package org.xwt.js;
import org.xwt.util.*;
+import org.xwt.*;
import java.io.*;
import java.util.*;
/**
* The public API for the JS engine. JS itself is actually a class
* implementing the absolute minimal amount of functionality for an
- * Object which can be manipulated by JavaScript code. The static
- * methods, fields, and inner classes of JS define the publicly
- * visible API for the XWT JavaScript engine; code outside this
- * package should never depend on anything not defined in this file.
+ * Object which can be manipulated by JavaScript code.
*/
-public abstract class JS {
-
+public class JS {
// Public Helper Methods //////////////////////////////////////////////////////////////////////
/** parse and compile a function */
- public static CompiledFunction parse(String sourceName, int firstLine, Reader sourceCode) throws IOException {
- return new CompiledFunction(sourceName, firstLine, sourceCode, null);
+ public static JSFunction parse(String sourceName, int firstLine, Reader sourceCode) throws IOException {
+ return new JSFunction(sourceName, firstLine, sourceCode, null);
}
/** coerce an object to a Boolean */
public static boolean toBoolean(Object o) {
if (o == null) return false;
if (o instanceof Boolean) return ((Boolean)o).booleanValue();
- if (o instanceof Number) return o.equals(new Integer(0));
+ if (o instanceof Long) return ((Long)o).longValue() != 0;
+ if (o instanceof Integer) return ((Integer)o).intValue() != 0;
+ if (o instanceof Number) {
+ double d = ((Number) o).doubleValue();
+ // NOTE: d == d is a test for NaN. It should be faster than Double.isNaN()
+ return d != 0.0 && d == d;
+ }
+ if (o instanceof String) return ((String)o).length() != 0;
return true;
}
/** coerce an object to a Long */
public static long toLong(Object o) { return toNumber(o).longValue(); }
+ /** coerce an object to an Int */
+ public static int toInt(Object o) { return toNumber(o).intValue(); }
+
/** coerce an object to a Double */
public static double toDouble(Object o) { return toNumber(o).doubleValue(); }
public static Number toNumber(Object o) {
if (o == null) return new Long(0);
if (o instanceof Number) return ((Number)o);
- if (o instanceof String) try { return new Double((String)o); } catch (NumberFormatException e) { return new Double(0); }
+
+ // NOTE: There are about 3 pages of rules in ecma262 about string to number conversions
+ // We aren't even close to following all those rules. We probably never will be.
+ if (o instanceof String)
+ try { return new Double((String)o); } catch (NumberFormatException e) { return new Double(Double.NaN); }
if (o instanceof Boolean) return ((Boolean)o).booleanValue() ? new Long(1) : new Long(0);
if (o instanceof JS) return ((JS)o).coerceToNumber();
throw new Error("toNumber() got object of type " + o.getClass().getName() + " which we don't know how to handle");
}
-
+ /** coerce an object to a String */
+ public static String toString(Object o) {
+ if(o == null) return "null";
+ if(o instanceof String) return (String) o;
+ if(o instanceof Integer || o instanceof Long || o instanceof Boolean) return o.toString();
+ if(o instanceof JS) return ((JS)o).coerceToString();
+ if(o instanceof Double || o instanceof Float) {
+ double d = ((Number)o).doubleValue();
+ if((int)d == d) return Integer.toString((int)d);
+ return o.toString();
+ }
+ return o.toString();
+ }
+
// Instance Methods ////////////////////////////////////////////////////////////////////
- public abstract Object get(Object key) throws JS.Exn;
- public abstract void put(Object key, Object val) throws JS.Exn;
- public abstract Object[] keys();
-
- public Number coerceToNumber() { throw new Error("you cannot coerce a " + this.getClass().getName() + " into a Number"); }
- public String coerceToString() { throw new Error("you cannot coerce a " + this.getClass().getName() + " into a String"); }
- public boolean coerceToBoolean() { throw new Error("you cannot coerce a " + this.getClass().getName() + " into a Boolean"); }
+ // this gets around a wierd fluke in the Java type checking rules for ?..:
+ public static final Object T = Boolean.TRUE;
+ public static final Object F = Boolean.FALSE;
+
+ // FEATURE: be smart here; perhaps intern
+ public static final Number N(int i) { return new Integer(i); }
+ public static final Number N(long l) { return new Long(l); }
+ public static final Number N(double d) { return new Double(d); }
+ public static final Boolean B(boolean b) { return b ? Boolean.TRUE : Boolean.FALSE; }
+
+ private static Enumeration emptyEnumeration = new Enumeration() {
+ public boolean hasMoreElements() { return false; }
+ public Object nextElement() { throw new NoSuchElementException(); }
+ };
+
+ private Hash entries = null;
+ public Enumeration keys() { return entries == null ? emptyEnumeration : entries.keys(); }
+ public Object get(Object key) { return entries == null ? null : entries.get(key, null); }
+ public void put(Object key, Object val) { if (entries == null) entries = new Hash(); entries.put(key, null, val); }
+
+ // note that we don't actually implement trappable... we just provide these for subclasses which choose to
+ public JSTrap getTrap(Object key) { return entries == null ? null : (JSTrap)entries.get(key, JSTrap.class); }
+ public void putTrap(Object key, JSTrap t) { if (entries == null) entries = new Hash(); entries.put(key, JSTrap.class, t); }
+
+ public Number coerceToNumber() { throw new JS.Exn("tried to coerce a JavaScript object to a Number"); }
+ public String coerceToString() { throw new JS.Exn("tried to coerce a JavaScript object to a String"); }
+ public boolean coerceToBoolean() { throw new JS.Exn("tried to coerce a JavaScript object to a Boolean"); }
+
+ public String typeName() { return "object"; }
// Inner Classes /////////////////////////////////////////////////////////////////////////
- /** A sensible implementation of the abstract methods in the JS class */
- public static class Obj extends JS {
- private Hash entries = new Hash();
- private boolean sealed = false;
- public Obj() { this(false); }
- public Obj(boolean sealed) { this.sealed = sealed; }
- /** a sealed object cannot have its properties modified */
- public void setSeal(boolean sealed) { this.sealed = sealed; }
- public Object get(Object key) { return entries.get(key); }
- public void put(Object key, Object val) { if (!sealed) entries.put(key, val); }
- public Object[] keys() { return(entries.keys()); }
- }
-
/** An exception which can be thrown and caught by JavaScript code */
public static class Exn extends RuntimeException {
private Object js = null;
public Object getObject() { return js; }
}
- /** The publicly-visible face of JavaScript Array objects */
- public static class Array extends ArrayImpl {
- public Array() { }
- public Array(int size) { super(size); }
- public void setSize(int i) { super.setSize(i); }
- public int length() { return super.length(); }
- public Object elementAt(int i) { return super.elementAt(i); }
- public void addElement(Object o) { super.addElement(o); }
- public void setElementAt(Object o, int i) { super.setElementAt(o, i); }
- public Object get(Object key) { return super._get(key); }
- public void put(Object key, Object val) { super._put(key, val); }
- }
-
- /** Any object which becomes part of the scope chain must support this interface */
- public static class Scope extends ScopeImpl {
- public Scope(Scope parentScope) { this(parentScope, false); }
- public Scope(Scope parentScope, boolean sealed) { super(parentScope, sealed); }
- /** transparent scopes are not returned by THIS */
- public boolean isTransparent() { return super.isTransparent(); }
- public boolean has(Object key) { return super.has(key); }
- public Object get(Object key) { return super._get(key); }
- public void put(Object key, Object val) { super._put(key, val); }
- public void declare(String s) { super.declare(s); }
- }
-
- /** anything that is callable with the () operator */
- public static abstract class Callable extends JS.Obj {
- public abstract Object call(JS.Array args) throws JS.Exn;
- }
-
- /** a Callable which was compiled from JavaScript code */
- public static class CompiledFunction extends CompiledFunctionImpl {
- public Object call(JS.Array args, JS.Scope scope) throws JS.Exn { return super.call(args, scope); }
- CompiledFunction(String sourceName, int firstLine, Reader sourceCode, Scope scope) throws IOException {
- super(sourceName, firstLine, sourceCode, scope);
+ /** the result of a graft */
+ // FIXME: uber-broken
+ public static class Graft extends JSCallable {
+ private JS graftee;
+ private Object replaced_key;
+ private Object replaced_val;
+ public Graft(Object graftee, Object key, Object val) {
+ if (graftee instanceof JSArray) throw new JS.Exn("can't graft onto JSArrays (yet)");
+ if (graftee instanceof JSCallable) throw new JS.Exn("can't graft onto JSCallables (yet)");
+ if (graftee instanceof JSScope) throw new JS.Exn("can't graft onto JSScopes (yet)");
+ this.graftee = (JS)graftee;
+ replaced_key = key;
+ replaced_val = val;
}
- }
-
- public static final JS Math = new org.xwt.js.Math();
-
- /** encapsulates a single JavaScript thread; the JS.Thread->java.lang.Thread mapping is 1:1 */
- public static class Thread {
-
- CompiledFunction currentCompiledFunction = null;
- Vec stack = new Vec();
- int line = -1;
-
- /** binds this thread to the current Java Thread */
- public void bindToCurrentJavaThread() { javaThreadToJSThread.put(java.lang.Thread.currentThread(), this); }
-
- /** returns the line of code that is currently executing */
- public int getLine() { return line; }
-
- /** returns the name of the source code file which declared the currently executing function */
- public String getSourceName() { return currentCompiledFunction == null ? null : currentCompiledFunction.getSourceName(); }
-
- /** fetches the currently-executing javascript function */
- public JS.CompiledFunction getCurrentCompiledFunction() { return currentCompiledFunction; }
-
-
- // Statics ///////////////////////////////////////////////////////////////////////
-
- private static Hashtable javaThreadToJSThread = new Hashtable();
-
- /** returns the JS thread for a given Java thread, creating one if necessary */
- public static JS.Thread fromJavaThread(java.lang.Thread t) {
- JS.Thread ret = (JS.Thread)javaThreadToJSThread.get(t);
- if (ret == null) {
- ret = new JS.Thread();
- ret.bindToCurrentJavaThread();
- }
- return ret;
+ public boolean equals(Object o) { return (this == o || graftee.equals(o)); }
+ public int hashCode() { return graftee.hashCode(); }
+ public Object get(Object key) { return replaced_key.equals(key) ? replaced_val : graftee.get(key); }
+ public void put(Object key, Object val) { graftee.put(key, val); }
+ /*
+ public Object call(Object method, JSArray args) {
+ if (replaced_key.equals(method)) return ((JSCallable)replaced_val).call(null, args);
+ else if (graftee instanceof JSCallable) return ((JSCallable)graftee).call(method, args);
+ else throw new JS.Exn("cannot call this value");
+ }
+ */
+ public Number coerceToNumber() { return graftee.coerceToNumber(); }
+ public String coerceToString() { return graftee.coerceToString(); }
+ public boolean coerceToBoolean() { return graftee.coerceToBoolean(); }
+ public String typeName() { return graftee.typeName(); }
+ public Enumeration keys() {
+ return new Enumeration() {
+ Enumeration graftee_enumeration = graftee.keys();
+ boolean returned_replaced = false;
+ public boolean hasMoreElements() {
+ if (graftee_enumeration.hasMoreElements()) return true;
+ return !returned_replaced;
+ }
+ public Object nextElement() {
+ if (!graftee_enumeration.hasMoreElements()) {
+ if (returned_replaced) throw new NoSuchElementException();
+ returned_replaced = true;
+ return replaced_key;
+ } else {
+ Object ret = graftee_enumeration.nextElement();
+ if (!returned_replaced && ret.equals(replaced_key)) returned_replaced = true;
+ return ret;
+ }
+ }
+ };
}
-
}
}