scouter.javassist.ClassPool Maven / Gradle / Ivy
/*
* Javassist, a Java-bytecode translator toolkit.
* Copyright (C) 1999- Shigeru Chiba. All Rights Reserved.
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. Alternatively, the contents of this file may be used under
* the terms of the GNU Lesser General Public License Version 2.1 or later,
* or the Apache License Version 2.0.
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*/
package scouter.javassist;
import java.io.BufferedInputStream;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.lang.reflect.Method;
import java.net.URL;
import java.security.AccessController;
import java.security.PrivilegedActionException;
import java.security.PrivilegedExceptionAction;
import java.security.ProtectionDomain;
import java.util.ArrayList;
import java.util.Enumeration;
import java.util.Hashtable;
import java.util.Iterator;
import scouter.javassist.CannotCompileException;
import scouter.javassist.ClassClassPath;
import scouter.javassist.ClassPath;
import scouter.javassist.CtClass;
import scouter.javassist.CtMethod;
import scouter.javassist.LoaderClassPath;
import scouter.javassist.Modifier;
import scouter.javassist.NotFoundException;
import scouter.javassist.bytecode.ClassFile;
import scouter.javassist.bytecode.Descriptor;
/**
* A container of CtClass
objects.
* A CtClass
object must be obtained from this object.
* If get()
is called on this object,
* it searches various sources represented by ClassPath
* to find a class file and then it creates a CtClass
object
* representing that class file. The created object is returned to the
* caller.
*
* Memory consumption memo:
*
*
ClassPool
objects hold all the CtClass
es
* that have been created so that the consistency among modified classes
* can be guaranteed. Thus if a large number of CtClass
es
* are processed, the ClassPool
will consume a huge amount
* of memory. To avoid this, a ClassPool
object
* should be recreated, for example, every hundred classes processed.
* Note that getDefault()
is a singleton factory.
* Otherwise, detach()
in CtClass
should be used
* to avoid huge memory consumption.
*
*
ClassPool
hierarchy:
*
*
ClassPool
s can make a parent-child hierarchy as
* java.lang.ClassLoader
s. If a ClassPool
has
* a parent pool, get()
first asks the parent pool to find
* a class file. Only if the parent could not find the class file,
* get()
searches the ClassPath
s of
* the child ClassPool
. This search order is reversed if
* ClassPath.childFirstLookup
is true
.
*
* @see scouter.javassist.CtClass
* @see scouter.javassist.ClassPath
*/
public class ClassPool {
// used by toClass().
private static java.lang.reflect.Method defineClass1, defineClass2;
private static java.lang.reflect.Method definePackage;
static {
try {
AccessController.doPrivileged(new PrivilegedExceptionAction(){
public Object run() throws Exception{
Class cl = Class.forName("java.lang.ClassLoader");
defineClass1 = cl.getDeclaredMethod("defineClass",
new Class[] { String.class, byte[].class,
int.class, int.class });
defineClass2 = cl.getDeclaredMethod("defineClass",
new Class[] { String.class, byte[].class,
int.class, int.class, ProtectionDomain.class });
definePackage = cl.getDeclaredMethod("definePackage",
new Class[] { String.class, String.class, String.class,
String.class, String.class, String.class,
String.class, java.net.URL.class });
return null;
}
});
}
catch (PrivilegedActionException pae) {
throw new RuntimeException("cannot initialize ClassPool", pae.getException());
}
}
/**
* Determines the search order.
*
*
If this field is true, get()
first searches the
* class path associated to this ClassPool
and then
* the class path associated with the parent ClassPool
.
* Otherwise, the class path associated with the parent is searched
* first.
*
*
The default value is false.
*/
public boolean childFirstLookup = false;
/**
* Turning the automatic pruning on/off.
*
*
If this field is true, CtClass
objects are
* automatically pruned by default when toBytecode()
etc.
* are called. The automatic pruning can be turned on/off individually
* for each CtClass
object.
*
*
The initial value is false.
*
* @see CtClass#prune()
* @see CtClass#stopPruning(boolean)
* @see CtClass#detach()
*/
public static boolean doPruning = false;
private int compressCount;
private static final int COMPRESS_THRESHOLD = 100;
/* releaseUnmodifiedClassFile was introduced for avoiding a bug
of JBoss AOP. So the value should be true except for JBoss AOP.
*/
/**
* If true, unmodified and not-recently-used class files are
* periodically released for saving memory.
*
*
The initial value is true.
*/
public static boolean releaseUnmodifiedClassFile = true;
protected ClassPoolTail source;
protected ClassPool parent;
protected Hashtable classes; // should be synchronous
/**
* Table of registered cflow variables.
*/
private Hashtable cflow = null; // should be synchronous.
private static final int INIT_HASH_SIZE = 191;
private ArrayList importedPackages;
/**
* Creates a root class pool. No parent class pool is specified.
*/
public ClassPool() {
this(null);
}
/**
* Creates a root class pool. If useDefaultPath
is
* true, appendSystemPath()
is called. Otherwise,
* this constructor is equivalent to the constructor taking no
* parameter.
*
* @param useDefaultPath true if the system search path is
* appended.
*/
public ClassPool(boolean useDefaultPath) {
this(null);
if (useDefaultPath)
appendSystemPath();
}
/**
* Creates a class pool.
*
* @param parent the parent of this class pool. If this is a root
* class pool, this parameter must be null
.
* @see scouter.javassist.ClassPool#getDefault()
*/
public ClassPool(ClassPool parent) {
this.classes = new Hashtable(INIT_HASH_SIZE);
this.source = new ClassPoolTail();
this.parent = parent;
if (parent == null) {
CtClass[] pt = CtClass.primitiveTypes;
for (int i = 0; i < pt.length; ++i)
classes.put(pt[i].getName(), pt[i]);
}
this.cflow = null;
this.compressCount = 0;
clearImportedPackages();
}
/**
* Returns the default class pool.
* The returned object is always identical since this method is
* a singleton factory.
*
*
The default class pool searches the system search path,
* which usually includes the platform library, extension
* libraries, and the search path specified by the
* -classpath
option or the CLASSPATH
* environment variable.
*
*
When this method is called for the first time, the default
* class pool is created with the following code snippet:
*
*
ClassPool cp = new ClassPool();
* cp.appendSystemPath();
*
*
* If the default class pool cannot find any class files,
* try ClassClassPath
and LoaderClassPath
.
*
* @see ClassClassPath
* @see LoaderClassPath
*/
public static synchronized ClassPool getDefault() {
if (defaultPool == null) {
defaultPool = new ClassPool(null);
defaultPool.appendSystemPath();
}
return defaultPool;
}
private static ClassPool defaultPool = null;
/**
* Provide a hook so that subclasses can do their own
* caching of classes.
*
* @see #cacheCtClass(String,CtClass,boolean)
* @see #removeCached(String)
*/
protected CtClass getCached(String classname) {
return (CtClass)classes.get(classname);
}
/**
* Provides a hook so that subclasses can do their own
* caching of classes.
*
* @see #getCached(String)
* @see #removeCached(String)
*/
protected void cacheCtClass(String classname, CtClass c, boolean dynamic) {
classes.put(classname, c);
}
/**
* Provide a hook so that subclasses can do their own
* caching of classes.
*
* @see #getCached(String)
* @see #cacheCtClass(String,CtClass,boolean)
*/
protected CtClass removeCached(String classname) {
return (CtClass)classes.remove(classname);
}
/**
* Returns the class search path.
*/
public String toString() {
return source.toString();
}
/**
* This method is periodically invoked so that memory
* footprint will be minimized.
*/
void compress() {
if (compressCount++ > COMPRESS_THRESHOLD) {
compressCount = 0;
Enumeration e = classes.elements();
while (e.hasMoreElements())
((CtClass)e.nextElement()).compress();
}
}
/**
* Record a package name so that the Javassist compiler searches
* the package to resolve a class name.
* Don't record the java.lang
package, which has
* been implicitly recorded by default.
*
*
Since version 3.14, packageName
can be a
* fully-qualified class name.
*
*
Note that get()
in ClassPool
does
* not search the recorded package. Only the compiler searches it.
*
* @param packageName the package name.
* It must not include the last '.' (dot).
* For example, "java.util" is valid but "java.util." is wrong.
* @since 3.1
*/
public void importPackage(String packageName) {
importedPackages.add(packageName);
}
/**
* Clear all the package names recorded by importPackage()
.
* The java.lang
package is not removed.
*
* @see #importPackage(String)
* @since 3.1
*/
public void clearImportedPackages() {
importedPackages = new ArrayList();
importedPackages.add("java.lang");
}
/**
* Returns all the package names recorded by importPackage()
.
*
* @see #importPackage(String)
* @since 3.1
*/
public Iterator getImportedPackages() {
return importedPackages.iterator();
}
/**
* Records a class name that never exists.
* For example, a package name can be recorded by this method.
* This would improve execution performance
* since get()
quickly throw an exception
* without searching the class path at all
* if the given name is an invalid name recorded by this method.
* Note that searching the class path takes relatively long time.
*
*
The current implementation of this method performs nothing.
*
* @param name an invalid class name (separeted by dots).
* @deprecated
*/
public void recordInvalidClassName(String name) {
// source.recordInvalidClassName(name);
}
/**
* Records the $cflow
variable for the field specified
* by cname
and fname
.
*
* @param name variable name
* @param cname class name
* @param fname field name
*/
void recordCflow(String name, String cname, String fname) {
if (cflow == null)
cflow = new Hashtable();
cflow.put(name, new Object[] { cname, fname });
}
/**
* Undocumented method. Do not use; internal-use only.
*
* @param name the name of $cflow
variable
*/
public Object[] lookupCflow(String name) {
if (cflow == null)
cflow = new Hashtable();
return (Object[])cflow.get(name);
}
/**
* Reads a class file and constructs a CtClass
* object with a new name.
* This method is useful if you want to generate a new class as a copy
* of another class (except the class name). For example,
*
*
* getAndRename("Point", "Pair")
*
*
* returns a CtClass
object representing Pair
* class. The definition of Pair
is the same as that of
* Point
class except the class name since Pair
* is defined by reading Point.class
.
*
* @param orgName the original (fully-qualified) class name
* @param newName the new class name
*/
public CtClass getAndRename(String orgName, String newName)
throws NotFoundException
{
CtClass clazz = get0(orgName, false);
if (clazz == null)
throw new NotFoundException(orgName);
if (clazz instanceof CtClassType)
((CtClassType)clazz).setClassPool(this);
clazz.setName(newName); // indirectly calls
// classNameChanged() in this class
return clazz;
}
/*
* This method is invoked by CtClassType.setName(). It removes a
* CtClass object from the hash table and inserts it with the new
* name. Don't delegate to the parent.
*/
synchronized void classNameChanged(String oldname, CtClass clazz) {
CtClass c = (CtClass)getCached(oldname);
if (c == clazz) // must check this equation.
removeCached(oldname); // see getAndRename().
String newName = clazz.getName();
checkNotFrozen(newName);
cacheCtClass(newName, clazz, false);
}
/**
* Reads a class file from the source and returns a reference
* to the CtClass
* object representing that class file. If that class file has been
* already read, this method returns a reference to the
* CtClass
created when that class file was read at the
* first time.
*
* If classname
ends with "[]", then this method
* returns a CtClass
object for that array type.
*
*
To obtain an inner class, use "$" instead of "." for separating
* the enclosing class name and the inner class name.
*
* @param classname a fully-qualified class name.
*/
public CtClass get(String classname) throws NotFoundException {
CtClass clazz;
if (classname == null)
clazz = null;
else
clazz = get0(classname, true);
if (clazz == null)
throw new NotFoundException(classname);
else {
clazz.incGetCounter();
return clazz;
}
}
/**
* Reads a class file from the source and returns a reference
* to the CtClass
* object representing that class file.
* This method is equivalent to get
except
* that it returns null
when a class file is
* not found and it never throws an exception.
*
* @param classname a fully-qualified class name.
* @return a CtClass
object or null
.
* @see #get(String)
* @see #find(String)
* @since 3.13
*/
public CtClass getOrNull(String classname) {
CtClass clazz = null;
if (classname == null)
clazz = null;
else
try {
/* ClassPool.get0() never throws an exception
but its subclass may implement get0 that
may throw an exception.
*/
clazz = get0(classname, true);
}
catch (NotFoundException e){}
if (clazz != null)
clazz.incGetCounter();
return clazz;
}
/**
* Returns a CtClass
object with the given name.
* This is almost equivalent to get(String)
except
* that classname can be an array-type "descriptor" (an encoded
* type name) such as [Ljava/lang/Object;
.
*
*
Using this method is not recommended; this method should be
* used only to obtain the CtClass
object
* with a name returned from getClassInfo
in
* javassist.bytecode.ClassPool
. getClassInfo
* returns a fully-qualified class name but, if the class is an array
* type, it returns a descriptor.
*
* @param classname a fully-qualified class name or a descriptor
* representing an array type.
* @see #get(String)
* @see scouter.javassist.bytecode.ConstPool#getClassInfo(int)
* @see scouter.javassist.bytecode.Descriptor#toCtClass(String, ClassPool)
* @since 3.8.1
*/
public CtClass getCtClass(String classname) throws NotFoundException {
if (classname.charAt(0) == '[')
return Descriptor.toCtClass(classname, this);
else
return get(classname);
}
/**
* @param useCache false if the cached CtClass must be ignored.
* @return null if the class could not be found.
*/
protected synchronized CtClass get0(String classname, boolean useCache)
throws NotFoundException
{
CtClass clazz = null;
if (useCache) {
clazz = getCached(classname);
if (clazz != null)
return clazz;
}
if (!childFirstLookup && parent != null) {
clazz = parent.get0(classname, useCache);
if (clazz != null)
return clazz;
}
clazz = createCtClass(classname, useCache);
if (clazz != null) {
// clazz.getName() != classname if classname is "[L;".
if (useCache)
cacheCtClass(clazz.getName(), clazz, false);
return clazz;
}
if (childFirstLookup && parent != null)
clazz = parent.get0(classname, useCache);
return clazz;
}
/**
* Creates a CtClass object representing the specified class.
* It first examines whether or not the corresponding class
* file exists. If yes, it creates a CtClass object.
*
* @return null if the class file could not be found.
*/
protected CtClass createCtClass(String classname, boolean useCache) {
// accept "[L;" as a class name.
if (classname.charAt(0) == '[')
classname = Descriptor.toClassName(classname);
if (classname.endsWith("[]")) {
String base = classname.substring(0, classname.indexOf('['));
if ((!useCache || getCached(base) == null) && find(base) == null)
return null;
else
return new CtArray(classname, this);
}
else
if (find(classname) == null)
return null;
else
return new CtClassType(classname, this);
}
/**
* Searches the class path to obtain the URL of the class file
* specified by classname. It is also used to determine whether
* the class file exists.
*
* @param classname a fully-qualified class name.
* @return null if the class file could not be found.
* @see CtClass#getURL()
*/
public URL find(String classname) {
return source.find(classname);
}
/*
* Is invoked by CtClassType.setName() and methods in this class.
* This method throws an exception if the class is already frozen or
* if this class pool cannot edit the class since it is in a parent
* class pool.
*
* @see checkNotExists(String)
*/
void checkNotFrozen(String classname) throws RuntimeException {
CtClass clazz = getCached(classname);
if (clazz == null) {
if (!childFirstLookup && parent != null) {
try {
clazz = parent.get0(classname, true);
}
catch (NotFoundException e) {}
if (clazz != null)
throw new RuntimeException(classname
+ " is in a parent ClassPool. Use the parent.");
}
}
else
if (clazz.isFrozen())
throw new RuntimeException(classname
+ ": frozen class (cannot edit)");
}
/*
* This method returns null if this or its parent class pool does
* not contain a CtClass object with the class name.
*
* @see checkNotFrozen(String)
*/
CtClass checkNotExists(String classname) {
CtClass clazz = getCached(classname);
if (clazz == null)
if (!childFirstLookup && parent != null) {
try {
clazz = parent.get0(classname, true);
}
catch (NotFoundException e) {}
}
return clazz;
}
/* for CtClassType.getClassFile2(). Don't delegate to the parent.
*/
InputStream openClassfile(String classname) throws NotFoundException {
return source.openClassfile(classname);
}
void writeClassfile(String classname, OutputStream out)
throws NotFoundException, IOException, CannotCompileException
{
source.writeClassfile(classname, out);
}
/**
* Reads class files from the source and returns an array of
* CtClass
* objects representing those class files.
*
* If an element of classnames
ends with "[]",
* then this method
* returns a CtClass
object for that array type.
*
* @param classnames an array of fully-qualified class name.
*/
public CtClass[] get(String[] classnames) throws NotFoundException {
if (classnames == null)
return new CtClass[0];
int num = classnames.length;
CtClass[] result = new CtClass[num];
for (int i = 0; i < num; ++i)
result[i] = get(classnames[i]);
return result;
}
/**
* Reads a class file and obtains a compile-time method.
*
* @param classname the class name
* @param methodname the method name
* @see CtClass#getDeclaredMethod(String)
*/
public CtMethod getMethod(String classname, String methodname)
throws NotFoundException
{
CtClass c = get(classname);
return c.getDeclaredMethod(methodname);
}
/**
* Creates a new class (or interface) from the given class file.
* If there already exists a class with the same name, the new class
* overwrites that previous class.
*
*
This method is used for creating a CtClass
object
* directly from a class file. The qualified class name is obtained
* from the class file; you do not have to explicitly give the name.
*
* @param classfile class file.
* @throws RuntimeException if there is a frozen class with the
* the same name.
* @see #makeClassIfNew(InputStream)
* @see scouter.javassist.ByteArrayClassPath
*/
public CtClass makeClass(InputStream classfile)
throws IOException, RuntimeException
{
return makeClass(classfile, true);
}
/**
* Creates a new class (or interface) from the given class file.
* If there already exists a class with the same name, the new class
* overwrites that previous class.
*
*
This method is used for creating a CtClass
object
* directly from a class file. The qualified class name is obtained
* from the class file; you do not have to explicitly give the name.
*
* @param classfile class file.
* @param ifNotFrozen throws a RuntimeException if this parameter is true
* and there is a frozen class with the same name.
* @see scouter.javassist.ByteArrayClassPath
*/
public CtClass makeClass(InputStream classfile, boolean ifNotFrozen)
throws IOException, RuntimeException
{
compress();
classfile = new BufferedInputStream(classfile);
CtClass clazz = new CtClassType(classfile, this);
clazz.checkModify();
String classname = clazz.getName();
if (ifNotFrozen)
checkNotFrozen(classname);
cacheCtClass(classname, clazz, true);
return clazz;
}
/**
* Creates a new class (or interface) from the given class file.
* If there already exists a class with the same name, the new class
* overwrites that previous class.
*
*
This method is used for creating a CtClass
object
* directly from a class file. The qualified class name is obtained
* from the class file; you do not have to explicitly give the name.
*
* @param classfile class file.
* @throws RuntimeException if there is a frozen class with the
* the same name.
* @since 3.20
*/
public CtClass makeClass(ClassFile classfile)
throws RuntimeException
{
return makeClass(classfile, true);
}
/**
* Creates a new class (or interface) from the given class file.
* If there already exists a class with the same name, the new class
* overwrites that previous class.
*
*
This method is used for creating a CtClass
object
* directly from a class file. The qualified class name is obtained
* from the class file; you do not have to explicitly give the name.
*
* @param classfile class file.
* @param ifNotFrozen throws a RuntimeException if this parameter is true
* and there is a frozen class with the same name.
* @since 3.20
*/
public CtClass makeClass(ClassFile classfile, boolean ifNotFrozen)
throws RuntimeException
{
compress();
CtClass clazz = new CtClassType(classfile, this);
clazz.checkModify();
String classname = clazz.getName();
if (ifNotFrozen)
checkNotFrozen(classname);
cacheCtClass(classname, clazz, true);
return clazz;
}
/**
* Creates a new class (or interface) from the given class file.
* If there already exists a class with the same name, this method
* returns the existing class; a new class is never created from
* the given class file.
*
*
This method is used for creating a CtClass
object
* directly from a class file. The qualified class name is obtained
* from the class file; you do not have to explicitly give the name.
*
* @param classfile the class file.
* @see #makeClass(InputStream)
* @see scouter.javassist.ByteArrayClassPath
* @since 3.9
*/
public CtClass makeClassIfNew(InputStream classfile)
throws IOException, RuntimeException
{
compress();
classfile = new BufferedInputStream(classfile);
CtClass clazz = new CtClassType(classfile, this);
clazz.checkModify();
String classname = clazz.getName();
CtClass found = checkNotExists(classname);
if (found != null)
return found;
else {
cacheCtClass(classname, clazz, true);
return clazz;
}
}
/**
* Creates a new public class.
* If there already exists a class with the same name, the new class
* overwrites that previous class.
*
*
If no constructor is explicitly added to the created new
* class, Javassist generates constructors and adds it when
* the class file is generated. It generates a new constructor
* for each constructor of the super class. The new constructor
* takes the same set of parameters and invokes the
* corresponding constructor of the super class. All the received
* parameters are passed to it.
*
* @param classname a fully-qualified class name.
* @throws RuntimeException if the existing class is frozen.
*/
public CtClass makeClass(String classname) throws RuntimeException {
return makeClass(classname, null);
}
/**
* Creates a new public class.
* If there already exists a class/interface with the same name,
* the new class overwrites that previous class.
*
*
If no constructor is explicitly added to the created new
* class, Javassist generates constructors and adds it when
* the class file is generated. It generates a new constructor
* for each constructor of the super class. The new constructor
* takes the same set of parameters and invokes the
* corresponding constructor of the super class. All the received
* parameters are passed to it.
*
* @param classname a fully-qualified class name.
* @param superclass the super class.
* @throws RuntimeException if the existing class is frozen.
*/
public synchronized CtClass makeClass(String classname, CtClass superclass)
throws RuntimeException
{
checkNotFrozen(classname);
CtClass clazz = new CtNewClass(classname, this, false, superclass);
cacheCtClass(classname, clazz, true);
return clazz;
}
/**
* Creates a new public nested class.
* This method is called by {@link CtClassType#makeNestedClass()}.
*
* @param classname a fully-qualified class name.
* @return the nested class.
*/
synchronized CtClass makeNestedClass(String classname) {
checkNotFrozen(classname);
CtClass clazz = new CtNewNestedClass(classname, this, false, null);
cacheCtClass(classname, clazz, true);
return clazz;
}
/**
* Creates a new public interface.
* If there already exists a class/interface with the same name,
* the new interface overwrites that previous one.
*
* @param name a fully-qualified interface name.
* @throws RuntimeException if the existing interface is frozen.
*/
public CtClass makeInterface(String name) throws RuntimeException {
return makeInterface(name, null);
}
/**
* Creates a new public interface.
* If there already exists a class/interface with the same name,
* the new interface overwrites that previous one.
*
* @param name a fully-qualified interface name.
* @param superclass the super interface.
* @throws RuntimeException if the existing interface is frozen.
*/
public synchronized CtClass makeInterface(String name, CtClass superclass)
throws RuntimeException
{
checkNotFrozen(name);
CtClass clazz = new CtNewClass(name, this, true, superclass);
cacheCtClass(name, clazz, true);
return clazz;
}
/**
* Creates a new annotation.
* If there already exists a class/interface with the same name,
* the new interface overwrites that previous one.
*
* @param name a fully-qualified interface name.
* Or null if the annotation has no super interface.
* @throws RuntimeException if the existing interface is frozen.
* @since 3.19
*/
public CtClass makeAnnotation(String name) throws RuntimeException {
try {
CtClass cc = makeInterface(name, get("java.lang.annotation.Annotation"));
cc.setModifiers(cc.getModifiers() | Modifier.ANNOTATION);
return cc;
}
catch (NotFoundException e) {
// should never happen.
throw new RuntimeException(e.getMessage(), e);
}
}
/**
* Appends the system search path to the end of the
* search path. The system search path
* usually includes the platform library, extension
* libraries, and the search path specified by the
* -classpath
option or the CLASSPATH
* environment variable.
*
* @return the appended class path.
*/
public ClassPath appendSystemPath() {
return source.appendSystemPath();
}
/**
* Insert a ClassPath
object at the head of the
* search path.
*
* @return the inserted class path.
* @see scouter.javassist.ClassPath
* @see scouter.javassist.URLClassPath
* @see scouter.javassist.ByteArrayClassPath
*/
public ClassPath insertClassPath(ClassPath cp) {
return source.insertClassPath(cp);
}
/**
* Appends a ClassPath
object to the end of the
* search path.
*
* @return the appended class path.
* @see scouter.javassist.ClassPath
* @see scouter.javassist.URLClassPath
* @see scouter.javassist.ByteArrayClassPath
*/
public ClassPath appendClassPath(ClassPath cp) {
return source.appendClassPath(cp);
}
/**
* Inserts a directory or a jar (or zip) file at the head of the
* search path.
*
* @param pathname the path name of the directory or jar file.
* It must not end with a path separator ("/").
* If the path name ends with "/*", then all the
* jar files matching the path name are inserted.
*
* @return the inserted class path.
* @throws NotFoundException if the jar file is not found.
*/
public ClassPath insertClassPath(String pathname)
throws NotFoundException
{
return source.insertClassPath(pathname);
}
/**
* Appends a directory or a jar (or zip) file to the end of the
* search path.
*
* @param pathname the path name of the directory or jar file.
* It must not end with a path separator ("/").
* If the path name ends with "/*", then all the
* jar files matching the path name are appended.
*
* @return the appended class path.
* @throws NotFoundException if the jar file is not found.
*/
public ClassPath appendClassPath(String pathname)
throws NotFoundException
{
return source.appendClassPath(pathname);
}
/**
* Detatches the ClassPath
object from the search path.
* The detached ClassPath
object cannot be added
* to the path again.
*/
public void removeClassPath(ClassPath cp) {
source.removeClassPath(cp);
}
/**
* Appends directories and jar files for search.
*
*
The elements of the given path list must be separated by colons
* in Unix or semi-colons in Windows.
*
* @param pathlist a (semi)colon-separated list of
* the path names of directories and jar files.
* The directory name must not end with a path
* separator ("/").
* @throws NotFoundException if a jar file is not found.
*/
public void appendPathList(String pathlist) throws NotFoundException {
char sep = File.pathSeparatorChar;
int i = 0;
for (;;) {
int j = pathlist.indexOf(sep, i);
if (j < 0) {
appendClassPath(pathlist.substring(i));
break;
}
else {
appendClassPath(pathlist.substring(i, j));
i = j + 1;
}
}
}
/**
* Converts the given class to a java.lang.Class
object.
* Once this method is called, further modifications are not
* allowed any more.
* To load the class, this method uses the context class loader
* of the current thread. It is obtained by calling
* getClassLoader()
.
*
*
This behavior can be changed by subclassing the pool and changing
* the getClassLoader()
method.
* If the program is running on some application
* server, the context class loader might be inappropriate to load the
* class.
*
*
This method is provided for convenience. If you need more
* complex functionality, you should write your own class loader.
*
*
Warining: A Class object returned by this method may not
* work with a security manager or a signed jar file because a
* protection domain is not specified.
*
* @see #toClass(CtClass, java.lang.ClassLoader, ProtectionDomain)
* @see #getClassLoader()
*/
public Class toClass(CtClass clazz) throws CannotCompileException {
// Some subclasses of ClassPool may override toClass(CtClass,ClassLoader).
// So we should call that method instead of toClass(.., ProtectionDomain).
return toClass(clazz, getClassLoader());
}
/**
* Get the classloader for toClass()
, getAnnotations()
in
* CtClass
, etc.
*
*
The default is the context class loader.
*
* @return the classloader for the pool
* @see #toClass(CtClass)
* @see CtClass#getAnnotations()
*/
public ClassLoader getClassLoader() {
return getContextClassLoader();
}
/**
* Obtains a class loader that seems appropriate to look up a class
* by name.
*/
static ClassLoader getContextClassLoader() {
return Thread.currentThread().getContextClassLoader();
}
/**
* Converts the class to a java.lang.Class
object.
* Do not override this method any more at a subclass because
* toClass(CtClass)
never calls this method.
*
*
Warining: A Class object returned by this method may not
* work with a security manager or a signed jar file because a
* protection domain is not specified.
*
* @deprecated Replaced by {@link #toClass(CtClass,ClassLoader,ProtectionDomain)}.
* A subclass of ClassPool
that has been
* overriding this method should be modified. It should override
* {@link #toClass(CtClass,ClassLoader,ProtectionDomain)}.
*/
public Class toClass(CtClass ct, ClassLoader loader)
throws CannotCompileException
{
return toClass(ct, loader, null);
}
/**
* Converts the class to a java.lang.Class
object.
* Once this method is called, further modifications are not allowed
* any more.
*
*
The class file represented by the given CtClass
is
* loaded by the given class loader to construct a
* java.lang.Class
object. Since a private method
* on the class loader is invoked through the reflection API,
* the caller must have permissions to do that.
*
*
An easy way to obtain ProtectionDomain
object is
* to call getProtectionDomain()
* in java.lang.Class
. It returns the domain that the
* class belongs to.
*
*
This method is provided for convenience. If you need more
* complex functionality, you should write your own class loader.
*
* @param loader the class loader used to load this class.
* For example, the loader returned by
* getClassLoader()
can be used
* for this parameter.
* @param domain the protection domain for the class.
* If it is null, the default domain created
* by java.lang.ClassLoader
is used.
*
* @see #getClassLoader()
* @since 3.3
*/
public Class toClass(CtClass ct, ClassLoader loader, ProtectionDomain domain)
throws CannotCompileException
{
try {
byte[] b = ct.toBytecode();
java.lang.reflect.Method method;
Object[] args;
if (domain == null) {
method = defineClass1;
args = new Object[] { ct.getName(), b, new Integer(0),
new Integer(b.length)};
}
else {
method = defineClass2;
args = new Object[] { ct.getName(), b, new Integer(0),
new Integer(b.length), domain};
}
return (Class)toClass2(method, loader, args);
}
catch (RuntimeException e) {
throw e;
}
catch (java.lang.reflect.InvocationTargetException e) {
throw new CannotCompileException(e.getTargetException());
}
catch (Exception e) {
throw new CannotCompileException(e);
}
}
private static synchronized Object toClass2(Method method,
ClassLoader loader, Object[] args)
throws Exception
{
method.setAccessible(true);
try {
return method.invoke(loader, args);
}
finally {
method.setAccessible(false);
}
}
/**
* Defines a new package. If the package is already defined, this method
* performs nothing.
*
*
You do not necessarily need to
* call this method. If this method is called, then
* getPackage()
on the Class
object returned
* by toClass()
will return a non-null object.
*
* @param loader the class loader passed to toClass()
or
* the default one obtained by getClassLoader()
.
* @param name the package name.
* @see #getClassLoader()
* @see #toClass(CtClass)
* @see CtClass#toClass()
* @since 3.16
*/
public void makePackage(ClassLoader loader, String name)
throws CannotCompileException
{
Object[] args = new Object[] {
name, null, null, null, null, null, null, null };
Throwable t;
try {
toClass2(definePackage, loader, args);
return;
}
catch (java.lang.reflect.InvocationTargetException e) {
t = e.getTargetException();
if (t == null)
t = e;
else if (t instanceof IllegalArgumentException) {
// if the package is already defined, an IllegalArgumentException
// is thrown.
return;
}
}
catch (Exception e) {
t = e;
}
throw new CannotCompileException(t);
}
}