScope = parentJSScope;
- }
- public boolean isTransparent() { return false; }
+ public JSScope(JSScope parentScope) { this.parentScope = parentScope; }
public void declare(String s) { super.put(s, NULL_PLACEHOLDER); }
- public JSScope getParentJSScope() { return parentJSScope; }
- public boolean has(Object key) { return super.get(key) != null; }
+ public JSScope getParentScope() { return parentScope; }
public Object get(Object key) {
Object o = super.get(key);
if (o != null) return o == NULL_PLACEHOLDER ? null : o;
- else return parentJSScope == null ? null : parentJSScope.get(key);
+ else return parentScope == null ? null : parentScope.get(key);
}
+ public boolean has(Object key) { return super.get(key) != null; }
public void put(Object key, Object val) {
- if (parentJSScope != null && !has(key)) parentJSScope.put(key, val);
+ if (parentScope != null && !has(key)) parentScope.put(key, val);
else super.put(key, val == null ? NULL_PLACEHOLDER : val);
}
public static class Global extends JSScope {
private final static Double NaN = new Double(Double.NaN);
private final static Double POSITIVE_INFINITY = new Double(Double.POSITIVE_INFINITY);
-
- public Global(JSScope parent) { super(parent); }
+ public Global() { super(null); }
public Object get(Object key) {
//#switch(key)
case "NaN": return NaN;
case 0: {
//#switch(method)
case "stringFromCharCode":
- JSArray args = new JSArray();
- for(int i=0; i<nargs; i++) args.addElement(i==0?a0:i==1?a1:i==2?a2:rest[i-3]);
- return stringFromCharCode(args);
- default: break;
+ char buf[] = new char[nargs];
+ for(int i=0; i<nargs; i++) buf[i] = (char)(JS.toInt(i==0?a0:i==1?a1:i==2?a2:rest[i-3]) & 0xffff);
+ return new String(buf);
//#end
+ break;
}
case 1: {
//#switch(method)
case "parseInt": return parseInt(a0, N(0));
case "isNaN": { double d = toDouble(a0); return d == d ? F : T; }
case "isFinite": { double d = toDouble(a0); return (d == d && !Double.isInfinite(d)) ? T : F; }
- case "decodeURI": throw new JS.Exn("unimplemented");
- case "decodeURIComponent": throw new JS.Exn("unimplemented");
- case "encodeURI": throw new JS.Exn("unimplemented");
- case "encodeURIComponent": throw new JS.Exn("unimplemented");
- case "escape": throw new JS.Exn("unimplemented");
- case "unescape": throw new JS.Exn("unimplemented");
- default: break;
+ case "decodeURI": throw new JSExn("unimplemented");
+ case "decodeURIComponent": throw new JSExn("unimplemented");
+ case "encodeURI": throw new JSExn("unimplemented");
+ case "encodeURIComponent": throw new JSExn("unimplemented");
+ case "escape": throw new JSExn("unimplemented");
+ case "unescape": throw new JSExn("unimplemented");
//#end
+ break;
}
case 2: {
//#switch(method)
case "parseInt": return parseInt(a0, a1);
- default: break;
//#end
+ break;
}
}
return super.callMethod(method, a0, a1, a2, rest, nargs);
}
- private Object stringFromCharCode(JSArray args) {
- char buf[] = new char[args.length()];
- for(int i=0;i<args.length();i++) buf[i] = (char)(JS.toInt(args.elementAt(i)) & 0xffff);
- return new String(buf);
- }
-
private Object parseInt(Object arg, Object r) {
int radix = JS.toInt(r);
String s = (String)arg;
radix = 16;
} else {
radix = 8;
- if(length == start || Character.digit(s.charAt(start+1),8)==-1) return new Integer(0);
+ if(length == start || Character.digit(s.charAt(start+1),8)==-1) return JS.ZERO;
}
}
if(radix == 0) radix = 10;
// try the fast way first
try {
String s2 = start == 0 ? s : s.substring(start);
- return new Integer(sign*Integer.parseInt(s2,radix));
+ return JS.N(sign*Integer.parseInt(s2,radix));
} catch(NumberFormatException e) { }
// fall through to a slower but emca-compliant method
for(int i=start;i<length;i++) {
n = n*radix + digit;
if(n < 0) return NaN; // overflow;
}
- if(n <= Integer.MAX_VALUE) return new Integer(sign*(int)n);
- return new Long((long)sign*n);
+ if(n <= Integer.MAX_VALUE) return JS.N(sign*(int)n);
+ return JS.N((long)sign*n);
}
private Object parseFloat(Object arg) {
// trailing garbage
while(start < end) {
try {
- return new Double(s.substring(start,length));
+ return JS.N(s.substring(start,length));
} catch(NumberFormatException e) { }
end--;
}