Spec-Zone .ru
спецификации, руководства, описания, API
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A resource is data (images, audio, text, and so on) that a program needs to access
in a way that is independent of the location of the program code.
Java programs can use two mechanisms to access resources:
Applets use Applet.getCodeBase()
to get the base
URL for the applet code and then extend the base URL
with a relative path to load the desired resource, for example with
Applet.getAudioClip(url)
.
Applications use "well known locations" such as
System.getProperty("user.home")
or
System.getProperty("java.home")
, then add
"/lib/resource", and open that file.
Methods in the classes Class
and ClassLoader
provide a
location-independent way to locate resources.
For example, they enable locating resources for:
These methods do not provide specific support for locating localized resources. Localized resources are supported by the internationalization facilities.
A resource is identified by a string consisting of a sequence of substrings,
delimited by slashes (/), followed by a resource name.
Each substring must be a valid Java identifier. The resource name is
of the form shortName
or shortName.extension
.
Both shortName
and extension
must be Java identifiers.
The name of a resource is independent of the Java implementation; in particular, the path separator is always a slash (/). However, the Java implementation controls the details of how the contents of the resource are mapped into a file, database, or other object containing the actual resource.
The interpretation of a resource name is relative to a class loader
instance. Methods implemented by the ClassLoader
class do this interpretation.
A system resource is a resource that is either built-in to
the system, or kept by the host implementation in, for example, a
local file system. Programs access system resources through the ClassLoader
methods getSystemResource
and getSystemResourceAsStream
.
For example, in a particular implementation, locating a system
resource may involve searching the entries in the CLASSPATH. The ClassLoader
methods
search each directory, ZIP file, or JAR file entry in the CLASSPATH for
the resource file, and, if found, returns either an InputStream
, or the resource name.
If not found, the methods return null. A resource may be found in
a different entry in the CLASSPATH than the location where the class file was loaded.
The implementation of getResource
on a class loader
depends on the details of the ClassLoader
class. For example,
AppletClassLoader
:
All class loaders will search for a resource first as a system resource, in a manner analogous to searcing for class files. This search rule permits overwriting locally any resource. Clients should choose a resource name that will be unique (using the company or package name as a prefix, for instance).
A common convention for the name of a resource used by a class is
to use the fully qualified name of the package of the class, but convert
all periods (.) to slashes (/), and add a resource name of the form name.extension
.
To support this, and to simplify handling the details of system
classes (for which getClassLoader
returns null),
the class Class
provides two convenience methods that call the
appropriate methods in ClassLoader
.
The resource name given to a Class
method may have an initial
starting "/" that identifies it as an "absolute" name.
Resource names that do not start with a "/" are "relative".
Absolute names are stripped of their starting "/" and are passed,
without any further modification, to the appropriate ClassLoader
method to locate the resource.
Relative names are modified according to the convention described
previously and then are passed to a ClassLoader
method.
The Class
class implements several methods for loading resources.
The method getResource()
returns a URL for the resource.
The URL (and its representation) is specific to the implementation and the JVM
(that is, the URL obtained in one runtime instance may not work in
another).
Its protocol is usually specific to the ClassLoader
loading the resource.
If the resource does not exist or is not visible due to security considerations,
the methods return null.
If the client code wants to read the contents of the resource
as an InputStream
, it can apply the openStream()
method on
the URL. This is common enough to justify adding
getResourceAsStream()
to Class
and ClassLoader
.
getResourceAsStream()
the same as calling
getResource().openStream()
, except that getResourceAsStream()
catches IO exceptions returns a null InputStream
.
Client code code can also request the contents of the
resource as an object by applying the java.net.URL.getContent()
method
on the URL. This is useful when the resource contains the data
for an image, for instance. In the case of an image, the result is
an awt.image.ImageProducer
object, not an Image
object.
The getResource
and getResourceAsStream
methods find a resource
with a given name. They return null if they do not find a resource with the specified name.
The rules for searching for resources associated with a given class are implemented by the
class's ClassLoader.
The Class
methods delegate to ClassLoader
methods, after applying
a naming convention: if the resource name starts with "/", it is used
as is. Otherwise, the name of the package is prepended, after
converting all periods (.) to slashes (/).
public InputStream getResourceAsStream(String name) { name = resolveName(name); ClassLoader cl = getClassLoader(); if (cl==null) { return ClassLoader.getSystemResourceAsStream(name); // A system class. } return cl.getResourceAsStream(name); } public java.net.URL getResource(String name) { name = resolveName(name); ClassLoader cl = getClassLoader(); if (cl==null) { return ClassLoader.getSystemResource(name); // A system class. } return cl.getResource(name); }
The resolveName
method adds a package name prefix if the name is not absolute, and
removes any leading "/" if the name is absolute.
It is possible, though uncommon, to have
classes in diffent packages sharing the same resource.
private String resolveName(String name) { if (name == null) { return name; } if (!name.startsWith("/")) { Class c = this; while (c.isArray()) { c = c.getComponentType(); } String baseName = c.getName(); int index = baseName.lastIndexOf('.'); if (index != -1) { name = baseName.substring(0, index).replace('.', '/') + "/" + name; } } else { name = name.substring(1); } return name; }
The ClassLoader
class has two sets of methods to access resources.
One set returns an InputStream
for the resource. The other set returns a URL.
The methods that return an InputStream
are easier to use and will
satisfy many needs, while the methods that return URLs provide
access to more complex information, such as an Image and an AudioClip.
The ClassLoader
manges resources similarly to the way it manages classes.
A ClassLoader
controls how to map the name of
a resource to its content. ClassLoader
also provides methods for
accessing system resources, analogous to the system classes.
The Class
class provides some convenience methods that delegate functionality
to the ClassLoader
methods.
Many Java programs will access these methods indirectly through the
I18N (localization) APIs. Others will access it through methods in Class
.
A few will directly invoke the ClassLoader
methods.
The methods in ClassLoader
use the given String as the name of the
resource without applying any absolute/relative transformation
(see the methods in Class).
The name should not have a leading "/".
System resources are those that are handled by the host implemenation directly. For example, they may be located in the CLASSPATH.
The name of a resource is a "/"-separated sequence of identifiers.
The Class
class provides convenience methods for accessing resources;
the methods implement a convention where the package name is prefixed
to the short name of the resource.
Resources can be accessed as an InputStream
, or a URL.
The getSystemResourceAsStream
method returns an InputStream for the specified system
resource or null if it does not find the resource.
The resource name may be any system resource.
The getSystemResource
method finds a system resource with the specified name.
It returns a URL to the resource or null if it does not find the resource.
Calling java.net.URL.getContent()
with the URL will return an object
such as ImageProducer
, AudioClip
, or InputStream
.
The getResourceAsStream
method returns an InputStream
for the
specified resource or null if it does not find the resource.
The getResource
method finds a resource with the specified name.
It returns a URL to the resource or null if it does not find the resource.
Calling java.net.URL.getContent()
with the URL will return an object
such as ImageProducer
, AudioClip
, or InputStream
.
Since getResource()
provides access to information, it must have well-defined
and well-founded security rules.
If security considerations do not allow a resource to be visible in
some security context, the getResource()
method will fail
(return null) as if the resource were not present at all, this addresses
existence attacks.
Class loaders may not provide access to the contents of a .class file for both security and performance reasons. Whether it is possible to obtain a URL for a .class file depends on the specifics, as shown below.
There are no specified security issues or restrictions regarding
resources that are found by a non-system class loader.
AppletClassLoader
provides access to information that is loaded from
a source location, either individually, or in a group through a JAR
file; thus AppletClassLoader
should apply the same
checkConnect()
rules when dealing with URLs through
getResource()
.
The system ClassLoader
provides access to information in the
CLASSPATH. A CLASSPATH may contain directories and JAR files. Since
a JAR file is created intentionally, it has a different
significance than a directory where things may end up in a
more casual manner. In particular, we are more strict on getting
information out of a directory than out from a JAR file.
If a resource is in a directory:
getResource()
invocations will use
File.exists()
to determine whether
to make the corresponding file visible to the user. Recall that
File.exists()
uses the
checkRead()
method in the security manager.
getResourceAsStream()
.
If the resource is in a JAR file:
getResource()
invocations will succeed for all files,
regardless of whether the invocation is done from within a system or
a non-system class.
getResourceAsStream()
invocations will succeed for non
.class resources, and so will for java.net.URL.getContent()
on corresponding
URLs.
This section provides two examples of client code. The first example uses "absolute
resource" names and traditional mechanisms to get a Class
object.
package pkg; import java.io.IOException; import java.io.InputStream; import java.io.PrintStream; class Test { private static final String absName = "/pkg/mumble.baf"; public static void test1() { Class c=null; try { c = Class.forName("pkg.Test"); } catch (Exception ex) { // This should not happen. } InputStream s = c.getResourceAsStream(absName); // do something with it. } public void test2() { InputStream s = this.getClass().getResourceAsStream(absName); // do something with it. } }
This example uses "relative resource" names and the
mechanism available from the compiler through the -experimental
flag,
to get a Class
object.
package pkg; import java.io.IOException; import java.io.InputStream; import java.io.PrintStream; class Test { private static final String relName = "mumble.baf"; public static void test1() { InputStream s = Test.class.getResourceAsStream(relName); // do something with it. } public void test2() { InputStream s = Test.class.getResourceAsStream(relName); // do something with it. }
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