author | vlivanov |
Mon, 02 Mar 2015 18:12:06 +0000 | |
changeset 29359 | 1afd344fc185 |
parent 25865 | d38d876f1654 |
permissions | -rw-r--r-- |
16147 | 1 |
<!-- |
16151 | 2 |
Copyright (c) 2010, 2013, Oracle and/or its affiliates. All rights reserved. |
16147 | 3 |
DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 |
||
5 |
This code is free software; you can redistribute it and/or modify it |
|
6 |
under the terms of the GNU General Public License version 2 only, as |
|
7 |
published by the Free Software Foundation. Oracle designates this |
|
8 |
particular file as subject to the "Classpath" exception as provided |
|
9 |
by Oracle in the LICENSE file that accompanied this code. |
|
10 |
||
11 |
This code is distributed in the hope that it will be useful, but WITHOUT |
|
12 |
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
|
13 |
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
|
14 |
version 2 for more details (a copy is included in the LICENSE file that |
|
15 |
accompanied this code). |
|
16 |
||
17 |
You should have received a copy of the GNU General Public License version |
|
18 |
2 along with this work; if not, write to the Free Software Foundation, |
|
19 |
Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
|
20 |
||
21 |
Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
|
22 |
or visit www.oracle.com if you need additional information or have any |
|
23 |
questions. |
|
24 |
--> |
|
25 |
<body> |
|
26 |
<p> |
|
27 |
Nashorn is a runtime environment for programs written in ECMAScript 5.1. |
|
28 |
</p> |
|
29 |
<h1>Usage</h1> |
|
30 |
<p> |
|
31 |
The recommended way to use Nashorn is through the <a href="http://jcp.org/en/jsr/detail?id=223" target="_top">JSR-223 |
|
32 |
"Scripting for the Java Platform"</a> APIs found in the {@link javax.script} package. Usually, you'll obtain a |
|
33 |
{@link javax.script.ScriptEngine} instance for Nashorn using: |
|
34 |
<pre> |
|
35 |
import javax.script.*; |
|
36 |
... |
|
37 |
ScriptEngine nashornEngine = new ScriptEngineManager().getEngineByName("nashorn"); |
|
38 |
</pre> |
|
39 |
and then use it just as you would any other JSR-223 script engine. See |
|
40 |
<a href="jdk/nashorn/api/scripting/package-summary.html">{@code jdk.nashorn.api.scripting}</a> package |
|
41 |
for details. |
|
42 |
<p> |
|
43 |
<h1>Compatibility</h1> |
|
44 |
Nashorn is 100% compliant with the <a href="http://www.ecma-international.org/publications/standards/Ecma-262.htm" |
|
45 |
target="_top">ECMA-262 Standard, Edition 5.1</a>. It requires a Java Virtual Machine that implements the |
|
46 |
<a href="http://jcp.org/en/jsr/detail?id=292" target="_top">JSR-292 "Supporting Dynamically Typed Languages on the Java |
|
47 |
Platform"</a> specification (often referred to as "invokedynamic"), as well as the already mentioned JSR-223. |
|
48 |
<h1>Interoperability with the Java platform</h1> |
|
49 |
<p> |
|
50 |
In addition to being a 100% ECMAScript 5.1 runtime, Nashorn provides features for interoperability of the ECMAScript |
|
51 |
programs with the Java platform. In general, any Java object put into the script engine's context will be visible from |
|
52 |
the script. In terms of the standard, such Java objects are not considered "native objects", but rather "host objects", |
|
53 |
as defined in section 4.3.8. This distinction allows certain semantical differences in handling them compared to native |
|
54 |
objects. For most purposes, Java objects behave just as native objects do: you can invoke their methods, get and set |
|
55 |
their properties. In most cases, though, you can't add arbitrary properties to them, nor can you remove existing |
|
56 |
properties. |
|
57 |
<p> |
|
58 |
<h2>Java collection handling</h2> |
|
59 |
<p> |
|
60 |
Native Java arrays and {@link java.util.List}s support indexed access to their elements through the property accessors, |
|
61 |
and {@link java.util.Map}s support both property and element access through both dot and square-bracket property |
|
62 |
accessors, with the difference being that dot operator gives precedence to object properties (its fields and properties |
|
63 |
defined as {@code getXxx} and {@code setXxx} methods) while the square bracket operator gives precedence to map |
|
64 |
elements. Native Java arrays expose the {@code length} property. |
|
65 |
<p> |
|
66 |
<h2>ECMAScript primitive types</h2> |
|
67 |
<p> |
|
68 |
ECMAScript primitive types for number, string, and boolean are represented with {@link java.lang.Number}, |
|
69 |
{@link java.lang.CharSequence}, and {@link java.lang.Boolean} objects. While the most often used number type is |
|
70 |
{@link java.lang.Double} and the most often used string type is {@link java.lang.String}, don't rely on it as various |
|
71 |
internal optimizations cause other subclasses of {@code Number} and internal implementations of {@code CharSequence} to |
|
72 |
be used. |
|
73 |
<p> |
|
74 |
<h2>Type conversions</h2> |
|
75 |
<p> |
|
76 |
When a method on a Java object is invoked, the arguments are converted to the formal parameter types of the Java method |
|
77 |
using all allowed ECMAScript conversions. This can be surprising, as in general, conversions from string to number will |
|
78 |
succeed according to Standard's section 9.3 "ToNumber" and so on; string to boolean, number to boolean, Object to |
|
79 |
number, Object to string all work. Note that if the Java method's declared parameter type is {@code java.lang.Object}, |
|
80 |
Nashorn objects are passed without any conversion whatsoever; specifically if the JavaScript value being passed is of |
|
81 |
primitive string type, you can only rely on it being a {@code java.lang.CharSequence}, and if the value is a number, you |
|
82 |
can only rely on it being a {@code java.lang.Number}. If the Java method declared parameter type is more specific (e.g. |
|
83 |
{@code java.lang.String} or {@code java.lang.Double}), then Nashorn will of course ensure the required type is passed. |
|
84 |
<p> |
|
85 |
<h2>SAM types</h2> |
|
86 |
<p> |
|
87 |
As a special extension when invoking Java methods, ECMAScript function objects can be passed in place of an argument |
|
88 |
whose Java type is so-called "single abstract method" or "SAM" type. While this name usually covers single-method |
|
89 |
interfaces, Nashorn is a bit more versatile, and it recognizes a type as a SAM type if all its abstract methods are |
|
90 |
overloads of the same name, and it is either an interface, or it is an abstract class with |
|
91 |
a no-arg constructor. The type itself must be public, while the constructor and the methods can be either public or |
|
92 |
protected. If there are multiple abstract overloads of the same name, the single function will serve as the shared |
|
93 |
implementation for all of them, <em>and additionally it will also override any non-abstract methods of the same name</em>. |
|
94 |
This is done to be consistent with the fact that ECMAScript does not have the concept of overloaded methods. |
|
95 |
<p> |
|
96 |
<h2>The {@code Java} object</h2> |
|
97 |
Nashorn exposes a non-standard global object named {@code Java} that is the primary API entry point into Java |
|
98 |
platform-specific functionality. You can use it to create instances of Java classes, convert from Java arrays to native |
|
99 |
arrays and back, and so on. The methods on the objects are directly implemented by public static methods on the class |
|
100 |
<a href="jdk/nashorn/internal/objects/NativeJava.html">{@code NativeJava}</a>, see that class for details on what |
|
101 |
functionality is available. |
|
102 |
<h2>Representations of Java types</h2> |
|
103 |
The method <a href="jdk/nashorn/internal/objects/NativeJava.html#type(java.lang.Object,%20java.lang.Object)"> |
|
104 |
{@code Java.type(typeName)}</a> takes a name of a type, and returns an object representing a Java type. You can |
|
105 |
use that object to both create new instances of Java classes, as well as to access static fields and methods on them. |
|
106 |
The type object is distinct from the {@code java.lang.Class} object, which represents the reflective run-time type |
|
107 |
identity and doesn't carry i.e. static members. Again, see the link for {@code NativeJava} above for details. |
|
108 |
<h2>Other non-standard built-in objects</h2> |
|
109 |
In addition to {@code Java}, Nashorn also exposes some other non-standard built-in objects: |
|
110 |
<a href="jdk/nashorn/internal/objects/NativeJSAdapter.html">{@code JSAdapter}</a>, |
|
21447
5efe5ca7b352
8027024: String.prototype.charAt and charCodeAt do not evaluate 'self' and 'pos' arguments in right order
sundar
parents:
16151
diff
changeset
|
111 |
<a href="jdk/nashorn/internal/objects/NativeJavaImporter.html">{@code JavaImporter}</a>, |
16147 | 112 |
<a href="jdk/nashorn/internal/runtime/NativeJavaPackage.html">{@code Packages}.</a> |
16151 | 113 |
</body> |