/*****************************************************************************
* *
* This file is part of the BeanShell Java Scripting distribution. *
* Documentation and updates may be found at http://www.beanshell.org/ *
* *
* Sun Public License Notice: *
* *
* The contents of this file are subject to the Sun Public License Version *
* 1.0 (the "License"); you may not use this file except in compliance with *
* the License. A copy of the License is available at http://www.sun.com *
* *
* The Original Code is BeanShell. The Initial Developer of the Original *
* Code is Pat Niemeyer. Portions created by Pat Niemeyer are Copyright *
* (C) 2000. All Rights Reserved. *
* *
* GNU Public License Notice: *
* *
* Alternatively, the contents of this file may be used under the terms of *
* the GNU Lesser General Public License (the "LGPL"), in which case the *
* provisions of LGPL are applicable instead of those above. If you wish to *
* allow use of your version of this file only under the terms of the LGPL *
* and not to allow others to use your version of this file under the SPL, *
* indicate your decision by deleting the provisions above and replace *
* them with the notice and other provisions required by the LGPL. If you *
* do not delete the provisions above, a recipient may use your version of *
* this file under either the SPL or the LGPL. *
* *
* Patrick Niemeyer (pat@pat.net) *
* Author of Learning Java, O'Reilly & Associates *
* http://www.pat.net/~pat/ *
* *
*****************************************************************************/
package bsh;
import java.net.*;
import java.util.*;
import java.io.
IOException;
import java.io.*;
import java.lang.reflect.
Method;
import java.lang.reflect.
Modifier;
/**
BshClassManager manages all classloading in BeanShell.
It also supports a dynamically loaded extension (bsh.classpath package)
which allows classpath extension and class file reloading.
Currently the extension relies on 1.2 for BshClassLoader and weak
references.
See http://www.beanshell.org/manual/classloading.html for details
on the bsh classloader architecture.
<p>
Bsh has a multi-tiered class loading architecture. No class loader is
used unless/until the classpath is modified or a class is reloaded.
<p>
*/
/*
Implementation notes:
Note: we may need some synchronization in here
Note on version dependency: This base class is JDK 1.1 compatible,
however we are forced to use weak references in the full featured
implementation (the optional bsh.classpath package) to accomodate all of
the fleeting namespace listeners as they fall out of scope. (NameSpaces
must be informed if the class space changes so that they can un-cache
names).
<p>
Perhaps a simpler idea would be to have entities that reference cached
types always perform a light weight check with a counter / reference
value and use that to detect changes in the namespace. This puts the
burden on the consumer to check at appropriate times, but could eliminate
the need for the listener system in many places and the necessity of weak
references in this package.
<p>
*/
public class
BshClassManager
{
/** Identifier for no value item. Use a hashtable as a Set. */
private static
Object NOVALUE = new
Object();
/**
The interpreter which created the class manager
This is used to load scripted classes from source files.
*/
private
Interpreter declaringInterpreter;
/**
An external classloader supplied by the setClassLoader() command.
*/
protected
ClassLoader externalClassLoader;
/**
Global cache for things we know are classes.
Note: these should probably be re-implemented with Soft references.
(as opposed to strong or Weak)
*/
protected transient
Hashtable absoluteClassCache = new
Hashtable();
/**
Global cache for things we know are *not* classes.
Note: these should probably be re-implemented with Soft references.
(as opposed to strong or Weak)
*/
protected transient
Hashtable absoluteNonClasses = new
Hashtable();
/**
Caches for resolved object and static methods.
We keep these maps separate to support fast lookup in the general case
where the method may be either.
*/
protected transient
Hashtable resolvedObjectMethods = new
Hashtable();
protected transient
Hashtable resolvedStaticMethods = new
Hashtable();
protected transient
Hashtable definingClasses = new
Hashtable();
protected transient
Hashtable definingClassesBaseNames = new
Hashtable();
/**
Create a new instance of the class manager.
Class manager instnaces are now associated with the interpreter.
@see bsh.Interpreter.getClassManager()
@see bsh.Interpreter.setClassLoader( ClassLoader )
*/
public static
BshClassManager createClassManager(
Interpreter interpreter )
{
BshClassManager manager;
// Do we have the necessary jdk1.2 packages and optional package?
if (
Capabilities.
classExists("java.lang.ref.WeakReference")
&&
Capabilities.
classExists("java.util.HashMap")
&&
Capabilities.
classExists("bsh.classpath.ClassManagerImpl")
)
try {
// Try to load the module
// don't refer to it directly here or we're dependent upon it
Class clas =
Class.
forName( "bsh.classpath.ClassManagerImpl" );
manager = (
BshClassManager)
clas.
newInstance();
} catch (
Exception e ) {
throw new
InterpreterError("Error loading classmanager: "+
e);
}
else
manager = new
BshClassManager();
if (
interpreter == null )
interpreter = new
Interpreter();
manager.
declaringInterpreter =
interpreter;
return
manager;
}
public boolean
classExists(
String name ) {
return (
classForName(
name ) != null );
}
/**
Load the specified class by name, taking into account added classpath
and reloaded classes, etc.
Note: Again, this is just a trivial implementation.
See bsh.classpath.ClassManagerImpl for the fully functional class
management package.
@return the class or null
*/
public
Class classForName(
String name )
{
if (
isClassBeingDefined(
name ) )
throw new
InterpreterError(
"Attempting to load class in the process of being defined: "
+
name );
Class clas = null;
try {
clas =
plainClassForName(
name );
} catch (
ClassNotFoundException e ) { /*ignore*/ }
// try scripted class
if (
clas == null )
clas =
loadSourceClass(
name );
return
clas;
}
// Move me to classpath/ClassManagerImpl???
protected
Class loadSourceClass(
String name )
{
String fileName = "/"+
name.
replace('.','/')+".java";
InputStream in =
getResourceAsStream(
fileName );
if (
in == null )
return null;
try {
System.
out.
println("Loading class from source file: "+
fileName);
declaringInterpreter.
eval( new
InputStreamReader(
in) );
} catch (
EvalError e ) {
// ignore
System.
err.
println(
e );
}
try {
return
plainClassForName(
name );
} catch (
ClassNotFoundException e ) {
System.
err.
println("Class not found in source file: "+
name );
return null;
}
}
/**
Perform a plain Class.forName() or call the externally provided
classloader.
If a BshClassManager implementation is loaded the call will be
delegated to it, to allow for additional hooks.
<p/>
This simply wraps that bottom level class lookup call and provides a
central point for monitoring and handling certain Java version
dependent bugs, etc.
@see #classForName( String )
@return the class
*/
public
Class plainClassForName(
String name )
throws
ClassNotFoundException
{
Class c = null;
try {
if (
externalClassLoader != null )
c =
externalClassLoader.
loadClass(
name );
else
c =
Class.
forName(
name );
cacheClassInfo(
name,
c );
/*
Original note: Jdk under Win is throwing these to
warn about lower case / upper case possible mismatch.
e.g. bsh.console bsh.Console
Update: Prior to 1.3 we were squeltching NoClassDefFoundErrors
which was very annoying. I cannot reproduce the original problem
and this was never a valid solution. If there are legacy VMs that
have problems we can include a more specific test for them here.
*/
} catch (
NoClassDefFoundError e ) {
throw
noClassDefFound(
name,
e );
}
return
c;
}
/**
Get a resource URL using the BeanShell classpath
@param path should be an absolute path
*/
public
URL getResource(
String path )
{
URL url = null;
if (
externalClassLoader != null )
{
// classloader wants no leading slash
url =
externalClassLoader.
getResource(
path.
substring(1) );
}
if (
url == null )
url =
Interpreter.class.
getResource(
path );
return
url;
}
/**
Get a resource stream using the BeanShell classpath
@param path should be an absolute path
*/
public
InputStream getResourceAsStream(
String path )
{
InputStream in = null;
if (
externalClassLoader != null )
{
// classloader wants no leading slash
in =
externalClassLoader.
getResourceAsStream(
path.
substring(1) );
}
if (
in == null )
in =
Interpreter.class.
getResourceAsStream(
path );
return
in;
}
/**
Cache info about whether name is a class or not.
@param value
if value is non-null, cache the class
if value is null, set the flag that it is *not* a class to
speed later resolution
*/
public void
cacheClassInfo(
String name,
Class value ) {
if (
value != null )
absoluteClassCache.
put(
name,
value );
else
absoluteNonClasses.
put(
name,
NOVALUE );
}
/**
Cache a resolved (possibly overloaded) method based on the
argument types used to invoke it, subject to classloader change.
Static and Object methods are cached separately to support fast lookup
in the general case where either will do.
*/
public void
cacheResolvedMethod(
Class clas,
Class []
types,
Method method )
{
if (
Interpreter.
DEBUG )
Interpreter.
debug(
"cacheResolvedMethod putting: " +
clas +" "+
method );
SignatureKey sk = new
SignatureKey(
clas,
method.
getName(),
types );
if (
Modifier.
isStatic(
method.
getModifiers() ) )
resolvedStaticMethods.
put(
sk,
method );
else
resolvedObjectMethods.
put(
sk,
method );
}
/**
Return a previously cached resolved method.
@param onlyStatic specifies that only a static method may be returned.
@return the Method or null
*/
protected
Method getResolvedMethod(
Class clas,
String methodName,
Class []
types, boolean
onlyStatic )
{
SignatureKey sk = new
SignatureKey(
clas,
methodName,
types );
// Try static and then object, if allowed
// Note that the Java compiler should not allow both.
Method method = (
Method)
resolvedStaticMethods.
get(
sk );
if (
method == null && !
onlyStatic)
method = (
Method)
resolvedObjectMethods.
get(
sk );
if (
Interpreter.
DEBUG )
{
if (
method == null )
Interpreter.
debug(
"getResolvedMethod cache MISS: " +
clas +" - "+
methodName );
else
Interpreter.
debug(
"getResolvedMethod cache HIT: " +
clas +" - " +
method );
}
return
method;
}
/**
Clear the caches in BshClassManager
@see public void #reset() for external usage
*/
protected void
clearCaches()
{
absoluteNonClasses = new
Hashtable();
absoluteClassCache = new
Hashtable();
resolvedObjectMethods = new
Hashtable();
resolvedStaticMethods = new
Hashtable();
}
/**
Set an external class loader. BeanShell will use this at the same
point it would otherwise use the plain Class.forName().
i.e. if no explicit classpath management is done from the script
(addClassPath(), setClassPath(), reloadClasses()) then BeanShell will
only use the supplied classloader. If additional classpath management
is done then BeanShell will perform that in addition to the supplied
external classloader.
However BeanShell is not currently able to reload
classes supplied through the external classloader.
*/
public void
setClassLoader(
ClassLoader externalCL )
{
externalClassLoader =
externalCL;
classLoaderChanged();
}
public void
addClassPath(
URL path )
throws
IOException {
}
/**
Clear all loaders and start over. No class loading.
*/
public void
reset() {
clearCaches();
}
/**
Set a new base classpath and create a new base classloader.
This means all types change.
*/
public void
setClassPath(
URL []
cp )
throws
UtilEvalError
{
throw
cmUnavailable();
}
/**
Overlay the entire path with a new class loader.
Set the base path to the user path + base path.
No point in including the boot class path (can't reload thos).
*/
public void
reloadAllClasses() throws
UtilEvalError {
throw
cmUnavailable();
}
/**
Reloading classes means creating a new classloader and using it
whenever we are asked for classes in the appropriate space.
For this we use a DiscreteFilesClassLoader
*/
public void
reloadClasses(
String []
classNames )
throws
UtilEvalError
{
throw
cmUnavailable();
}
/**
Reload all classes in the specified package: e.g. "com.sun.tools"
The special package name "<unpackaged>" can be used to refer
to unpackaged classes.
*/
public void
reloadPackage(
String pack )
throws
UtilEvalError
{
throw
cmUnavailable();
}
/**
This has been removed from the interface to shield the core from the
rest of the classpath package. If you need the classpath you will have
to cast the classmanager to its impl.
public BshClassPath getClassPath() throws ClassPathException;
*/
/**
Support for "import *;"
Hide details in here as opposed to NameSpace.
*/
protected void
doSuperImport()
throws
UtilEvalError
{
throw
cmUnavailable();
}
/**
A "super import" ("import *") operation has been performed.
*/
protected boolean
hasSuperImport()
{
return false;
}
/**
Return the name or null if none is found,
Throw an ClassPathException containing detail if name is ambigous.
*/
protected
String getClassNameByUnqName(
String name )
throws
UtilEvalError
{
throw
cmUnavailable();
}
public void
addListener(
Listener l ) { }
public void
removeListener(
Listener l ) { }
public void
dump(
PrintWriter pw ) {
pw.
println("BshClassManager: no class manager.");
}
/**
Flag the class name as being in the process of being defined.
The class manager will not attempt to load it.
*/
/*
Note: this implementation is temporary. We currently keep a flat
namespace of the base name of classes. i.e. BeanShell cannot be in the
process of defining two classes in different packages with the same
base name. To remove this limitation requires that we work through
namespace imports in an analogous (or using the same path) as regular
class import resolution. This workaround should handle most cases
so we'll try it for now.
*/
protected void
definingClass(
String className ) {
String baseName =
Name.
suffix(
className,1);
int
i =
baseName.
indexOf("$");
if (
i != -1 )
baseName =
baseName.
substring(
i+1);
String cur = (
String)
definingClassesBaseNames.
get(
baseName );
if (
cur != null )
throw new
InterpreterError("Defining class problem: "+
className
+": BeanShell cannot yet simultaneously define two or more "
+"dependant classes of the same name. Attempt to define: "
+
className +" while defining: "+
cur
);
definingClasses.
put(
className,
NOVALUE );
definingClassesBaseNames.
put(
baseName,
className );
}
protected boolean
isClassBeingDefined(
String className ) {
return
definingClasses.
get(
className ) != null;
}
/**
This method is a temporary workaround used with definingClass.
It is to be removed at some point.
*/
protected
String getClassBeingDefined(
String className ) {
String baseName =
Name.
suffix(
className,1);
return (
String)
definingClassesBaseNames.
get(
baseName );
}
/**
Indicate that the specified class name has been defined and may be
loaded normally.
*/
protected void
doneDefiningClass(
String className ) {
String baseName =
Name.
suffix(
className,1);
definingClasses.
remove(
className );
definingClassesBaseNames.
remove(
baseName );
}
/*
The real implementation in the classpath.ClassManagerImpl handles
reloading of the generated classes.
*/
public
Class defineClass(
String name, byte []
code )
{
throw new
InterpreterError("Can't create class ("+
name
+") without class manager package.");
/*
Old implementation injected classes into the parent classloader.
This was incorrect behavior for several reasons. The biggest problem
is that classes could therefore only be defined once across all
executions of the script...
ClassLoader cl = this.getClass().getClassLoader();
Class clas;
try {
clas = (Class)Reflect.invokeObjectMethod(
cl, "defineClass",
new Object [] {
name, code,
new Primitive( (int)0 )/offset/,
new Primitive( code.length )/len/
},
(Interpreter)null, (CallStack)null, (SimpleNode)null
);
} catch ( Exception e ) {
e.printStackTrace();
throw new InterpreterError("Unable to define class: "+ e );
}
absoluteNonClasses.remove( name ); // may have been axed previously
return clas;
*/
}
protected void
classLoaderChanged() { }
/**
Annotate the NoClassDefFoundError with some info about the class
we were trying to load.
*/
protected static
Error noClassDefFound(
String className,
Error e ) {
return new
NoClassDefFoundError(
"A class required by class: "+
className +" could not be loaded:\n"
+
e.
toString() );
}
protected static
UtilEvalError cmUnavailable() {
return new
Capabilities.
Unavailable(
"ClassLoading features unavailable.");
}
public static interface
Listener
{
public void
classLoaderChanged();
}
/**
SignatureKey serves as a hash of a method signature on a class
for fast lookup of overloaded and general resolved Java methods.
<p>
*/
/*
Note: is using SignatureKey in this way dangerous? In the pathological
case a user could eat up memory caching every possible combination of
argument types to an untyped method. Maybe we could be smarter about
it by ignoring the types of untyped parameter positions? The method
resolver could return a set of "hints" for the signature key caching?
There is also the overhead of creating one of these for every method
dispatched. What is the alternative?
*/
static class
SignatureKey
{
Class clas;
Class []
types;
String methodName;
int
hashCode = 0;
SignatureKey(
Class clas,
String methodName,
Class []
types ) {
this.
clas =
clas;
this.
methodName =
methodName;
this.
types =
types;
}
public int
hashCode()
{
if (
hashCode == 0 )
{
hashCode =
clas.
hashCode() *
methodName.
hashCode();
if (
types == null ) // no args method
return
hashCode;
for( int
i =0;
i <
types.length;
i++ ) {
int
hc =
types[
i] == null ? 21 :
types[
i].
hashCode();
hashCode =
hashCode*(
i+1) +
hc;
}
}
return
hashCode;
}
public boolean
equals(
Object o ) {
SignatureKey target = (
SignatureKey)
o;
if (
types == null )
return
target.
types == null;
if (
clas !=
target.
clas )
return false;
if ( !
methodName.
equals(
target.
methodName ) )
return false;
if (
types.length !=
target.
types.length )
return false;
for( int
i =0;
i<
types.length;
i++ )
{
if (
types[
i]==null )
{
if ( !(
target.
types[
i]==null) )
return false;
} else
if ( !
types[
i].
equals(
target.
types[
i] ) )
return false;
}
return true;
}
}
}