JDK 11 jdk.scripting.nashorn.jmod - Scripting Nashorn Module
JDK 11 jdk.scripting.nashorn.jmod is the JMOD file for JDK 11 Scripting Nashorn module.
JDK 11 Scripting Nashorn module compiled class files are stored in \fyicenter\jdk-11.0.1\jmods\jdk.scripting.nashorn.jmod.
JDK 11 Scripting Nashorn module compiled class files are also linked and stored in the \fyicenter\jdk-11.0.1\lib\modules JImage file.
JDK 11 Scripting Nashorn module source code files are stored in \fyicenter\jdk-11.0.1\lib\src.zip\jdk.scripting.nashorn.
You can click and view the content of each source code file in the list below.
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⏎ jdk/nashorn/internal/objects/NativeArray.java
/*
* Copyright (c) 2010, 2016, Oracle and/or its affiliates. All rights reserved.
* ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
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package jdk.nashorn.internal.objects;
import static jdk.nashorn.internal.runtime.ECMAErrors.rangeError;
import static jdk.nashorn.internal.runtime.ECMAErrors.typeError;
import static jdk.nashorn.internal.runtime.PropertyDescriptor.VALUE;
import static jdk.nashorn.internal.runtime.PropertyDescriptor.WRITABLE;
import static jdk.nashorn.internal.runtime.arrays.ArrayIndex.isValidArrayIndex;
import static jdk.nashorn.internal.runtime.arrays.ArrayLikeIterator.arrayLikeIterator;
import static jdk.nashorn.internal.runtime.arrays.ArrayLikeIterator.reverseArrayLikeIterator;
import static jdk.nashorn.internal.runtime.linker.NashornCallSiteDescriptor.CALLSITE_STRICT;
import java.lang.invoke.MethodHandle;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.Comparator;
import java.util.Iterator;
import java.util.List;
import java.util.concurrent.Callable;
import jdk.dynalink.CallSiteDescriptor;
import jdk.dynalink.linker.GuardedInvocation;
import jdk.dynalink.linker.LinkRequest;
import jdk.nashorn.api.scripting.JSObject;
import jdk.nashorn.internal.objects.annotations.Attribute;
import jdk.nashorn.internal.objects.annotations.Constructor;
import jdk.nashorn.internal.objects.annotations.Function;
import jdk.nashorn.internal.objects.annotations.Getter;
import jdk.nashorn.internal.objects.annotations.ScriptClass;
import jdk.nashorn.internal.objects.annotations.Setter;
import jdk.nashorn.internal.objects.annotations.SpecializedFunction;
import jdk.nashorn.internal.objects.annotations.SpecializedFunction.LinkLogic;
import jdk.nashorn.internal.objects.annotations.Where;
import jdk.nashorn.internal.runtime.Context;
import jdk.nashorn.internal.runtime.Debug;
import jdk.nashorn.internal.runtime.JSType;
import jdk.nashorn.internal.runtime.OptimisticBuiltins;
import jdk.nashorn.internal.runtime.PropertyDescriptor;
import jdk.nashorn.internal.runtime.PropertyMap;
import jdk.nashorn.internal.runtime.ScriptObject;
import jdk.nashorn.internal.runtime.ScriptRuntime;
import jdk.nashorn.internal.runtime.Undefined;
import jdk.nashorn.internal.runtime.arrays.ArrayData;
import jdk.nashorn.internal.runtime.arrays.ArrayIndex;
import jdk.nashorn.internal.runtime.arrays.ArrayLikeIterator;
import jdk.nashorn.internal.runtime.arrays.ContinuousArrayData;
import jdk.nashorn.internal.runtime.arrays.IntElements;
import jdk.nashorn.internal.runtime.arrays.IteratorAction;
import jdk.nashorn.internal.runtime.arrays.NumericElements;
import jdk.nashorn.internal.runtime.linker.Bootstrap;
import jdk.nashorn.internal.runtime.linker.InvokeByName;
/**
* Runtime representation of a JavaScript array. NativeArray only holds numeric
* keyed values. All other values are stored in spill.
*/
@ScriptClass("Array")
public final class NativeArray extends ScriptObject implements OptimisticBuiltins {
private static final Object JOIN = new Object();
private static final Object EVERY_CALLBACK_INVOKER = new Object();
private static final Object SOME_CALLBACK_INVOKER = new Object();
private static final Object FOREACH_CALLBACK_INVOKER = new Object();
private static final Object MAP_CALLBACK_INVOKER = new Object();
private static final Object FILTER_CALLBACK_INVOKER = new Object();
private static final Object REDUCE_CALLBACK_INVOKER = new Object();
private static final Object CALL_CMP = new Object();
private static final Object TO_LOCALE_STRING = new Object();
/*
* Constructors.
*/
NativeArray() {
this(ArrayData.initialArray());
}
NativeArray(final long length) {
this(ArrayData.allocate(length));
}
NativeArray(final int[] array) {
this(ArrayData.allocate(array));
}
NativeArray(final double[] array) {
this(ArrayData.allocate(array));
}
NativeArray(final long[] array) {
this(ArrayData.allocate(array.length));
ArrayData arrayData = this.getArray();
Class<?> widest = int.class;
for (int index = 0; index < array.length; index++) {
final long value = array[index];
if (widest == int.class && JSType.isRepresentableAsInt(value)) {
arrayData = arrayData.set(index, (int) value, false);
} else if (widest != Object.class && JSType.isRepresentableAsDouble(value)) {
arrayData = arrayData.set(index, (double) value, false);
widest = double.class;
} else {
arrayData = arrayData.set(index, (Object) value, false);
widest = Object.class;
}
}
this.setArray(arrayData);
}
NativeArray(final Object[] array) {
this(ArrayData.allocate(array.length));
ArrayData arrayData = this.getArray();
for (int index = 0; index < array.length; index++) {
final Object value = array[index];
if (value == ScriptRuntime.EMPTY) {
arrayData = arrayData.delete(index);
} else {
arrayData = arrayData.set(index, value, false);
}
}
this.setArray(arrayData);
}
NativeArray(final ArrayData arrayData) {
this(arrayData, Global.instance());
}
NativeArray(final ArrayData arrayData, final Global global) {
super(global.getArrayPrototype(), $nasgenmap$);
setArray(arrayData);
setIsArray();
}
@Override
protected GuardedInvocation findGetIndexMethod(final CallSiteDescriptor desc, final LinkRequest request) {
final GuardedInvocation inv = getArray().findFastGetIndexMethod(getArray().getClass(), desc, request);
if (inv != null) {
return inv;
}
return super.findGetIndexMethod(desc, request);
}
@Override
protected GuardedInvocation findSetIndexMethod(final CallSiteDescriptor desc, final LinkRequest request) {
final GuardedInvocation inv = getArray().findFastSetIndexMethod(getArray().getClass(), desc, request);
if (inv != null) {
return inv;
}
return super.findSetIndexMethod(desc, request);
}
private static InvokeByName getJOIN() {
return Global.instance().getInvokeByName(JOIN,
new Callable<InvokeByName>() {
@Override
public InvokeByName call() {
return new InvokeByName("join", ScriptObject.class);
}
});
}
private static MethodHandle createIteratorCallbackInvoker(final Object key, final Class<?> rtype) {
return Global.instance().getDynamicInvoker(key,
new Callable<MethodHandle>() {
@Override
public MethodHandle call() {
return Bootstrap.createDynamicCallInvoker(rtype, Object.class, Object.class, Object.class,
double.class, Object.class);
}
});
}
private static MethodHandle getEVERY_CALLBACK_INVOKER() {
return createIteratorCallbackInvoker(EVERY_CALLBACK_INVOKER, boolean.class);
}
private static MethodHandle getSOME_CALLBACK_INVOKER() {
return createIteratorCallbackInvoker(SOME_CALLBACK_INVOKER, boolean.class);
}
private static MethodHandle getFOREACH_CALLBACK_INVOKER() {
return createIteratorCallbackInvoker(FOREACH_CALLBACK_INVOKER, void.class);
}
private static MethodHandle getMAP_CALLBACK_INVOKER() {
return createIteratorCallbackInvoker(MAP_CALLBACK_INVOKER, Object.class);
}
private static MethodHandle getFILTER_CALLBACK_INVOKER() {
return createIteratorCallbackInvoker(FILTER_CALLBACK_INVOKER, boolean.class);
}
private static MethodHandle getREDUCE_CALLBACK_INVOKER() {
return Global.instance().getDynamicInvoker(REDUCE_CALLBACK_INVOKER,
new Callable<MethodHandle>() {
@Override
public MethodHandle call() {
return Bootstrap.createDynamicCallInvoker(Object.class, Object.class,
Undefined.class, Object.class, Object.class, double.class, Object.class);
}
});
}
private static MethodHandle getCALL_CMP() {
return Global.instance().getDynamicInvoker(CALL_CMP,
new Callable<MethodHandle>() {
@Override
public MethodHandle call() {
return Bootstrap.createDynamicCallInvoker(double.class,
Object.class, Object.class, Object.class, Object.class);
}
});
}
private static InvokeByName getTO_LOCALE_STRING() {
return Global.instance().getInvokeByName(TO_LOCALE_STRING,
new Callable<InvokeByName>() {
@Override
public InvokeByName call() {
return new InvokeByName("toLocaleString", ScriptObject.class, String.class);
}
});
}
// initialized by nasgen
private static PropertyMap $nasgenmap$;
@Override
public String getClassName() {
return "Array";
}
@Override
public Object getLength() {
final long length = getArray().length();
assert length >= 0L;
if (length <= Integer.MAX_VALUE) {
return (int)length;
}
return length;
}
private boolean defineLength(final long oldLen, final PropertyDescriptor oldLenDesc, final PropertyDescriptor desc, final boolean reject) {
// Step 3a
if (!desc.has(VALUE)) {
return super.defineOwnProperty("length", desc, reject);
}
// Step 3b
final PropertyDescriptor newLenDesc = desc;
// Step 3c and 3d - get new length and convert to long
final long newLen = NativeArray.validLength(newLenDesc.getValue());
// Step 3e - note that we need to convert to int or double as long is not considered a JS number type anymore
newLenDesc.setValue(JSType.toNarrowestNumber(newLen));
// Step 3f
// increasing array length - just need to set new length value (and attributes if any) and return
if (newLen >= oldLen) {
return super.defineOwnProperty("length", newLenDesc, reject);
}
// Step 3g
if (!oldLenDesc.isWritable()) {
if (reject) {
throw typeError("property.not.writable", "length", ScriptRuntime.safeToString(this));
}
return false;
}
// Step 3h and 3i
final boolean newWritable = !newLenDesc.has(WRITABLE) || newLenDesc.isWritable();
if (!newWritable) {
newLenDesc.setWritable(true);
}
// Step 3j and 3k
final boolean succeeded = super.defineOwnProperty("length", newLenDesc, reject);
if (!succeeded) {
return false;
}
// Step 3l
// make sure that length is set till the point we can delete the old elements
long o = oldLen;
while (newLen < o) {
o--;
final boolean deleteSucceeded = delete(o, false);
if (!deleteSucceeded) {
newLenDesc.setValue(o + 1);
if (!newWritable) {
newLenDesc.setWritable(false);
}
super.defineOwnProperty("length", newLenDesc, false);
if (reject) {
throw typeError("property.not.writable", "length", ScriptRuntime.safeToString(this));
}
return false;
}
}
// Step 3m
if (!newWritable) {
// make 'length' property not writable
final ScriptObject newDesc = Global.newEmptyInstance();
newDesc.set(WRITABLE, false, 0);
return super.defineOwnProperty("length", newDesc, false);
}
return true;
}
/**
* ECMA 15.4.5.1 [[DefineOwnProperty]] ( P, Desc, Throw )
*/
@Override
public boolean defineOwnProperty(final Object key, final Object propertyDesc, final boolean reject) {
final PropertyDescriptor desc = toPropertyDescriptor(Global.instance(), propertyDesc);
// never be undefined as "length" is always defined and can't be deleted for arrays
// Step 1
final PropertyDescriptor oldLenDesc = (PropertyDescriptor) super.getOwnPropertyDescriptor("length");
// Step 2
// get old length and convert to long. Always a Long/Uint32 but we take the safe road.
final long oldLen = JSType.toUint32(oldLenDesc.getValue());
// Step 3
if ("length".equals(key)) {
// check for length being made non-writable
final boolean result = defineLength(oldLen, oldLenDesc, desc, reject);
if (desc.has(WRITABLE) && !desc.isWritable()) {
setIsLengthNotWritable();
}
return result;
}
// Step 4a
final int index = ArrayIndex.getArrayIndex(key);
if (ArrayIndex.isValidArrayIndex(index)) {
final long longIndex = ArrayIndex.toLongIndex(index);
// Step 4b
// setting an element beyond current length, but 'length' is not writable
if (longIndex >= oldLen && !oldLenDesc.isWritable()) {
if (reject) {
throw typeError("property.not.writable", Long.toString(longIndex), ScriptRuntime.safeToString(this));
}
return false;
}
// Step 4c
// set the new array element
final boolean succeeded = super.defineOwnProperty(key, desc, false);
// Step 4d
if (!succeeded) {
if (reject) {
throw typeError("cant.redefine.property", key.toString(), ScriptRuntime.safeToString(this));
}
return false;
}
// Step 4e -- adjust new length based on new element index that is set
if (longIndex >= oldLen) {
oldLenDesc.setValue(longIndex + 1);
super.defineOwnProperty("length", oldLenDesc, false);
}
// Step 4f
return true;
}
// not an index property
return super.defineOwnProperty(key, desc, reject);
}
/**
* Spec. mentions use of [[DefineOwnProperty]] for indexed properties in
* certain places (eg. Array.prototype.map, filter). We can not use ScriptObject.set
* method in such cases. This is because set method uses inherited setters (if any)
* from any object in proto chain such as Array.prototype, Object.prototype.
* This method directly sets a particular element value in the current object.
*
* @param index key for property
* @param value value to define
*/
@Override
public final void defineOwnProperty(final int index, final Object value) {
assert isValidArrayIndex(index) : "invalid array index";
final long longIndex = ArrayIndex.toLongIndex(index);
if (longIndex >= getArray().length()) {
// make array big enough to hold..
setArray(getArray().ensure(longIndex));
}
setArray(getArray().set(index, value, false));
}
/**
* Return the array contents upcasted as an ObjectArray, regardless of
* representation
*
* @return an object array
*/
public Object[] asObjectArray() {
return getArray().asObjectArray();
}
@Override
public void setIsLengthNotWritable() {
super.setIsLengthNotWritable();
setArray(ArrayData.setIsLengthNotWritable(getArray()));
}
/**
* ECMA 15.4.3.2 Array.isArray ( arg )
*
* @param self self reference
* @param arg argument - object to check
* @return true if argument is an array
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, where = Where.CONSTRUCTOR)
public static boolean isArray(final Object self, final Object arg) {
return isArray(arg) || (arg instanceof JSObject && ((JSObject)arg).isArray());
}
/**
* Length getter
* @param self self reference
* @return the length of the object
*/
@Getter(attributes = Attribute.NOT_ENUMERABLE | Attribute.NOT_CONFIGURABLE)
public static Object length(final Object self) {
if (isArray(self)) {
final long length = ((ScriptObject) self).getArray().length();
assert length >= 0L;
// Cast to the narrowest supported numeric type to help optimistic type calculator
if (length <= Integer.MAX_VALUE) {
return (int) length;
}
return (double) length;
}
return 0;
}
/**
* Length setter
* @param self self reference
* @param length new length property
*/
@Setter(attributes = Attribute.NOT_ENUMERABLE | Attribute.NOT_CONFIGURABLE)
public static void length(final Object self, final Object length) {
if (isArray(self)) {
((ScriptObject)self).setLength(validLength(length));
}
}
/**
* Prototype length getter
* @param self self reference
* @return the length of the object
*/
@Getter(name = "length", where = Where.PROTOTYPE, attributes = Attribute.NOT_ENUMERABLE | Attribute.NOT_CONFIGURABLE)
public static Object getProtoLength(final Object self) {
return length(self); // Same as instance getter but we can't make nasgen use the same method for prototype
}
/**
* Prototype length setter
* @param self self reference
* @param length new length property
*/
@Setter(name = "length", where = Where.PROTOTYPE, attributes = Attribute.NOT_ENUMERABLE | Attribute.NOT_CONFIGURABLE)
public static void setProtoLength(final Object self, final Object length) {
length(self, length); // Same as instance setter but we can't make nasgen use the same method for prototype
}
static long validLength(final Object length) {
// ES5 15.4.5.1, steps 3.c and 3.d require two ToNumber conversions here
final double doubleLength = JSType.toNumber(length);
if (doubleLength != JSType.toUint32(length)) {
throw rangeError("inappropriate.array.length", ScriptRuntime.safeToString(length));
}
return (long) doubleLength;
}
/**
* ECMA 15.4.4.2 Array.prototype.toString ( )
*
* @param self self reference
* @return string representation of array
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static Object toString(final Object self) {
final Object obj = Global.toObject(self);
if (obj instanceof ScriptObject) {
final InvokeByName joinInvoker = getJOIN();
final ScriptObject sobj = (ScriptObject)obj;
try {
final Object join = joinInvoker.getGetter().invokeExact(sobj);
if (Bootstrap.isCallable(join)) {
return joinInvoker.getInvoker().invokeExact(join, sobj);
}
} catch (final RuntimeException | Error e) {
throw e;
} catch (final Throwable t) {
throw new RuntimeException(t);
}
}
// FIXME: should lookup Object.prototype.toString and call that?
return ScriptRuntime.builtinObjectToString(self);
}
/**
* Assert that an array is numeric, if not throw type error
* @param self self array to check
* @return true if numeric
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static Object assertNumeric(final Object self) {
if(!(self instanceof NativeArray && ((NativeArray)self).getArray().getOptimisticType().isNumeric())) {
throw typeError("not.a.numeric.array", ScriptRuntime.safeToString(self));
}
return Boolean.TRUE;
}
/**
* ECMA 15.4.4.3 Array.prototype.toLocaleString ( )
*
* @param self self reference
* @return locale specific string representation for array
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static String toLocaleString(final Object self) {
final StringBuilder sb = new StringBuilder();
final Iterator<Object> iter = arrayLikeIterator(self, true);
while (iter.hasNext()) {
final Object obj = iter.next();
if (obj != null && obj != ScriptRuntime.UNDEFINED) {
final Object val = JSType.toScriptObject(obj);
try {
if (val instanceof ScriptObject) {
final InvokeByName localeInvoker = getTO_LOCALE_STRING();
final ScriptObject sobj = (ScriptObject)val;
final Object toLocaleString = localeInvoker.getGetter().invokeExact(sobj);
if (Bootstrap.isCallable(toLocaleString)) {
sb.append((String)localeInvoker.getInvoker().invokeExact(toLocaleString, sobj));
} else {
throw typeError("not.a.function", "toLocaleString");
}
}
} catch (final Error|RuntimeException t) {
throw t;
} catch (final Throwable t) {
throw new RuntimeException(t);
}
}
if (iter.hasNext()) {
sb.append(",");
}
}
return sb.toString();
}
/**
* ECMA 15.4.2.2 new Array (len)
*
* @param newObj was the new operator used to instantiate this array
* @param self self reference
* @param args arguments (length)
* @return the new NativeArray
*/
@Constructor(arity = 1)
public static NativeArray construct(final boolean newObj, final Object self, final Object... args) {
switch (args.length) {
case 0:
return new NativeArray(0);
case 1:
final Object len = args[0];
if (len instanceof Number) {
long length;
if (len instanceof Integer || len instanceof Long) {
length = ((Number) len).longValue();
if (length >= 0 && length < JSType.MAX_UINT) {
return new NativeArray(length);
}
}
length = JSType.toUint32(len);
/*
* If the argument len is a Number and ToUint32(len) is equal to
* len, then the length property of the newly constructed object
* is set to ToUint32(len). If the argument len is a Number and
* ToUint32(len) is not equal to len, a RangeError exception is
* thrown.
*/
final double numberLength = ((Number) len).doubleValue();
if (length != numberLength) {
throw rangeError("inappropriate.array.length", JSType.toString(numberLength));
}
return new NativeArray(length);
}
/*
* If the argument len is not a Number, then the length property of
* the newly constructed object is set to 1 and the 0 property of
* the newly constructed object is set to len
*/
return new NativeArray(new Object[]{args[0]});
//fallthru
default:
return new NativeArray(args);
}
}
/**
* ECMA 15.4.2.2 new Array (len)
*
* Specialized constructor for zero arguments - empty array
*
* @param newObj was the new operator used to instantiate this array
* @param self self reference
* @return the new NativeArray
*/
@SpecializedFunction(isConstructor=true)
public static NativeArray construct(final boolean newObj, final Object self) {
return new NativeArray(0);
}
/**
* ECMA 15.4.2.2 new Array (len)
*
* Specialized constructor for zero arguments - empty array
*
* @param newObj was the new operator used to instantiate this array
* @param self self reference
* @param element first element
* @return the new NativeArray
*/
@SpecializedFunction(isConstructor=true)
public static Object construct(final boolean newObj, final Object self, final boolean element) {
return new NativeArray(new Object[] { element });
}
/**
* ECMA 15.4.2.2 new Array (len)
*
* Specialized constructor for one integer argument (length)
*
* @param newObj was the new operator used to instantiate this array
* @param self self reference
* @param length array length
* @return the new NativeArray
*/
@SpecializedFunction(isConstructor=true)
public static NativeArray construct(final boolean newObj, final Object self, final int length) {
if (length >= 0) {
return new NativeArray(length);
}
return construct(newObj, self, new Object[]{length});
}
/**
* ECMA 15.4.2.2 new Array (len)
*
* Specialized constructor for one long argument (length)
*
* @param newObj was the new operator used to instantiate this array
* @param self self reference
* @param length array length
* @return the new NativeArray
*/
@SpecializedFunction(isConstructor=true)
public static NativeArray construct(final boolean newObj, final Object self, final long length) {
if (length >= 0L && length <= JSType.MAX_UINT) {
return new NativeArray(length);
}
return construct(newObj, self, new Object[]{length});
}
/**
* ECMA 15.4.2.2 new Array (len)
*
* Specialized constructor for one double argument (length)
*
* @param newObj was the new operator used to instantiate this array
* @param self self reference
* @param length array length
* @return the new NativeArray
*/
@SpecializedFunction(isConstructor=true)
public static NativeArray construct(final boolean newObj, final Object self, final double length) {
final long uint32length = JSType.toUint32(length);
if (uint32length == length) {
return new NativeArray(uint32length);
}
return construct(newObj, self, new Object[]{length});
}
/**
* ECMA 15.4.4.4 Array.prototype.concat ( [ item1 [ , item2 [ , ... ] ] ] )
*
* @param self self reference
* @param arg argument
* @return resulting NativeArray
*/
@SpecializedFunction(linkLogic=ConcatLinkLogic.class, convertsNumericArgs = false)
public static NativeArray concat(final Object self, final int arg) {
final ContinuousArrayData newData = getContinuousArrayDataCCE(self, Integer.class).copy(); //get at least an integer data copy of this data
newData.fastPush(arg); //add an integer to its end
return new NativeArray(newData);
}
/**
* ECMA 15.4.4.4 Array.prototype.concat ( [ item1 [ , item2 [ , ... ] ] ] )
*
* @param self self reference
* @param arg argument
* @return resulting NativeArray
*/
@SpecializedFunction(linkLogic=ConcatLinkLogic.class, convertsNumericArgs = false)
public static NativeArray concat(final Object self, final double arg) {
final ContinuousArrayData newData = getContinuousArrayDataCCE(self, Double.class).copy(); //get at least a number array data copy of this data
newData.fastPush(arg); //add a double at the end
return new NativeArray(newData);
}
/**
* ECMA 15.4.4.4 Array.prototype.concat ( [ item1 [ , item2 [ , ... ] ] ] )
*
* @param self self reference
* @param arg argument
* @return resulting NativeArray
*/
@SpecializedFunction(linkLogic=ConcatLinkLogic.class)
public static NativeArray concat(final Object self, final Object arg) {
//arg is [NativeArray] of same type.
final ContinuousArrayData selfData = getContinuousArrayDataCCE(self);
final ContinuousArrayData newData;
if (arg instanceof NativeArray) {
final ContinuousArrayData argData = (ContinuousArrayData)((NativeArray)arg).getArray();
if (argData.isEmpty()) {
newData = selfData.copy();
} else if (selfData.isEmpty()) {
newData = argData.copy();
} else {
final Class<?> widestElementType = selfData.widest(argData).getBoxedElementType();
newData = ((ContinuousArrayData)selfData.convert(widestElementType)).fastConcat((ContinuousArrayData)argData.convert(widestElementType));
}
} else {
newData = getContinuousArrayDataCCE(self, Object.class).copy();
newData.fastPush(arg);
}
return new NativeArray(newData);
}
/**
* ECMA 15.4.4.4 Array.prototype.concat ( [ item1 [ , item2 [ , ... ] ] ] )
*
* @param self self reference
* @param args arguments
* @return resulting NativeArray
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static NativeArray concat(final Object self, final Object... args) {
final ArrayList<Object> list = new ArrayList<>();
concatToList(list, Global.toObject(self));
for (final Object obj : args) {
concatToList(list, obj);
}
return new NativeArray(list.toArray());
}
private static void concatToList(final ArrayList<Object> list, final Object obj) {
final boolean isScriptArray = isArray(obj);
final boolean isScriptObject = isScriptArray || obj instanceof ScriptObject;
if (isScriptArray || obj instanceof Iterable || obj instanceof JSObject || (obj != null && obj.getClass().isArray())) {
final Iterator<Object> iter = arrayLikeIterator(obj, true);
if (iter.hasNext()) {
for (int i = 0; iter.hasNext(); ++i) {
final Object value = iter.next();
if (value == ScriptRuntime.UNDEFINED && isScriptObject && !((ScriptObject)obj).has(i)) {
// TODO: eventually rewrite arrayLikeIterator to use a three-state enum for handling
// UNDEFINED instead of an "includeUndefined" boolean with states SKIP, INCLUDE,
// RETURN_EMPTY. Until then, this is how we'll make sure that empty elements don't make it
// into the concatenated array.
list.add(ScriptRuntime.EMPTY);
} else {
list.add(value);
}
}
} else if (!isScriptArray) {
list.add(obj); // add empty object, but not an empty array
}
} else {
// single element, add it
list.add(obj);
}
}
/**
* ECMA 15.4.4.5 Array.prototype.join (separator)
*
* @param self self reference
* @param separator element separator
* @return string representation after join
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static String join(final Object self, final Object separator) {
final StringBuilder sb = new StringBuilder();
final Iterator<Object> iter = arrayLikeIterator(self, true);
final String sep = separator == ScriptRuntime.UNDEFINED ? "," : JSType.toString(separator);
while (iter.hasNext()) {
final Object obj = iter.next();
if (obj != null && obj != ScriptRuntime.UNDEFINED) {
sb.append(JSType.toString(obj));
}
if (iter.hasNext()) {
sb.append(sep);
}
}
return sb.toString();
}
/**
* Specialization of pop for ContinuousArrayData
* The link guard checks that the array is continuous AND not empty.
* The runtime guard checks that the guard is continuous (CCE otherwise)
*
* Primitive specialization, {@link LinkLogic}
*
* @param self self reference
* @return element popped
* @throws ClassCastException if array is empty, facilitating Undefined return value
*/
@SpecializedFunction(name="pop", linkLogic=PopLinkLogic.class)
public static int popInt(final Object self) {
//must be non empty IntArrayData
return getContinuousNonEmptyArrayDataCCE(self, IntElements.class).fastPopInt();
}
/**
* Specialization of pop for ContinuousArrayData
*
* Primitive specialization, {@link LinkLogic}
*
* @param self self reference
* @return element popped
* @throws ClassCastException if array is empty, facilitating Undefined return value
*/
@SpecializedFunction(name="pop", linkLogic=PopLinkLogic.class)
public static double popDouble(final Object self) {
//must be non empty int long or double array data
return getContinuousNonEmptyArrayDataCCE(self, NumericElements.class).fastPopDouble();
}
/**
* Specialization of pop for ContinuousArrayData
*
* Primitive specialization, {@link LinkLogic}
*
* @param self self reference
* @return element popped
* @throws ClassCastException if array is empty, facilitating Undefined return value
*/
@SpecializedFunction(name="pop", linkLogic=PopLinkLogic.class)
public static Object popObject(final Object self) {
//can be any data, because the numeric ones will throw cce and force relink
return getContinuousArrayDataCCE(self, null).fastPopObject();
}
/**
* ECMA 15.4.4.6 Array.prototype.pop ()
*
* @param self self reference
* @return array after pop
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static Object pop(final Object self) {
try {
final ScriptObject sobj = (ScriptObject)self;
if (bulkable(sobj)) {
return sobj.getArray().pop();
}
final long len = JSType.toUint32(sobj.getLength());
if (len == 0) {
sobj.set("length", 0, CALLSITE_STRICT);
return ScriptRuntime.UNDEFINED;
}
final long index = len - 1;
final Object element = sobj.get(index);
sobj.delete(index, true);
sobj.set("length", index, CALLSITE_STRICT);
return element;
} catch (final ClassCastException | NullPointerException e) {
throw typeError("not.an.object", ScriptRuntime.safeToString(self));
}
}
/**
* ECMA 15.4.4.7 Array.prototype.push (args...)
*
* Primitive specialization, {@link LinkLogic}
*
* @param self self reference
* @param arg a primitive to push
* @return array length after push
*/
@SpecializedFunction(linkLogic=PushLinkLogic.class, convertsNumericArgs = false)
public static double push(final Object self, final int arg) {
return getContinuousArrayDataCCE(self, Integer.class).fastPush(arg);
}
/**
* ECMA 15.4.4.7 Array.prototype.push (args...)
*
* Primitive specialization, {@link LinkLogic}
*
* @param self self reference
* @param arg a primitive to push
* @return array length after push
*/
@SpecializedFunction(linkLogic=PushLinkLogic.class, convertsNumericArgs = false)
public static double push(final Object self, final double arg) {
return getContinuousArrayDataCCE(self, Double.class).fastPush(arg);
}
/**
* ECMA 15.4.4.7 Array.prototype.push (args...)
*
* Primitive specialization, {@link LinkLogic}
*
* @param self self reference
* @param arg a primitive to push
* @return array length after push
*/
@SpecializedFunction(name="push", linkLogic=PushLinkLogic.class)
public static double pushObject(final Object self, final Object arg) {
return getContinuousArrayDataCCE(self, Object.class).fastPush(arg);
}
/**
* ECMA 15.4.4.7 Array.prototype.push (args...)
*
* @param self self reference
* @param args arguments to push
* @return array length after pushes
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static Object push(final Object self, final Object... args) {
try {
final ScriptObject sobj = (ScriptObject)self;
if (bulkable(sobj) && sobj.getArray().length() + args.length <= JSType.MAX_UINT) {
final ArrayData newData = sobj.getArray().push(true, args);
sobj.setArray(newData);
return JSType.toNarrowestNumber(newData.length());
}
long len = JSType.toUint32(sobj.getLength());
for (final Object element : args) {
sobj.set(len++, element, CALLSITE_STRICT);
}
sobj.set("length", len, CALLSITE_STRICT);
return JSType.toNarrowestNumber(len);
} catch (final ClassCastException | NullPointerException e) {
throw typeError(Context.getGlobal(), e, "not.an.object", ScriptRuntime.safeToString(self));
}
}
/**
* ECMA 15.4.4.7 Array.prototype.push (args...) specialized for single object argument
*
* @param self self reference
* @param arg argument to push
* @return array after pushes
*/
@SpecializedFunction
public static double push(final Object self, final Object arg) {
try {
final ScriptObject sobj = (ScriptObject)self;
final ArrayData arrayData = sobj.getArray();
final long length = arrayData.length();
if (bulkable(sobj) && length < JSType.MAX_UINT) {
sobj.setArray(arrayData.push(true, arg));
return length + 1;
}
long len = JSType.toUint32(sobj.getLength());
sobj.set(len++, arg, CALLSITE_STRICT);
sobj.set("length", len, CALLSITE_STRICT);
return len;
} catch (final ClassCastException | NullPointerException e) {
throw typeError("not.an.object", ScriptRuntime.safeToString(self));
}
}
/**
* ECMA 15.4.4.8 Array.prototype.reverse ()
*
* @param self self reference
* @return reversed array
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static Object reverse(final Object self) {
try {
final ScriptObject sobj = (ScriptObject)self;
final long len = JSType.toUint32(sobj.getLength());
final long middle = len / 2;
for (long lower = 0; lower != middle; lower++) {
final long upper = len - lower - 1;
final Object lowerValue = sobj.get(lower);
final Object upperValue = sobj.get(upper);
final boolean lowerExists = sobj.has(lower);
final boolean upperExists = sobj.has(upper);
if (lowerExists && upperExists) {
sobj.set(lower, upperValue, CALLSITE_STRICT);
sobj.set(upper, lowerValue, CALLSITE_STRICT);
} else if (!lowerExists && upperExists) {
sobj.set(lower, upperValue, CALLSITE_STRICT);
sobj.delete(upper, true);
} else if (lowerExists && !upperExists) {
sobj.delete(lower, true);
sobj.set(upper, lowerValue, CALLSITE_STRICT);
}
}
return sobj;
} catch (final ClassCastException | NullPointerException e) {
throw typeError("not.an.object", ScriptRuntime.safeToString(self));
}
}
/**
* ECMA 15.4.4.9 Array.prototype.shift ()
*
* @param self self reference
* @return shifted array
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static Object shift(final Object self) {
final Object obj = Global.toObject(self);
Object first = ScriptRuntime.UNDEFINED;
if (!(obj instanceof ScriptObject)) {
return first;
}
final ScriptObject sobj = (ScriptObject) obj;
long len = JSType.toUint32(sobj.getLength());
if (len > 0) {
first = sobj.get(0);
if (bulkable(sobj)) {
sobj.getArray().shiftLeft(1);
} else {
boolean hasPrevious = true;
for (long k = 1; k < len; k++) {
final boolean hasCurrent = sobj.has(k);
if (hasCurrent) {
sobj.set(k - 1, sobj.get(k), CALLSITE_STRICT);
} else if (hasPrevious) {
sobj.delete(k - 1, true);
}
hasPrevious = hasCurrent;
}
}
sobj.delete(--len, true);
} else {
len = 0;
}
sobj.set("length", len, CALLSITE_STRICT);
return first;
}
/**
* ECMA 15.4.4.10 Array.prototype.slice ( start [ , end ] )
*
* @param self self reference
* @param start start of slice (inclusive)
* @param end end of slice (optional, exclusive)
* @return sliced array
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static Object slice(final Object self, final Object start, final Object end) {
final Object obj = Global.toObject(self);
if (!(obj instanceof ScriptObject)) {
return ScriptRuntime.UNDEFINED;
}
final ScriptObject sobj = (ScriptObject)obj;
final long len = JSType.toUint32(sobj.getLength());
final long relativeStart = JSType.toLong(start);
final long relativeEnd = end == ScriptRuntime.UNDEFINED ? len : JSType.toLong(end);
long k = relativeStart < 0 ? Math.max(len + relativeStart, 0) : Math.min(relativeStart, len);
final long finale = relativeEnd < 0 ? Math.max(len + relativeEnd, 0) : Math.min(relativeEnd, len);
if (k >= finale) {
return new NativeArray(0);
}
if (bulkable(sobj)) {
return new NativeArray(sobj.getArray().slice(k, finale));
}
// Construct array with proper length to have a deleted filter on undefined elements
final NativeArray copy = new NativeArray(finale - k);
for (long n = 0; k < finale; n++, k++) {
if (sobj.has(k)) {
copy.defineOwnProperty(ArrayIndex.getArrayIndex(n), sobj.get(k));
}
}
return copy;
}
private static Object compareFunction(final Object comparefn) {
if (comparefn == ScriptRuntime.UNDEFINED) {
return null;
}
if (!Bootstrap.isCallable(comparefn)) {
throw typeError("not.a.function", ScriptRuntime.safeToString(comparefn));
}
return comparefn;
}
private static Object[] sort(final Object[] array, final Object comparefn) {
final Object cmp = compareFunction(comparefn);
final List<Object> list = Arrays.asList(array);
final Object cmpThis = cmp == null || Bootstrap.isStrictCallable(cmp) ? ScriptRuntime.UNDEFINED : Global.instance();
try {
Collections.sort(list, new Comparator<Object>() {
private final MethodHandle call_cmp = getCALL_CMP();
@Override
public int compare(final Object x, final Object y) {
if (x == ScriptRuntime.UNDEFINED && y == ScriptRuntime.UNDEFINED) {
return 0;
} else if (x == ScriptRuntime.UNDEFINED) {
return 1;
} else if (y == ScriptRuntime.UNDEFINED) {
return -1;
}
if (cmp != null) {
try {
return (int)Math.signum((double)call_cmp.invokeExact(cmp, cmpThis, x, y));
} catch (final RuntimeException | Error e) {
throw e;
} catch (final Throwable t) {
throw new RuntimeException(t);
}
}
return JSType.toString(x).compareTo(JSType.toString(y));
}
});
} catch (final IllegalArgumentException iae) {
// Collections.sort throws IllegalArgumentException when
// Comparison method violates its general contract
// See ECMA spec 15.4.4.11 Array.prototype.sort (comparefn).
// If "comparefn" is not undefined and is not a consistent
// comparison function for the elements of this array, the
// behaviour of sort is implementation-defined.
}
return list.toArray(new Object[0]);
}
/**
* ECMA 15.4.4.11 Array.prototype.sort ( comparefn )
*
* @param self self reference
* @param comparefn element comparison function
* @return sorted array
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static ScriptObject sort(final Object self, final Object comparefn) {
try {
final ScriptObject sobj = (ScriptObject) self;
final long len = JSType.toUint32(sobj.getLength());
ArrayData array = sobj.getArray();
if (len > 1) {
// Get only non-missing elements. Missing elements go at the end
// of the sorted array. So, just don't copy these to sort input.
final ArrayList<Object> src = new ArrayList<>();
for (final Iterator<Long> iter = array.indexIterator(); iter.hasNext(); ) {
final long index = iter.next();
if (index >= len) {
break;
}
src.add(array.getObject((int)index));
}
final Object[] sorted = sort(src.toArray(), comparefn);
for (int i = 0; i < sorted.length; i++) {
array = array.set(i, sorted[i], true);
}
// delete missing elements - which are at the end of sorted array
if (sorted.length != len) {
array = array.delete(sorted.length, len - 1);
}
sobj.setArray(array);
}
return sobj;
} catch (final ClassCastException | NullPointerException e) {
throw typeError("not.an.object", ScriptRuntime.safeToString(self));
}
}
/**
* ECMA 15.4.4.12 Array.prototype.splice ( start, deleteCount [ item1 [ , item2 [ , ... ] ] ] )
*
* @param self self reference
* @param args arguments
* @return result of splice
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 2)
public static Object splice(final Object self, final Object... args) {
final Object obj = Global.toObject(self);
if (!(obj instanceof ScriptObject)) {
return ScriptRuntime.UNDEFINED;
}
final ScriptObject sobj = (ScriptObject)obj;
final long len = JSType.toUint32(sobj.getLength());
final long relativeStart = JSType.toLong(args.length > 0 ? args[0] : ScriptRuntime.UNDEFINED);
final long actualStart = relativeStart < 0 ? Math.max(len + relativeStart, 0) : Math.min(relativeStart, len);
final long actualDeleteCount;
Object[] items = ScriptRuntime.EMPTY_ARRAY;
if (args.length == 0) {
actualDeleteCount = 0;
} else if (args.length == 1) {
actualDeleteCount = len - actualStart;
} else {
actualDeleteCount = Math.min(Math.max(JSType.toLong(args[1]), 0), len - actualStart);
if (args.length > 2) {
items = new Object[args.length - 2];
System.arraycopy(args, 2, items, 0, items.length);
}
}
NativeArray returnValue;
if (actualStart <= Integer.MAX_VALUE && actualDeleteCount <= Integer.MAX_VALUE && bulkable(sobj)) {
try {
returnValue = new NativeArray(sobj.getArray().fastSplice((int)actualStart, (int)actualDeleteCount, items.length));
// Since this is a dense bulkable array we can use faster defineOwnProperty to copy new elements
int k = (int) actualStart;
for (int i = 0; i < items.length; i++, k++) {
sobj.defineOwnProperty(k, items[i]);
}
} catch (final UnsupportedOperationException uoe) {
returnValue = slowSplice(sobj, actualStart, actualDeleteCount, items, len);
}
} else {
returnValue = slowSplice(sobj, actualStart, actualDeleteCount, items, len);
}
return returnValue;
}
private static NativeArray slowSplice(final ScriptObject sobj, final long start, final long deleteCount, final Object[] items, final long len) {
final NativeArray array = new NativeArray(deleteCount);
for (long k = 0; k < deleteCount; k++) {
final long from = start + k;
if (sobj.has(from)) {
array.defineOwnProperty(ArrayIndex.getArrayIndex(k), sobj.get(from));
}
}
if (items.length < deleteCount) {
for (long k = start; k < len - deleteCount; k++) {
final long from = k + deleteCount;
final long to = k + items.length;
if (sobj.has(from)) {
sobj.set(to, sobj.get(from), CALLSITE_STRICT);
} else {
sobj.delete(to, true);
}
}
for (long k = len; k > len - deleteCount + items.length; k--) {
sobj.delete(k - 1, true);
}
} else if (items.length > deleteCount) {
for (long k = len - deleteCount; k > start; k--) {
final long from = k + deleteCount - 1;
final long to = k + items.length - 1;
if (sobj.has(from)) {
final Object fromValue = sobj.get(from);
sobj.set(to, fromValue, CALLSITE_STRICT);
} else {
sobj.delete(to, true);
}
}
}
long k = start;
for (int i = 0; i < items.length; i++, k++) {
sobj.set(k, items[i], CALLSITE_STRICT);
}
final long newLength = len - deleteCount + items.length;
sobj.set("length", newLength, CALLSITE_STRICT);
return array;
}
/**
* ECMA 15.4.4.13 Array.prototype.unshift ( [ item1 [ , item2 [ , ... ] ] ] )
*
* @param self self reference
* @param items items for unshift
* @return unshifted array
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static Object unshift(final Object self, final Object... items) {
final Object obj = Global.toObject(self);
if (!(obj instanceof ScriptObject)) {
return ScriptRuntime.UNDEFINED;
}
final ScriptObject sobj = (ScriptObject)obj;
final long len = JSType.toUint32(sobj.getLength());
if (items == null) {
return ScriptRuntime.UNDEFINED;
}
if (bulkable(sobj)) {
sobj.getArray().shiftRight(items.length);
for (int j = 0; j < items.length; j++) {
sobj.setArray(sobj.getArray().set(j, items[j], true));
}
} else {
for (long k = len; k > 0; k--) {
final long from = k - 1;
final long to = k + items.length - 1;
if (sobj.has(from)) {
final Object fromValue = sobj.get(from);
sobj.set(to, fromValue, CALLSITE_STRICT);
} else {
sobj.delete(to, true);
}
}
for (int j = 0; j < items.length; j++) {
sobj.set(j, items[j], CALLSITE_STRICT);
}
}
final long newLength = len + items.length;
sobj.set("length", newLength, CALLSITE_STRICT);
return JSType.toNarrowestNumber(newLength);
}
/**
* ECMA 15.4.4.14 Array.prototype.indexOf ( searchElement [ , fromIndex ] )
*
* @param self self reference
* @param searchElement element to search for
* @param fromIndex start index of search
* @return index of element, or -1 if not found
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static double indexOf(final Object self, final Object searchElement, final Object fromIndex) {
try {
final ScriptObject sobj = (ScriptObject)Global.toObject(self);
final long len = JSType.toUint32(sobj.getLength());
if (len == 0) {
return -1;
}
final long n = JSType.toLong(fromIndex);
if (n >= len) {
return -1;
}
for (long k = Math.max(0, n < 0 ? len - Math.abs(n) : n); k < len; k++) {
if (sobj.has(k)) {
if (ScriptRuntime.EQ_STRICT(sobj.get(k), searchElement)) {
return k;
}
}
}
} catch (final ClassCastException | NullPointerException e) {
//fallthru
}
return -1;
}
/**
* ECMA 15.4.4.15 Array.prototype.lastIndexOf ( searchElement [ , fromIndex ] )
*
* @param self self reference
* @param args arguments: element to search for and optional from index
* @return index of element, or -1 if not found
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static double lastIndexOf(final Object self, final Object... args) {
try {
final ScriptObject sobj = (ScriptObject)Global.toObject(self);
final long len = JSType.toUint32(sobj.getLength());
if (len == 0) {
return -1;
}
final Object searchElement = args.length > 0 ? args[0] : ScriptRuntime.UNDEFINED;
final long n = args.length > 1 ? JSType.toLong(args[1]) : len - 1;
for (long k = n < 0 ? len - Math.abs(n) : Math.min(n, len - 1); k >= 0; k--) {
if (sobj.has(k)) {
if (ScriptRuntime.EQ_STRICT(sobj.get(k), searchElement)) {
return k;
}
}
}
} catch (final ClassCastException | NullPointerException e) {
throw typeError("not.an.object", ScriptRuntime.safeToString(self));
}
return -1;
}
/**
* ECMA 15.4.4.16 Array.prototype.every ( callbackfn [ , thisArg ] )
*
* @param self self reference
* @param callbackfn callback function per element
* @param thisArg this argument
* @return true if callback function return true for every element in the array, false otherwise
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static boolean every(final Object self, final Object callbackfn, final Object thisArg) {
return applyEvery(Global.toObject(self), callbackfn, thisArg);
}
private static boolean applyEvery(final Object self, final Object callbackfn, final Object thisArg) {
return new IteratorAction<Boolean>(Global.toObject(self), callbackfn, thisArg, true) {
private final MethodHandle everyInvoker = getEVERY_CALLBACK_INVOKER();
@Override
protected boolean forEach(final Object val, final double i) throws Throwable {
return result = (boolean)everyInvoker.invokeExact(callbackfn, thisArg, val, i, self);
}
}.apply();
}
/**
* ECMA 15.4.4.17 Array.prototype.some ( callbackfn [ , thisArg ] )
*
* @param self self reference
* @param callbackfn callback function per element
* @param thisArg this argument
* @return true if callback function returned true for any element in the array, false otherwise
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static boolean some(final Object self, final Object callbackfn, final Object thisArg) {
return new IteratorAction<Boolean>(Global.toObject(self), callbackfn, thisArg, false) {
private final MethodHandle someInvoker = getSOME_CALLBACK_INVOKER();
@Override
protected boolean forEach(final Object val, final double i) throws Throwable {
return !(result = (boolean)someInvoker.invokeExact(callbackfn, thisArg, val, i, self));
}
}.apply();
}
/**
* ECMA 15.4.4.18 Array.prototype.forEach ( callbackfn [ , thisArg ] )
*
* @param self self reference
* @param callbackfn callback function per element
* @param thisArg this argument
* @return undefined
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static Object forEach(final Object self, final Object callbackfn, final Object thisArg) {
return new IteratorAction<Object>(Global.toObject(self), callbackfn, thisArg, ScriptRuntime.UNDEFINED) {
private final MethodHandle forEachInvoker = getFOREACH_CALLBACK_INVOKER();
@Override
protected boolean forEach(final Object val, final double i) throws Throwable {
forEachInvoker.invokeExact(callbackfn, thisArg, val, i, self);
return true;
}
}.apply();
}
/**
* ECMA 15.4.4.19 Array.prototype.map ( callbackfn [ , thisArg ] )
*
* @param self self reference
* @param callbackfn callback function per element
* @param thisArg this argument
* @return array with elements transformed by map function
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static NativeArray map(final Object self, final Object callbackfn, final Object thisArg) {
return new IteratorAction<NativeArray>(Global.toObject(self), callbackfn, thisArg, null) {
private final MethodHandle mapInvoker = getMAP_CALLBACK_INVOKER();
@Override
protected boolean forEach(final Object val, final double i) throws Throwable {
final Object r = mapInvoker.invokeExact(callbackfn, thisArg, val, i, self);
result.defineOwnProperty(ArrayIndex.getArrayIndex(index), r);
return true;
}
@Override
public void applyLoopBegin(final ArrayLikeIterator<Object> iter0) {
// map return array should be of same length as source array
// even if callback reduces source array length
result = new NativeArray(iter0.getLength());
}
}.apply();
}
/**
* ECMA 15.4.4.20 Array.prototype.filter ( callbackfn [ , thisArg ] )
*
* @param self self reference
* @param callbackfn callback function per element
* @param thisArg this argument
* @return filtered array
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static NativeArray filter(final Object self, final Object callbackfn, final Object thisArg) {
return new IteratorAction<NativeArray>(Global.toObject(self), callbackfn, thisArg, new NativeArray()) {
private long to = 0;
private final MethodHandle filterInvoker = getFILTER_CALLBACK_INVOKER();
@Override
protected boolean forEach(final Object val, final double i) throws Throwable {
if ((boolean)filterInvoker.invokeExact(callbackfn, thisArg, val, i, self)) {
result.defineOwnProperty(ArrayIndex.getArrayIndex(to++), val);
}
return true;
}
}.apply();
}
private static Object reduceInner(final ArrayLikeIterator<Object> iter, final Object self, final Object... args) {
final Object callbackfn = args.length > 0 ? args[0] : ScriptRuntime.UNDEFINED;
final boolean initialValuePresent = args.length > 1;
Object initialValue = initialValuePresent ? args[1] : ScriptRuntime.UNDEFINED;
if (callbackfn == ScriptRuntime.UNDEFINED) {
throw typeError("not.a.function", "undefined");
}
if (!initialValuePresent) {
if (iter.hasNext()) {
initialValue = iter.next();
} else {
throw typeError("array.reduce.invalid.init");
}
}
//if initial value is ScriptRuntime.UNDEFINED - step forward once.
return new IteratorAction<Object>(Global.toObject(self), callbackfn, ScriptRuntime.UNDEFINED, initialValue, iter) {
private final MethodHandle reduceInvoker = getREDUCE_CALLBACK_INVOKER();
@Override
protected boolean forEach(final Object val, final double i) throws Throwable {
// TODO: why can't I declare the second arg as Undefined.class?
result = reduceInvoker.invokeExact(callbackfn, ScriptRuntime.UNDEFINED, result, val, i, self);
return true;
}
}.apply();
}
/**
* ECMA 15.4.4.21 Array.prototype.reduce ( callbackfn [ , initialValue ] )
*
* @param self self reference
* @param args arguments to reduce
* @return accumulated result
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static Object reduce(final Object self, final Object... args) {
return reduceInner(arrayLikeIterator(self), self, args);
}
/**
* ECMA 15.4.4.22 Array.prototype.reduceRight ( callbackfn [ , initialValue ] )
*
* @param self self reference
* @param args arguments to reduce
* @return accumulated result
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, arity = 1)
public static Object reduceRight(final Object self, final Object... args) {
return reduceInner(reverseArrayLikeIterator(self), self, args);
}
/**
* ECMA6 22.1.3.4 Array.prototype.entries ( )
*
* @param self the self reference
* @return an iterator over the array's entries
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static Object entries(final Object self) {
return ArrayIterator.newArrayKeyValueIterator(self);
}
/**
* ECMA6 22.1.3.13 Array.prototype.keys ( )
*
* @param self the self reference
* @return an iterator over the array's keys
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static Object keys(final Object self) {
return ArrayIterator.newArrayKeyIterator(self);
}
/**
* ECMA6 22.1.3.29 Array.prototype.values ( )
*
* @param self the self reference
* @return an iterator over the array's values
*/
@Function(attributes = Attribute.NOT_ENUMERABLE)
public static Object values(final Object self) {
return ArrayIterator.newArrayValueIterator(self);
}
/**
* 22.1.3.30 Array.prototype [ @@iterator ] ( )
*
* @param self the self reference
* @return an iterator over the array's values
*/
@Function(attributes = Attribute.NOT_ENUMERABLE, name = "@@iterator")
public static Object getIterator(final Object self) {
return ArrayIterator.newArrayValueIterator(self);
}
/**
* Determine if Java bulk array operations may be used on the underlying
* storage. This is possible only if the object's prototype chain is empty
* or each of the prototypes in the chain is empty.
*
* @param self the object to examine
* @return true if optimizable
*/
private static boolean bulkable(final ScriptObject self) {
return self.isArray() && !hasInheritedArrayEntries(self) && !self.isLengthNotWritable();
}
private static boolean hasInheritedArrayEntries(final ScriptObject self) {
ScriptObject proto = self.getProto();
while (proto != null) {
if (proto.hasArrayEntries()) {
return true;
}
proto = proto.getProto();
}
return false;
}
@Override
public String toString() {
return "NativeArray@" + Debug.id(this) + " [" + getArray().getClass().getSimpleName() + ']';
}
@Override
public SpecializedFunction.LinkLogic getLinkLogic(final Class<? extends LinkLogic> clazz) {
if (clazz == PushLinkLogic.class) {
return PushLinkLogic.INSTANCE;
} else if (clazz == PopLinkLogic.class) {
return PopLinkLogic.INSTANCE;
} else if (clazz == ConcatLinkLogic.class) {
return ConcatLinkLogic.INSTANCE;
}
return null;
}
@Override
public boolean hasPerInstanceAssumptions() {
return true; //length writable switchpoint
}
/**
* This is an abstract super class that contains common functionality for all
* specialized optimistic builtins in NativeArray. For example, it handles the
* modification switchpoint which is touched when length is written.
*/
private static abstract class ArrayLinkLogic extends SpecializedFunction.LinkLogic {
protected ArrayLinkLogic() {
}
protected static ContinuousArrayData getContinuousArrayData(final Object self) {
try {
//cast to NativeArray, to avoid cases like x = {0:0, 1:1}, x.length = 2, where we can't use the array push/pop
return (ContinuousArrayData)((NativeArray)self).getArray();
} catch (final Exception e) {
return null;
}
}
/**
* Push and pop callsites can throw ClassCastException as a mechanism to have them
* relinked - this enabled fast checks of the kind of ((IntArrayData)arrayData).push(x)
* for an IntArrayData only push - if this fails, a CCE will be thrown and we will relink
*/
@Override
public Class<? extends Throwable> getRelinkException() {
return ClassCastException.class;
}
}
/**
* This is linker logic for optimistic concatenations
*/
private static final class ConcatLinkLogic extends ArrayLinkLogic {
private static final LinkLogic INSTANCE = new ConcatLinkLogic();
@Override
public boolean canLink(final Object self, final CallSiteDescriptor desc, final LinkRequest request) {
final Object[] args = request.getArguments();
if (args.length != 3) { //single argument check
return false;
}
final ContinuousArrayData selfData = getContinuousArrayData(self);
if (selfData == null) {
return false;
}
final Object arg = args[2];
// The generic version uses its own logic and ArrayLikeIterator to decide if an object should
// be iterated over or added as single element. To avoid duplication of code and err on the safe side
// we only use the specialized version if arg is either a continuous array or a JS primitive.
if (arg instanceof NativeArray) {
return (getContinuousArrayData(arg) != null);
}
return JSType.isPrimitive(arg);
}
}
/**
* This is linker logic for optimistic pushes
*/
private static final class PushLinkLogic extends ArrayLinkLogic {
private static final LinkLogic INSTANCE = new PushLinkLogic();
@Override
public boolean canLink(final Object self, final CallSiteDescriptor desc, final LinkRequest request) {
return getContinuousArrayData(self) != null;
}
}
/**
* This is linker logic for optimistic pops
*/
private static final class PopLinkLogic extends ArrayLinkLogic {
private static final LinkLogic INSTANCE = new PopLinkLogic();
/**
* We need to check if we are dealing with a continuous non empty array data here,
* as pop with a primitive return value returns undefined for arrays with length 0
*/
@Override
public boolean canLink(final Object self, final CallSiteDescriptor desc, final LinkRequest request) {
final ContinuousArrayData data = getContinuousNonEmptyArrayData(self);
if (data != null) {
final Class<?> elementType = data.getElementType();
final Class<?> returnType = desc.getMethodType().returnType();
final boolean typeFits = JSType.getAccessorTypeIndex(returnType) >= JSType.getAccessorTypeIndex(elementType);
return typeFits;
}
return false;
}
private static ContinuousArrayData getContinuousNonEmptyArrayData(final Object self) {
final ContinuousArrayData data = getContinuousArrayData(self);
if (data != null) {
return data.length() == 0 ? null : data;
}
return null;
}
}
//runtime calls for push and pops. they could be used as guards, but they also perform the runtime logic,
//so rather than synthesizing them into a guard method handle that would also perform the push on the
//retrieved receiver, we use this as runtime logic
//TODO - fold these into the Link logics, but I'll do that as a later step, as I want to do a checkin
//where everything works first
private static <T> ContinuousArrayData getContinuousNonEmptyArrayDataCCE(final Object self, final Class<T> clazz) {
try {
@SuppressWarnings("unchecked")
final ContinuousArrayData data = (ContinuousArrayData)(T)((NativeArray)self).getArray();
if (data.length() != 0L) {
return data; //if length is 0 we cannot pop and have to relink, because then we'd have to return an undefined, which is a wider type than e.g. int
}
} catch (final NullPointerException e) {
//fallthru
}
throw new ClassCastException();
}
private static ContinuousArrayData getContinuousArrayDataCCE(final Object self) {
try {
return (ContinuousArrayData)((NativeArray)self).getArray();
} catch (final NullPointerException e) {
throw new ClassCastException();
}
}
private static ContinuousArrayData getContinuousArrayDataCCE(final Object self, final Class<?> elementType) {
try {
return (ContinuousArrayData)((NativeArray)self).getArray(elementType); //ensure element type can fit "elementType"
} catch (final NullPointerException e) {
throw new ClassCastException();
}
}
}
⏎ jdk/nashorn/internal/objects/NativeArray.java
Or download all of them as a single archive file:
File name: jdk.scripting.nashorn-11.0.1-src.zip File size: 1390965 bytes Release date: 2018-11-04 Download
⇒ JDK 11 jdk.scripting.nashorn.shell.jmod - Scripting Nashorn Shell Module
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