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25 
26 package jdk.nashorn.internal.objects;
27 
28 import static jdk.nashorn.internal.lookup.Lookup.MH;
29 import static jdk.nashorn.internal.runtime.ECMAErrors.typeError;
30 import static jdk.nashorn.internal.runtime.ScriptRuntime.UNDEFINED;
31 
32 import java.lang.invoke.MethodHandle;
33 import java.lang.invoke.MethodHandles;
34 import java.util.ArrayList;
35 import java.util.Arrays;
36 import java.util.BitSet;
37 import jdk.nashorn.internal.runtime.AccessorProperty;
38 import jdk.nashorn.internal.runtime.JSType;
39 import jdk.nashorn.internal.runtime.Property;
40 import jdk.nashorn.internal.runtime.PropertyDescriptor;
41 import jdk.nashorn.internal.runtime.PropertyMap;
42 import jdk.nashorn.internal.runtime.ScriptFunction;
43 import jdk.nashorn.internal.runtime.ScriptObject;
44 import jdk.nashorn.internal.runtime.ScriptRuntime;
45 import jdk.nashorn.internal.runtime.arrays.ArrayData;
46 import jdk.nashorn.internal.runtime.arrays.ArrayIndex;
47 
48 /**
49  * ECMA 10.6 Arguments Object.
50  *
51  * Arguments object used for non-strict mode functions. For strict mode, we use
52  * a different implementation (@see NativeStrictArguments). In non-strict mode,
53  * named argument access and index argument access (arguments[i]) are linked.
54  * Modifications reflect on each other access -- till arguments indexed element
55  * is deleted. After delete, there is no link between named access and indexed
56  * access for that deleted index alone.
57  */
58 public final class NativeArguments extends ScriptObject {
59 
60     private static final MethodHandle G$LENGTH = findOwnMH("G$length", Object.class, Object.class);
61     private static final MethodHandle S$LENGTH = findOwnMH("S$length", void.class, Object.class, Object.class);
62     private static final MethodHandle G$CALLEE = findOwnMH("G$callee", Object.class, Object.class);
63     private static final MethodHandle S$CALLEE = findOwnMH("S$callee", void.class, Object.class, Object.class);
64 
65     private static final PropertyMap map$;
66 
67     static {
68         final ArrayList<Property> properties = new ArrayList<>(2);
69         properties.add(AccessorProperty.create("length", Property.NOT_ENUMERABLE, G$LENGTH, S$LENGTH));
70         properties.add(AccessorProperty.create("callee", Property.NOT_ENUMERABLE, G$CALLEE, S$CALLEE));
71         map$ = PropertyMap.newMap(properties);
72     }
73 
getInitialMap()74     static PropertyMap getInitialMap() {
75         return map$;
76     }
77 
78     private Object length;
79     private Object callee;
80     private final int numMapped;
81     private final int numParams;
82 
83     // These are lazily initialized when delete is invoked on a mapped arg or an unmapped argument is set.
84     private ArrayData unmappedArgs;
85     private BitSet deleted;
86 
NativeArguments(final Object[] arguments, final Object callee, final int numParams, final ScriptObject proto, final PropertyMap map)87     NativeArguments(final Object[] arguments, final Object callee, final int numParams, final ScriptObject proto, final PropertyMap map) {
88         super(proto, map);
89         setIsArguments();
90         setArray(ArrayData.allocate(arguments));
91         this.length = arguments.length;
92         this.callee = callee;
93         this.numMapped = Math.min(numParams, arguments.length);
94         this.numParams = numParams;
95     }
96 
97     @Override
getClassName()98     public String getClassName() {
99         return "Arguments";
100     }
101 
102     /**
103      * getArgument is used for named argument access.
104      */
105     @Override
getArgument(final int key)106     public Object getArgument(final int key) {
107         assert key >= 0 && key < numParams : "invalid argument index";
108         return isMapped(key) ? getArray().getObject(key) : getUnmappedArg(key);
109     }
110 
111     /**
112      * setArgument is used for named argument set.
113      */
114     @Override
115     public void setArgument(final int key, final Object value) {
116         assert key >= 0 && key < numParams : "invalid argument index";
117         if (isMapped(key)) {
118             setArray(getArray().set(key, value, false));
119         } else {
120             setUnmappedArg(key, value);
121         }
122     }
123 
124     @Override
125     public boolean delete(final int key, final boolean strict) {
126         final int index = ArrayIndex.getArrayIndex(key);
127         return isMapped(index) ? deleteMapped(index, strict) : super.delete(key, strict);
128     }
129 
130     @Override
131     public boolean delete(final double key, final boolean strict) {
132         final int index = ArrayIndex.getArrayIndex(key);
133         return isMapped(index) ? deleteMapped(index, strict) : super.delete(key, strict);
134     }
135 
136     @Override
137     public boolean delete(final Object key, final boolean strict) {
138         final Object primitiveKey = JSType.toPrimitive(key, String.class);
139         final int index = ArrayIndex.getArrayIndex(primitiveKey);
140         return isMapped(index) ? deleteMapped(index, strict) : super.delete(primitiveKey, strict);
141     }
142 
143     /**
144      * ECMA 15.4.5.1 [[DefineOwnProperty]] ( P, Desc, Throw ) as specialized in
145      * ECMA 10.6 for Arguments object.
146      */
147     @Override
148     public boolean defineOwnProperty(final Object key, final Object propertyDesc, final boolean reject) {
149         final int index = ArrayIndex.getArrayIndex(key);
150         if (index >= 0) {
151             final boolean isMapped = isMapped(index);
152             final Object oldValue = isMapped ? getArray().getObject(index) : null;
153 
154             if (!super.defineOwnProperty(key, propertyDesc, false)) {
155                 if (reject) {
156                     throw typeError("cant.redefine.property",  key.toString(), ScriptRuntime.safeToString(this));
157                 }
158                 return false;
159             }
160 
161             if (isMapped) {
162                 // When mapped argument is redefined, if new descriptor is accessor property
163                 // or data-non-writable property, we have to "unmap" (unlink).
164                 final PropertyDescriptor desc = toPropertyDescriptor(Global.instance(), propertyDesc);
165                 if (desc.type() == PropertyDescriptor.ACCESSOR) {
166                     setDeleted(index, oldValue);
167                 } else if (desc.has(PropertyDescriptor.WRITABLE) && !desc.isWritable()) {
168                     // delete and set value from new descriptor if it has one, otherwise use old value
169                     setDeleted(index, desc.has(PropertyDescriptor.VALUE) ? desc.getValue() : oldValue);
170                 } else if (desc.has(PropertyDescriptor.VALUE)) {
171                     setArray(getArray().set(index, desc.getValue(), false));
172                 }
173             }
174 
175             return true;
176         }
177 
178         return super.defineOwnProperty(key, propertyDesc, reject);
179     }
180 
181     // Internals below this point
182 
183     // We track deletions using a bit set (delete arguments[index])
isDeleted(final int index)184     private boolean isDeleted(final int index) {
185         return deleted != null && deleted.get(index);
186     }
187 
setDeleted(final int index, final Object unmappedValue)188     private void setDeleted(final int index, final Object unmappedValue) {
189         if (deleted == null) {
190             deleted = new BitSet(numMapped);
191         }
192         deleted.set(index, true);
193         setUnmappedArg(index, unmappedValue);
194     }
195 
deleteMapped(final int index, final boolean strict)196     private boolean deleteMapped(final int index, final boolean strict) {
197         final Object value = getArray().getObject(index);
198         final boolean success = super.delete(index, strict);
199         if (success) {
200             setDeleted(index, value);
201         }
202         return success;
203     }
204 
getUnmappedArg(final int key)205     private Object getUnmappedArg(final int key) {
206         assert key >= 0 && key < numParams;
207         return unmappedArgs == null ? UNDEFINED : unmappedArgs.getObject(key);
208     }
209 
210     private void setUnmappedArg(final int key, final Object value) {
211         assert key >= 0 && key < numParams;
212         if (unmappedArgs == null) {
213             /*
214              * Declared number of parameters may be more or less than the actual passed
215              * runtime arguments count. We need to truncate or extend with undefined values.
216              *
217              * Example:
218              *
219              * // less declared params
220              * (function (x) { print(arguments); })(20, 44);
221              *
222              * // more declared params
223              * (function (x, y) { print(arguments); })(3);
224              */
225             final Object[] newValues = new Object[numParams];
226             System.arraycopy(getArray().asObjectArray(), 0, newValues, 0, numMapped);
227             if (numMapped < numParams) {
228                 Arrays.fill(newValues, numMapped, numParams, UNDEFINED);
229             }
230             this.unmappedArgs = ArrayData.allocate(newValues);
231         }
232         // Set value of argument
233         unmappedArgs = unmappedArgs.set(key, value, false);
234     }
235 
236     /**
237      * Are arguments[index] and corresponding named parameter linked?
238      *
239      * In non-strict mode, arguments[index] and corresponding named param are "linked" or "mapped"
240      * if the argument is provided by the caller. Modifications are tacked b/w each other - until
241      * (delete arguments[index]) is used. Once deleted, the corresponding arg is no longer 'mapped'.
242      * Please note that delete can happen only through the arguments array - named param can not
243      * be deleted. (delete is one-way).
244      */
245     private boolean isMapped(final int index) {
246         // in mapped named args and not marked as "deleted"
247         return index >= 0 && index < numMapped && !isDeleted(index);
248     }
249 
250     /**
251      * Factory to create correct Arguments object based on strict mode.
252      *
253      * @param arguments the actual arguments array passed
254      * @param callee the callee function that uses arguments object
255      * @param numParams the number of declared (named) function parameters
256      * @return Arguments Object
257      */
258     public static ScriptObject allocate(final Object[] arguments, final ScriptFunction callee, final int numParams) {
259         // Strict functions won't always have a callee for arguments, and will pass null instead.
260         final boolean isStrict = callee == null || callee.isStrict();
261         final Global global = Global.instance();
262         final ScriptObject proto = global.getObjectPrototype();
263         if (isStrict) {
264             return new NativeStrictArguments(arguments, numParams, proto, NativeStrictArguments.getInitialMap());
265         }
266         return new NativeArguments(arguments, callee, numParams, proto, NativeArguments.getInitialMap());
267     }
268 
269     /**
270      * Length getter
271      * @param self self reference
272      * @return length property value
273      */
274     public static Object G$length(final Object self) {
275         if (self instanceof NativeArguments) {
276             return ((NativeArguments)self).getArgumentsLength();
277         }
278 
279         return 0;
280     }
281 
282     /**
283      * Length setter
284      * @param self self reference
285      * @param value value for length property
286      */
287     public static void S$length(final Object self, final Object value) {
288         if (self instanceof NativeArguments) {
289             ((NativeArguments)self).setArgumentsLength(value);
290         }
291     }
292 
293     /**
294      * Callee getter
295      * @param self self reference
296      * @return value for callee property
297      */
298     public static Object G$callee(final Object self) {
299         if (self instanceof NativeArguments) {
300             return ((NativeArguments)self).getCallee();
301         }
302         return UNDEFINED;
303     }
304 
305     /**
306      * Callee setter
307      * @param self self reference
308      * @param value value for callee property
309      */
310     public static void S$callee(final Object self, final Object value) {
311         if (self instanceof NativeArguments) {
312             ((NativeArguments)self).setCallee(value);
313         }
314     }
315 
316     @Override
317     public Object getLength() {
318         return length;
319     }
320 
321     private Object getArgumentsLength() {
322         return length;
323     }
324 
325     private void setArgumentsLength(final Object length) {
326         this.length = length;
327     }
328 
329     private Object getCallee() {
330         return callee;
331     }
332 
333     private void setCallee(final Object callee) {
334         this.callee = callee;
335     }
336 
337     private static MethodHandle findOwnMH(final String name, final Class<?> rtype, final Class<?>... types) {
338         return MH.findStatic(MethodHandles.lookup(), NativeArguments.class, name, MH.type(rtype, types));
339     }
340 }
341