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RoboVM fork of Soot - A Java optimization framework
/* Soot - a J*va Optimization Framework
* Copyright (C) 1997-1999 Raja Vallee-Rai
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
/*
* Modified by the Sable Research Group and others 1997-1999.
* See the 'credits' file distributed with Soot for the complete list of
* contributors. (Soot is distributed at http://www.sable.mcgill.ca/soot)
*/
package soot;
import soot.tagkit.*;
import soot.util.*;
import java.util.*;
import soot.options.*;
/*
* Incomplete and inefficient implementation.
*
* Implementation notes:
*
* 1. The getFieldOf() method is slow because it traverses the list of fields, comparing the names,
* one by one. If you establish a Dictionary of Name->Field, you will need to add a
* notifyOfNameChange() method, and register fields which belong to classes, because the hashtable
* will need to be updated. I will do this later. - kor 16-Sep-97
*
* 2. Note 1 is kept for historical (i.e. amusement) reasons. In fact, there is no longer a list of fields;
* these are kept in a Chain now. But that's ok; there is no longer a getFieldOf() method,
* either. There still is no efficient way to get a field by name, although one could establish
* a Chain of EquivalentValue-like objects and do an O(1) search on that. - plam 2-24-00
*/
/**
Soot representation of a Java class. They are usually created by a Scene,
but can also be constructed manually through the given constructors.
*/
public class SootClass extends AbstractHost implements Numberable
{
protected String name, shortName, fixedShortName, packageName, fixedPackageName;
protected int modifiers;
protected Chain fields = new HashChain();
protected SmallNumberedMap subSigToMethods = new SmallNumberedMap( Scene.v().getSubSigNumberer() );
// methodList is just for keeping the methods in a consistent order. It
// needs to be kept consistent with subSigToMethods.
protected List methodList = new ArrayList();
protected Chain interfaces = new HashChain();
protected boolean isInScene;
protected SootClass superClass;
protected SootClass outerClass;
protected boolean isPhantom;
public final static String INVOKEDYNAMIC_DUMMY_CLASS_NAME = "soot.dummy.InvokeDynamic";
/**
Constructs an empty SootClass with the given name and modifiers.
*/
public SootClass(String name, int modifiers)
{
if( name.charAt(0) == '[' ) throw new RuntimeException( "Attempt to make a class whose name starts with [" );
setName( name);
this.modifiers = modifiers;
refType = RefType.v(name);
refType.setSootClass(this);
if(Options.v().debug_resolver()) G.v().out.println("created "+name+" with modifiers "+modifiers);
setResolvingLevel(BODIES);
Scene.v().getClassNumberer().add(this);
}
/**
Constructs an empty SootClass with the given name and no modifiers.
*/
public SootClass(String name)
{
this( name, 0);
}
public final static int DANGLING = 0;
public final static int HIERARCHY = 1;
public final static int SIGNATURES = 2;
public final static int BODIES = 3;
private int resolvingLevel = DANGLING;
private String levelToString( int level ) {
switch(level) {
case DANGLING: return "DANGLING";
case HIERARCHY: return "HIERARCHY";
case SIGNATURES: return "SIGNATURES";
case BODIES: return "BODIES";
default: throw new RuntimeException("unknown resolving level");
}
}
public void checkLevel( int level ) {
if( !Scene.v().doneResolving() ) return;
if( resolvingLevel < level ) {
String hint = "\nIf you are extending Soot, try to add the following call before calling soot.Main.main(..):\n" +
"Scene.v().addBasicClass("+getName()+","+levelToString(level)+");\n" +
"Otherwise, try whole-program mode (-w).";
throw new RuntimeException(
"This operation requires resolving level "+
levelToString(level)+" but "+name+
" is at resolving level "+levelToString(resolvingLevel) + hint);
}
}
public int resolvingLevel() { return resolvingLevel; }
public void setResolvingLevel( int newLevel ) {
resolvingLevel = newLevel;
}
public boolean isInScene()
{
return isInScene;
}
/** Tells this class if it is being managed by a Scene. */
public void setInScene(boolean isInScene)
{
this.isInScene = isInScene;
}
/**
Returns the number of fields in this class.
*/
public int getFieldCount()
{
checkLevel(SIGNATURES);
return fields.size();
}
/**
* Returns a backed Chain of fields.
*/
public Chain getFields()
{
checkLevel(SIGNATURES);
return fields;
}
/*
public void setFields(Field[] fields)
{
this.fields = new ArraySet(fields);
}
*/
/**
Adds the given field to this class.
*/
public void addField(SootField f)
{
checkLevel(SIGNATURES);
if(f.isDeclared())
throw new RuntimeException("already declared: "+f.getName());
if(declaresField(f.getName()))
throw new RuntimeException("Field already exists : "+f.getName());
fields.add(f);
f.isDeclared = true;
f.declaringClass = this;
}
/**
Removes the given field from this class.
*/
public void removeField(SootField f)
{
checkLevel(SIGNATURES);
if(!f.isDeclared() || f.getDeclaringClass() != this)
throw new RuntimeException("did not declare: "+f.getName());
fields.remove(f);
f.isDeclared = false;
}
/**
Returns the field of this class with the given name and type.
*/
public SootField getField( String name, Type type ) {
checkLevel(SIGNATURES);
for( Iterator fieldIt = this.getFields().iterator(); fieldIt.hasNext(); ) {
final SootField field = fieldIt.next();
if(field.name.equals(name) && field.type.equals(type))
return field;
}
throw new RuntimeException("No field " + name + " in class " + getName());
}
/**
Returns the field of this class with the given name. Throws a RuntimeException if there
are more than one.
*/
public SootField getFieldByName(String name)
{
checkLevel(SIGNATURES);
boolean found = false;
SootField foundField = null;
Iterator fieldIt = getFields().iterator();
while(fieldIt.hasNext())
{
SootField field = fieldIt.next();
if(field.name.equals(name))
{
if(found)
throw new RuntimeException("ambiguous field: "+name);
else {
found = true;
foundField = field;
}
}
}
if(found)
return foundField;
else
throw new RuntimeException("No field " + name + " in class " + getName());
}
/*
Returns the field of this class with the given subsignature.
*/
public SootField getField(String subsignature)
{
checkLevel(SIGNATURES);
for( Iterator fieldIt = this.getFields().iterator(); fieldIt.hasNext(); ) {
final SootField field = fieldIt.next();
if( field.getSubSignature().equals( subsignature ) ) return field;
}
throw new RuntimeException("No field " + subsignature + " in class " + getName());
}
/**
Does this class declare a field with the given subsignature?
*/
public boolean declaresField(String subsignature)
{
checkLevel(SIGNATURES);
for( Iterator fieldIt = this.getFields().iterator(); fieldIt.hasNext(); ) {
final SootField field = fieldIt.next();
if( field.getSubSignature().equals( subsignature ) ) return true;
}
return false;
}
/*
Returns the method of this class with the given subsignature.
*/
public SootMethod getMethod(NumberedString subsignature)
{
checkLevel(SIGNATURES);
SootMethod ret = (SootMethod) subSigToMethods.get( subsignature );
if(ret == null)
throw new RuntimeException("No method " + subsignature + " in class " + getName());
else
return ret;
}
/**
Does this class declare a method with the given subsignature?
*/
public boolean declaresMethod(NumberedString subsignature)
{
checkLevel(SIGNATURES);
SootMethod ret = (SootMethod) subSigToMethods.get( subsignature );
return ret != null;
}
/*
Returns the method of this class with the given subsignature.
*/
public SootMethod getMethod(String subsignature)
{
checkLevel(SIGNATURES);
return getMethod( Scene.v().getSubSigNumberer().findOrAdd( subsignature ) );
}
/**
Does this class declare a method with the given subsignature?
*/
public boolean declaresMethod(String subsignature)
{
checkLevel(SIGNATURES);
return declaresMethod( Scene.v().getSubSigNumberer().findOrAdd( subsignature ) );
}
/**
Does this class declare a field with the given name?
*/
public boolean declaresFieldByName(String name)
{
checkLevel(SIGNATURES);
Iterator fieldIt = getFields().iterator();
while(fieldIt.hasNext())
{
SootField field = fieldIt.next();
if(field.name.equals(name))
return true;
}
return false;
}
/**
Does this class declare a field with the given name and type.
*/
public boolean declaresField(String name, Type type)
{
checkLevel(SIGNATURES);
Iterator fieldIt = getFields().iterator();
while(fieldIt.hasNext())
{
SootField field = fieldIt.next();
if(field.name.equals(name) &&
field.type.equals(type))
return true;
}
return false;
}
/**
Returns the number of methods in this class.
*/
public int getMethodCount()
{
checkLevel(SIGNATURES);
return subSigToMethods.nonNullSize();
}
/**
* Returns an iterator over the methods in this class.
*/
public Iterator methodIterator()
{
checkLevel(SIGNATURES);
return methodList.iterator();
}
public List getMethods() {
checkLevel(SIGNATURES);
ArrayList ret = new ArrayList();
for( Iterator it = methodIterator(); it.hasNext(); )
ret.add( it.next() );
return ret;
}
public SootMethod getMethod( String name, List parameterTypes,
Type returnType )
{
checkLevel(SIGNATURES);
for( Iterator methodIt = methodIterator(); methodIt.hasNext(); ) {
final SootMethod method = methodIt.next();
if(method.getName().equals(name) &&
parameterTypes.equals(method.getParameterTypes()) &&
returnType.equals(method.getReturnType()))
{
return method;
}
}
throw new RuntimeException(
"Class "+getName()+" doesn't have method "+
name + "(" + parameterTypes + ")" + " : " + returnType );
}
/**
Attempts to retrieve the method with the given name, parameters and return type.
*/
/**
Attempts to retrieve the method with the given name and parameters. This method
may throw an AmbiguousMethodException if there is more than one method with the
given name and parameter.
*/
public SootMethod getMethod(String name, List parameterTypes)
{
checkLevel(SIGNATURES);
boolean found = false;
SootMethod foundMethod = null;
Iterator methodIt = methodIterator();
while(methodIt.hasNext())
{
SootMethod method = methodIt.next();
if(method.getName().equals(name) &&
parameterTypes.equals(method.getParameterTypes()))
{
if(found)
throw new RuntimeException("ambiguous method");
else {
found = true;
foundMethod = method;
}
}
}
if(found)
return foundMethod;
else
throw new RuntimeException("couldn't find method "+name+"("+parameterTypes+") in "+this);
}
/**
Attempts to retrieve the method with the given name. This method
may throw an AmbiguousMethodException if there are more than one method with the
given name.
*/
public SootMethod getMethodByName(String name)
{
checkLevel(SIGNATURES);
boolean found = false;
SootMethod foundMethod = null;
Iterator methodIt = methodIterator();
while(methodIt.hasNext())
{
SootMethod method = methodIt.next();
if(method.getName().equals(name))
{
if(found)
throw new RuntimeException("ambiguous method");
else {
found = true;
foundMethod = method;
}
}
}
if(found)
return foundMethod;
else
throw new RuntimeException("couldn't find method "+name+"(*) in "+this);
}
/**
Does this class declare a method with the given name and parameter types?
*/
public boolean declaresMethod(String name, List parameterTypes)
{
checkLevel(SIGNATURES);
Iterator methodIt = methodIterator();
while(methodIt.hasNext())
{
SootMethod method = methodIt.next();
if(method.getName().equals(name) &&
method.getParameterTypes().equals(parameterTypes))
return true;
}
return false;
}
/**
Does this class declare a method with the given name, parameter types, and return type?
*/
public boolean declaresMethod(String name, List parameterTypes, Type returnType)
{
checkLevel(SIGNATURES);
Iterator methodIt = methodIterator();
while(methodIt.hasNext())
{
SootMethod method = methodIt.next();
if(method.getName().equals(name) &&
method.getParameterTypes().equals(parameterTypes) &&
method.getReturnType().equals(returnType))
return true;
}
return false;
}
/**
Does this class declare a method with the given name?
*/
public boolean declaresMethodByName(String name)
{
checkLevel(SIGNATURES);
Iterator methodIt = methodIterator();
while(methodIt.hasNext())
{
SootMethod method = (SootMethod) methodIt.next();
if(method.getName().equals(name))
return true;
}
return false;
}
/*
public void setMethods(Method[] method)
{
methods = new ArraySet(method);
}
*/
/**
Adds the given method to this class.
*/
public void addMethod(SootMethod m)
{
checkLevel(SIGNATURES);
if(m.isDeclared())
throw new RuntimeException("already declared: "+m.getName());
/*
if(declaresMethod(m.getName(), m.getParameterTypes()))
throw new RuntimeException("duplicate signature for: " + m.getName());
*/
if(subSigToMethods.get(m.getNumberedSubSignature()) != null ) {
throw new RuntimeException(
"Attempting to add method "+m.getSubSignature()+" to class "+this+", but the class already has a method with that signature.");
}
subSigToMethods.put(m.getNumberedSubSignature(),m);
methodList.add(m);
m.isDeclared = true;
m.declaringClass = this;
}
/**
Removes the given method from this class.
*/
public void removeMethod(SootMethod m)
{
checkLevel(SIGNATURES);
if(!m.isDeclared() || m.getDeclaringClass() != this)
throw new RuntimeException("incorrect declarer for remove: "+m.getName());
if(subSigToMethods.get(m.getNumberedSubSignature()) == null) {
throw new RuntimeException(
"Attempt to remove method "+m.getSubSignature()+" which is not in class "+this);
}
subSigToMethods.put(m.getNumberedSubSignature(),null);
methodList.remove(m);
m.isDeclared = false;
}
/**
Returns the modifiers of this class.
*/
public int getModifiers()
{
return modifiers;
}
/**
Sets the modifiers for this class.
*/
public void setModifiers(int modifiers)
{
this.modifiers = modifiers;
}
/**
Returns the number of interfaces being directly implemented by this class. Note that direct
implementation corresponds to an "implements" keyword in the Java class file and that this class may
still be implementing additional interfaces in the usual sense by being a subclass of a class
which directly implements some interfaces.
*/
public int getInterfaceCount()
{
checkLevel(HIERARCHY);
return interfaces.size();
}
/**
* Returns a backed Chain of the interfaces that are directly implemented by this class. (see getInterfaceCount())
*/
public Chain getInterfaces()
{
checkLevel(HIERARCHY);
return interfaces;
}
/**
Does this class directly implement the given interface? (see getInterfaceCount())
*/
public boolean implementsInterface(String name)
{
checkLevel(HIERARCHY);
Iterator interfaceIt = getInterfaces().iterator();
while(interfaceIt.hasNext())
{
SootClass SootClass = interfaceIt.next();
if(SootClass.getName().equals(name))
return true;
}
return false;
}
/**
Add the given class to the list of interfaces which are directly implemented by this class.
*/
public void addInterface(SootClass interfaceClass)
{
checkLevel(HIERARCHY);
if(implementsInterface(interfaceClass.getName()))
throw new RuntimeException("duplicate interface: "+interfaceClass.getName());
interfaces.add(interfaceClass);
}
/**
Removes the given class from the list of interfaces which are direclty implemented by this class.
*/
public void removeInterface(SootClass interfaceClass)
{
checkLevel(HIERARCHY);
if(!implementsInterface(interfaceClass.getName()))
throw new RuntimeException("no such interface: "+interfaceClass.getName());
interfaces.remove(interfaceClass);
}
/**
WARNING: interfaces are subclasses of the java.lang.Object class!
Does this class have a superclass? False implies that this is
the java.lang.Object class. Note that interfaces are
subclasses of the java.lang.Object class. */
public boolean hasSuperclass()
{
checkLevel(HIERARCHY);
return superClass != null;
}
/**
WARNING: interfaces are subclasses of the java.lang.Object class!
Returns the superclass of this class. (see hasSuperclass())
*/
public SootClass getSuperclass()
{
checkLevel(HIERARCHY);
if(superClass == null && !isPhantom())
throw new RuntimeException("no superclass for "+getName());
else
return superClass;
}
/**
Sets the superclass of this class. Note that passing a null will cause the class to have no superclass.
*/
public void setSuperclass(SootClass c)
{
checkLevel(HIERARCHY);
superClass = c;
}
public boolean hasOuterClass(){
checkLevel(HIERARCHY);
return outerClass != null;
}
public SootClass getOuterClass(){
checkLevel(HIERARCHY);
if (outerClass == null)
throw new RuntimeException("no outer class");
else
return outerClass;
}
public void setOuterClass(SootClass c){
checkLevel(HIERARCHY);
outerClass = c;
}
/**
Returns the name of this class.
*/
public String getName()
{
return name;
}
public String getJavaStyleName()
{
return shortName;
}
public String getShortJavaStyleName()
{
return shortName;
}
public String getShortName() {
return shortName;
}
/**
Returns the package name of this class.
*/
public String getPackageName()
{
return packageName;
}
public String getJavaPackageName()
{
return packageName;
}
/**
Sets the name of this class.
*/
public void setName(String name)
{
this.name = name;
shortName = name;
packageName = "";
int index = name.lastIndexOf( '.');
if (index > 0) {
shortName = name.substring( index + 1);
packageName = name.substring( 0, index);
}
fixedShortName = null;
fixedPackageName = null;
}
/** Convenience method; returns true if this class is an interface. */
public boolean isInterface()
{
checkLevel(HIERARCHY);
return Modifier.isInterface(this.getModifiers());
}
/** Returns true if this class is not an interface and not abstract. */
public boolean isConcrete() {
return !isInterface() && !isAbstract();
}
/** Convenience method; returns true if this class is public. */
public boolean isPublic()
{
return Modifier.isPublic(this.getModifiers());
}
private RefType refType;
// made public for obfuscator..
public void setRefType( RefType refType ) { this.refType = refType; }
public boolean hasRefType() { return refType != null; }
/** Returns the RefType corresponding to this class. */
public RefType getType()
{
return refType;
}
/** Returns the name of this class. */
public String toString()
{
return getName();
}
/* Renames private fields and methods with numeric names. */
public void renameFieldsAndMethods(boolean privateOnly)
{
checkLevel(SIGNATURES);
// Rename fields. Ignore collisions for now.
{
Iterator fieldIt = this.getFields().iterator();
int fieldCount = 0;
if(fieldIt.hasNext())
{
while(fieldIt.hasNext())
{
SootField f = fieldIt.next();
if (!privateOnly || Modifier.isPrivate(f.getModifiers()))
{
String newFieldName = "__field"+(fieldCount++);
f.setName(newFieldName);
}
}
}
}
// Rename methods. Again, ignore collisions for now.
{
Iterator methodIt = methodIterator();
int methodCount = 0;
if(methodIt.hasNext())
{
while(methodIt.hasNext())
{
SootMethod m = methodIt.next();
if (!privateOnly || Modifier.isPrivate(m.getModifiers()))
{
String newMethodName = "__method"+(methodCount++);
m.setName(newMethodName);
}
}
}
}
}
/** Convenience method returning true if this class is an application class.
*
* @see Scene#getApplicationClasses() */
public boolean isApplicationClass()
{
return Scene.v().getApplicationClasses().contains(this);
}
/** Makes this class an application class. */
public void setApplicationClass()
{
Chain c = Scene.v().getContainingChain(this);
if (c != null)
c.remove(this);
Scene.v().getApplicationClasses().add(this);
isPhantom = false;
}
/** Convenience method returning true if this class is a library class.
*
* @see Scene#getLibraryClasses() */
public boolean isLibraryClass()
{
return Scene.v().getLibraryClasses().contains(this);
}
/** Makes this class a library class. */
public void setLibraryClass()
{
Chain c = Scene.v().getContainingChain(this);
if (c != null)
c.remove(this);
Scene.v().getLibraryClasses().add(this);
isPhantom = false;
}
/**
* Sometimes we need to know which class is a JDK class.
* There is no simple way to distinguish a user class and a JDK class, here we use the package prefix as the heuristic.
* @author xiao
*/
public boolean isJavaLibraryClass()
{
if ( name.startsWith("java.") ||
name.startsWith("sun.") ||
name.startsWith("javax.") ||
name.startsWith("com.sun.") ||
name.startsWith("org.omg.") ||
name.startsWith("org.xml.")
)
return true;
return false;
}
/** Convenience method returning true if this class is a phantom class.
*
* @see Scene#getPhantomClasses() */
public boolean isPhantomClass()
{
return Scene.v().getPhantomClasses().contains(this);
}
/** Makes this class a phantom class. */
public void setPhantomClass()
{
Chain c = Scene.v().getContainingChain(this);
if (c != null)
c.remove(this);
Scene.v().getPhantomClasses().add(this);
isPhantom = true;
}
/** Convenience method returning true if this class is phantom. */
public boolean isPhantom()
{
return isPhantom;
}
/** Marks this class as phantom, without notifying the Scene. */
public void setPhantom(boolean value)
{
if (value == false)
if (isPhantom)
throw new RuntimeException("don't know how to de-phantomize this class");
else
return;
setPhantomClass();
}
/**
* Convenience method returning true if this class is private.
*/
public boolean isPrivate()
{
return Modifier.isPrivate(this.getModifiers());
}
/**
* Convenience method returning true if this class is protected.
*/
public boolean isProtected()
{
return Modifier.isProtected(this.getModifiers());
}
/**
* Convenience method returning true if this class is abstract.
*/
public boolean isAbstract()
{
return Modifier.isAbstract(this.getModifiers());
}
public final int getNumber() { return number; }
public final void setNumber( int number ) { this.number = number; }
private int number = 0;
}