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/* 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.jimple.*;
import soot.util.*;
import java.util.*;
/** Represents the class hierarchy. It is closely linked to a Scene,
* and must be recreated if the Scene changes.
*
* The general convention is that if a method name contains
* "Including", then it returns the non-strict result; otherwise,
* it does a strict query (e.g. strict superclass). */
public class Hierarchy
{
// These two maps are not filled in the constructor.
HashMap> classToSubclasses;
HashMap> interfaceToSubinterfaces;
HashMap classToDirSubclasses;
HashMap interfaceToDirSubinterfaces;
// This holds the direct implementers.
HashMap interfaceToDirImplementers;
int state;
Scene sc;
/** Constructs a hierarchy from the current scene. */
public Hierarchy()
{
this.sc = Scene.v();
state = sc.getState();
// Well, this used to be describable by 'Duh'.
// Construct the subclasses hierarchy and the subinterfaces hierarchy.
{
Chain allClasses = sc.getClasses();
classToSubclasses = new HashMap>(allClasses.size() * 2 + 1, 0.7f);
interfaceToSubinterfaces = new HashMap>(allClasses.size() * 2 + 1, 0.7f);
classToDirSubclasses = new HashMap
(allClasses.size() * 2 + 1, 0.7f);
interfaceToDirSubinterfaces = new HashMap
(allClasses.size() * 2 + 1, 0.7f);
interfaceToDirImplementers = new HashMap
(allClasses.size() * 2 + 1, 0.7f);
Iterator classesIt = allClasses.iterator();
while (classesIt.hasNext())
{
SootClass c = (SootClass)classesIt.next();
if( c.resolvingLevel() < SootClass.HIERARCHY ) continue;
if (c.isInterface())
{
interfaceToDirSubinterfaces.put(c, new ArrayList());
interfaceToDirImplementers.put(c, new ArrayList());
}
else
classToDirSubclasses.put(c, new ArrayList());
}
classesIt = allClasses.iterator();
while (classesIt.hasNext())
{
SootClass c = (SootClass)classesIt.next();
if( c.resolvingLevel() < SootClass.HIERARCHY ) continue;
if (c.hasSuperclass())
{
if (c.isInterface())
{
Iterator subIt = c.getInterfaces().iterator();
while (subIt.hasNext())
{
SootClass i = (SootClass)subIt.next();
if( c.resolvingLevel() < SootClass.HIERARCHY ) continue;
List l = interfaceToDirSubinterfaces.get(i);
l.add(c);
}
}
else
{
List l = classToDirSubclasses.get(c.getSuperclass());
l.add(c);
Iterator subIt = c.getInterfaces().iterator();
while (subIt.hasNext())
{
SootClass i = (SootClass)subIt.next();
if( c.resolvingLevel() < SootClass.HIERARCHY ) continue;
l = interfaceToDirImplementers.get(i);
if (l != null) l.add(c);
}
}
}
}
// Fill the directImplementers lists with subclasses.
{
classesIt = allClasses.iterator();
while (classesIt.hasNext())
{
SootClass c = (SootClass)classesIt.next();
if( c.resolvingLevel() < SootClass.HIERARCHY ) continue;
if (c.isInterface())
{
List imp = interfaceToDirImplementers.get(c);
Set s = new ArraySet();
Iterator impIt = imp.iterator();
while (impIt.hasNext())
{
SootClass c0 = impIt.next();
if( c.resolvingLevel() < SootClass.HIERARCHY ) continue;
s.addAll(getSubclassesOfIncluding(c0));
}
imp.clear(); imp.addAll(s);
}
}
}
classesIt = allClasses.iterator();
while (classesIt.hasNext())
{
SootClass c = (SootClass)classesIt.next();
if( c.resolvingLevel() < SootClass.HIERARCHY ) continue;
if (c.isInterface())
{
interfaceToDirSubinterfaces.put(c, Collections.unmodifiableList
(interfaceToDirSubinterfaces.get(c)));
interfaceToDirImplementers.put(c, Collections.unmodifiableList
(interfaceToDirImplementers.get(c)));
}
else
classToDirSubclasses.put(c, Collections.unmodifiableList
(classToDirSubclasses.get(c)));
}
}
}
private void checkState()
{
if (state != sc.getState())
throw new ConcurrentModificationException("Scene changed for Hierarchy!");
}
// This includes c in the list of subclasses.
/** Returns a list of subclasses of c, including itself. */
public List getSubclassesOfIncluding(SootClass c)
{
c.checkLevel(SootClass.HIERARCHY);
if (c.isInterface())
throw new RuntimeException("class needed!");
List l = new ArrayList();
l.addAll(getSubclassesOf(c));
l.add(c);
return Collections.unmodifiableList(l);
}
/** Returns a list of subclasses of c, excluding itself. */
public List getSubclassesOf(SootClass c)
{
c.checkLevel(SootClass.HIERARCHY);
if (c.isInterface())
throw new RuntimeException("class needed!");
checkState();
// If already cached, return the value.
if (classToSubclasses.get(c) != null)
return classToSubclasses.get(c);
// Otherwise, build up the hashmap.
List l = new ArrayList();
ListIterator it = classToDirSubclasses.get(c).listIterator();
while (it.hasNext())
{
SootClass cls = (SootClass) it.next();
if( cls.resolvingLevel() < SootClass.HIERARCHY ) continue;
l.addAll(getSubclassesOfIncluding(cls));
}
l = Collections.unmodifiableList(l);
classToSubclasses.put(c, l);
return l;
}
/** Returns a list of superclasses of c, including itself. */
public List getSuperclassesOfIncluding(SootClass c)
{
c.checkLevel(SootClass.HIERARCHY);
List l = getSuperclassesOf(c);
ArrayList al = new ArrayList(); al.add(c); al.addAll(l);
return Collections.unmodifiableList(al);
}
/** Returns a list of strict superclasses of c, starting with c's parent. */
public List getSuperclassesOf(SootClass c)
{
c.checkLevel(SootClass.HIERARCHY);
if (c.isInterface())
throw new RuntimeException("class needed!");
checkState();
ArrayList l = new ArrayList();
SootClass cl = c;
while (cl.hasSuperclass())
{
l.add(cl.getSuperclass());
cl = cl.getSuperclass();
}
return Collections.unmodifiableList(l);
}
/** Returns a list of subinterfaces of c, including itself. */
public List getSubinterfacesOfIncluding(SootClass c)
{
c.checkLevel(SootClass.HIERARCHY);
if (!c.isInterface())
throw new RuntimeException("interface needed!");
List l = new ArrayList();
l.addAll(getSubinterfacesOf(c));
l.add(c);
return Collections.unmodifiableList(l);
}
/** Returns a list of subinterfaces of c, excluding itself. */
public List getSubinterfacesOf(SootClass c)
{
c.checkLevel(SootClass.HIERARCHY);
if (!c.isInterface())
throw new RuntimeException("interface needed!");
checkState();
// If already cached, return the value.
if (interfaceToSubinterfaces.get(c) != null)
return interfaceToSubinterfaces.get(c);
// Otherwise, build up the hashmap.
List l = new ArrayList();
ListIterator it = interfaceToDirSubinterfaces.get(c).listIterator();
while (it.hasNext())
{
l.addAll(getSubinterfacesOfIncluding((SootClass)it.next()));
}
interfaceToSubinterfaces.put(c, Collections.unmodifiableList(l));
return Collections.unmodifiableList(l);
}
/** Returns a list of superinterfaces of c, excluding itself. */
public List getSuperinterfacesOf(SootClass c)
{
throw new RuntimeException("Not implemented yet!");
}
/** Returns a list of direct superclasses of c, excluding c. */
public List getDirectSuperclassesOf(SootClass c)
{
throw new RuntimeException("Not implemented yet!");
}
/** Returns a list of direct subclasses of c, excluding c. */
public List getDirectSubclassesOf(SootClass c)
{
c.checkLevel(SootClass.HIERARCHY);
if (c.isInterface())
throw new RuntimeException("class needed!");
checkState();
return Collections.unmodifiableList(classToDirSubclasses.get(c));
}
// This includes c in the list of subclasses.
/** Returns a list of direct subclasses of c, including c. */
public List getDirectSubclassesOfIncluding(SootClass c)
{
c.checkLevel(SootClass.HIERARCHY);
if (c.isInterface())
throw new RuntimeException("class needed!");
checkState();
List l = new ArrayList();
l.addAll(classToDirSubclasses.get(c));
l.add(c);
return Collections.unmodifiableList(l);
}
/** Returns a list of direct superinterfaces of c. */
public List getDirectSuperinterfacesOf(SootClass c)
{
throw new RuntimeException("Not implemented yet!");
}
/** Returns a list of direct subinterfaces of c. */
public List getDirectSubinterfacesOf(SootClass c)
{
c.checkLevel(SootClass.HIERARCHY);
if (!c.isInterface())
throw new RuntimeException("interface needed!");
checkState();
return interfaceToDirSubinterfaces.get(c);
}
/** Returns a list of direct subinterfaces of c, including itself. */
public List getDirectSubinterfacesOfIncluding(SootClass c)
{
c.checkLevel(SootClass.HIERARCHY);
if (!c.isInterface())
throw new RuntimeException("interface needed!");
checkState();
List l = new ArrayList();
l.addAll(interfaceToDirSubinterfaces.get(c));
l.add(c);
return Collections.unmodifiableList(l);
}
/** Returns a list of direct implementers of c, excluding itself. */
public List getDirectImplementersOf(SootClass i)
{
i.checkLevel(SootClass.HIERARCHY);
if (!i.isInterface())
throw new RuntimeException("interface needed; got "+i);
checkState();
return Collections.unmodifiableList(interfaceToDirImplementers.get(i));
}
/** Returns a list of implementers of c, excluding itself. */
public List getImplementersOf(SootClass i)
{
i.checkLevel(SootClass.HIERARCHY);
if (!i.isInterface())
throw new RuntimeException("interface needed; got "+i);
checkState();
Iterator it = getSubinterfacesOfIncluding(i).iterator();
ArraySet set = new ArraySet();
while (it.hasNext())
{
SootClass c = it.next();
set.addAll(getDirectImplementersOf(c));
}
ArrayList l = new ArrayList();
l.addAll(set);
return Collections.unmodifiableList(l);
}
/** Returns true if child is a subclass of possibleParent. */
public boolean isClassSubclassOf(SootClass child, SootClass possibleParent)
{
child.checkLevel(SootClass.HIERARCHY);
possibleParent.checkLevel(SootClass.HIERARCHY);
return getSuperclassesOf(child).contains(possibleParent);
}
/** Returns true if child is, or is a subclass of, possibleParent. */
public boolean isClassSubclassOfIncluding(SootClass child, SootClass possibleParent)
{
child.checkLevel(SootClass.HIERARCHY);
possibleParent.checkLevel(SootClass.HIERARCHY);
return getSuperclassesOfIncluding(child).contains(possibleParent);
}
/** Returns true if child is a direct subclass of possibleParent. */
public boolean isClassDirectSubclassOf(SootClass c, SootClass c2)
{
throw new RuntimeException("Not implemented yet!");
}
/** Returns true if child is a superclass of possibleParent. */
public boolean isClassSuperclassOf(SootClass parent, SootClass possibleChild)
{
parent.checkLevel(SootClass.HIERARCHY);
possibleChild.checkLevel(SootClass.HIERARCHY);
return getSubclassesOf(parent).contains(possibleChild);
}
/** Returns true if parent is, or is a superclass of, possibleChild. */
public boolean isClassSuperclassOfIncluding(SootClass parent, SootClass possibleChild)
{
parent.checkLevel(SootClass.HIERARCHY);
possibleChild.checkLevel(SootClass.HIERARCHY);
return getSubclassesOfIncluding(parent).contains(possibleChild);
}
/** Returns true if child is a subinterface of possibleParent. */
public boolean isInterfaceSubinterfaceOf(SootClass child, SootClass possibleParent)
{
child.checkLevel(SootClass.HIERARCHY);
possibleParent.checkLevel(SootClass.HIERARCHY);
return getSubinterfacesOf(possibleParent).contains(child);
}
/** Returns true if child is a direct subinterface of possibleParent. */
public boolean isInterfaceDirectSubinterfaceOf(SootClass child,
SootClass possibleParent)
{
child.checkLevel(SootClass.HIERARCHY);
possibleParent.checkLevel(SootClass.HIERARCHY);
return getDirectSubinterfacesOf(possibleParent).contains(child);
}
/** Returns the most specific type which is an ancestor of both c1 and c2. */
public SootClass getLeastCommonSuperclassOf(SootClass c1,
SootClass c2)
{
c1.checkLevel(SootClass.HIERARCHY);
c2.checkLevel(SootClass.HIERARCHY);
throw new RuntimeException("Not implemented yet!");
}
// Questions about method invocation.
/** Returns true if the method m is visible from code in the class from. */
public boolean isVisible( SootClass from, SootMethod m ) {
from.checkLevel(SootClass.HIERARCHY);
m.getDeclaringClass().checkLevel(SootClass.HIERARCHY);
if( m.isPublic() ) return true;
if( m.isPrivate() ) {
return from.equals( m.getDeclaringClass() );
}
if( m.isProtected() ) {
return isClassSubclassOfIncluding( from, m.getDeclaringClass() );
}
// m is package
return from.getJavaPackageName().equals(
m.getDeclaringClass().getJavaPackageName() );
//|| isClassSubclassOfIncluding( from, m.getDeclaringClass() );
}
/** Given an object of actual type C (o = new C()), returns the method which will be called
on an o.f() invocation. */
public SootMethod resolveConcreteDispatch(SootClass concreteType, SootMethod m)
{
concreteType.checkLevel(SootClass.HIERARCHY);
m.getDeclaringClass().checkLevel(SootClass.HIERARCHY);
checkState();
if (concreteType.isInterface())
throw new RuntimeException("class needed!");
Iterator it = getSuperclassesOfIncluding(concreteType).iterator();
String methodSig = m.getSubSignature();
while (it.hasNext())
{
SootClass c = it.next();
if (c.declaresMethod(methodSig)
&& isVisible( c, m )
) {
return c.getMethod(methodSig);
}
}
throw new RuntimeException("could not resolve concrete dispatch!\nType: "+concreteType+"\nMethod: "+m);
}
/** Given a set of definite receiver types, returns a list of possible targets. */
public List resolveConcreteDispatch(List classes, SootMethod m)
{
m.getDeclaringClass().checkLevel(SootClass.HIERARCHY);
checkState();
ArraySet s = new ArraySet();
Iterator classesIt = classes.iterator();
while (classesIt.hasNext()) {
Object cls = classesIt.next();
if (cls instanceof RefType)
s.add(resolveConcreteDispatch(((RefType)cls).getSootClass(), m));
else if (cls instanceof ArrayType) {
s.add(resolveConcreteDispatch((RefType.v("java.lang.Object")).getSootClass(), m));
}
else throw new RuntimeException("Unable to resolve concrete dispatch of type "+ cls);
}
List l = new ArrayList(); l.addAll(s);
return Collections.unmodifiableList(l);
}
// what can get called for c & all its subclasses
/** Given an abstract dispatch to an object of type c and a method m, gives
* a list of possible receiver methods. */
public List resolveAbstractDispatch(SootClass c, SootMethod m)
{
c.checkLevel(SootClass.HIERARCHY);
m.getDeclaringClass().checkLevel(SootClass.HIERARCHY);
checkState();
Iterator classesIt = null;
if (c.isInterface()) {
classesIt = getImplementersOf(c).iterator();
HashSet classes = new HashSet();
while (classesIt.hasNext())
classes.addAll(getSubclassesOfIncluding(classesIt.next()));
classesIt = classes.iterator();
}
else
classesIt = getSubclassesOfIncluding(c).iterator();
ArraySet s = new ArraySet();
while (classesIt.hasNext()) {
SootClass cl = classesIt.next();
if( Modifier.isAbstract( cl.getModifiers() ) ) continue;
s.add(resolveConcreteDispatch(cl, m));
}
List l = new ArrayList(); l.addAll(s);
return Collections.unmodifiableList(l);
}
// what can get called if you have a set of possible receiver types
/** Returns a list of possible targets for the given method and set of receiver types. */
public List resolveAbstractDispatch(List classes, SootMethod m)
{
m.getDeclaringClass().checkLevel(SootClass.HIERARCHY);
ArraySet s = new ArraySet();
Iterator classesIt = classes.iterator();
while (classesIt.hasNext())
s.addAll(resolveAbstractDispatch((SootClass)classesIt.next(), m));
List l = new ArrayList(); l.addAll(s);
return Collections.unmodifiableList(l);
}
/** Returns the target for the given SpecialInvokeExpr. */
public SootMethod resolveSpecialDispatch(SpecialInvokeExpr ie, SootMethod container)
{
container.getDeclaringClass().checkLevel(SootClass.HIERARCHY);
SootMethod target = ie.getMethod();
target.getDeclaringClass().checkLevel(SootClass.HIERARCHY);
/* This is a bizarre condition! Hopefully the implementation is correct.
See VM Spec, 2nd Edition, Chapter 6, in the definition of invokespecial. */
if (target.getName().equals("") || target.isPrivate())
return target;
else if (isClassSubclassOf(target.getDeclaringClass(), container.getDeclaringClass()))
return resolveConcreteDispatch(container.getDeclaringClass(), target);
else
return target;
}
}
