proguard.optimize.evaluation.SimpleEnumDescriptorSimplifier Maven / Gradle / Ivy
/*
* ProGuard -- shrinking, optimization, obfuscation, and preverification
* of Java bytecode.
*
* Copyright (c) 2002-2018 GuardSquare NV
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the Free
* Software Foundation; either version 2 of the License, or (at your option)
* any later version.
*
* This program 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 General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
package proguard.optimize.evaluation;
import proguard.classfile.*;
import proguard.classfile.attribute.*;
import proguard.classfile.attribute.visitor.*;
import proguard.classfile.constant.*;
import proguard.classfile.constant.visitor.ConstantVisitor;
import proguard.classfile.editor.*;
import proguard.classfile.util.*;
import proguard.classfile.visitor.*;
import proguard.optimize.KeepMarker;
import proguard.optimize.info.*;
/**
* This ClassVisitor simplifies the descriptors that contain simple enums in
* the program classes that it visits.
*
* @see SimpleEnumMarker
* @see MemberReferenceFixer
* @author Eric Lafortune
*/
public class SimpleEnumDescriptorSimplifier
extends SimplifiedVisitor
implements ClassVisitor,
ConstantVisitor,
MemberVisitor,
AttributeVisitor,
LocalVariableInfoVisitor,
LocalVariableTypeInfoVisitor
{
//*
private static final boolean DEBUG = false;
/*/
private static boolean DEBUG = System.getProperty("enum") != null;
//*/
private static final boolean DEBUG_EXTRA = false;
// Implementations for ClassVisitor.
public void visitProgramClass(ProgramClass programClass)
{
if (DEBUG)
{
System.out.println("SimpleEnumDescriptorSimplifier: "+programClass.getName());
}
// Simplify the class members.
programClass.fieldsAccept(this);
programClass.methodsAccept(this);
// Simplify the attributes.
//programClass.attributesAccept(this);
// Simplify the simple enum array constants.
programClass.constantPoolEntriesAccept(this);
}
// Implementations for ConstantVisitor.
public void visitAnyConstant(Clazz clazz, Constant constant) {}
public void visitStringConstant(Clazz clazz, StringConstant stringConstant)
{
// Does the constant refer to a simple enum type?
Clazz referencedClass = stringConstant.referencedClass;
if (isSimpleEnum(referencedClass))
{
// Is it an array type?
String name = stringConstant.getString(clazz);
if (ClassUtil.isInternalArrayType(name))
{
// Update the type.
ConstantPoolEditor constantPoolEditor =
new ConstantPoolEditor((ProgramClass)clazz);
String newName = simplifyDescriptor(name, referencedClass);
stringConstant.u2stringIndex =
constantPoolEditor.addUtf8Constant(newName);
// Clear the referenced class.
stringConstant.referencedClass = null;
}
}
}
public void visitInvokeDynamicConstant(Clazz clazz, InvokeDynamicConstant invokeDynamicConstant)
{
// Update the descriptor if it has any simple enum classes.
String descriptor = invokeDynamicConstant.getType(clazz);
String newDescriptor = simplifyDescriptor(descriptor, invokeDynamicConstant.referencedClasses);
if (!descriptor.equals(newDescriptor))
{
// Update the descriptor.
ConstantPoolEditor constantPoolEditor =
new ConstantPoolEditor((ProgramClass)clazz);
invokeDynamicConstant.u2nameAndTypeIndex =
constantPoolEditor.addNameAndTypeConstant(invokeDynamicConstant.getName(clazz),
newDescriptor);
// Update the referenced classes.
invokeDynamicConstant.referencedClasses =
simplifyReferencedClasses(descriptor, invokeDynamicConstant.referencedClasses);
}
}
public void visitClassConstant(Clazz clazz, ClassConstant classConstant)
{
// Does the constant refer to a simple enum type?
Clazz referencedClass = classConstant.referencedClass;
if (isSimpleEnum(referencedClass))
{
// Is it an array type?
String name = classConstant.getName(clazz);
if (ClassUtil.isInternalArrayType(name))
{
// Update the type.
ConstantPoolEditor constantPoolEditor =
new ConstantPoolEditor((ProgramClass)clazz);
String newName = simplifyDescriptor(name, referencedClass);
classConstant.u2nameIndex =
constantPoolEditor.addUtf8Constant(newName);
// Clear the referenced class.
classConstant.referencedClass = null;
}
}
}
public void visitMethodTypeConstant(Clazz clazz, MethodTypeConstant methodTypeConstant)
{
// Update the descriptor if it has any simple enum classes.
String descriptor = methodTypeConstant.getType(clazz);
String newDescriptor = simplifyDescriptor(descriptor, methodTypeConstant.referencedClasses);
if (!descriptor.equals(newDescriptor))
{
// Update the descriptor.
ConstantPoolEditor constantPoolEditor =
new ConstantPoolEditor((ProgramClass)clazz);
methodTypeConstant.u2descriptorIndex =
constantPoolEditor.addUtf8Constant(newDescriptor);
// Update the referenced classes.
methodTypeConstant.referencedClasses =
simplifyReferencedClasses(descriptor, methodTypeConstant.referencedClasses);
}
}
// Implementations for MemberVisitor.
public void visitProgramField(ProgramClass programClass, ProgramField programField)
{
// Update the descriptor if it has a simple enum class.
String descriptor = programField.getDescriptor(programClass);
String newDescriptor = simplifyDescriptor(descriptor, programField.referencedClass);
if (!descriptor.equals(newDescriptor))
{
String name = programField.getName(programClass);
String newName = name + ClassConstants.SPECIAL_MEMBER_SEPARATOR + Long.toHexString(Math.abs((descriptor).hashCode()));
if (DEBUG)
{
System.out.println("SimpleEnumDescriptorSimplifier: ["+programClass.getName()+"."+name+" "+descriptor + "] -> ["+newName+" "+newDescriptor+"]");
}
ConstantPoolEditor constantPoolEditor =
new ConstantPoolEditor(programClass);
// Update the name.
programField.u2nameIndex =
constantPoolEditor.addUtf8Constant(newName);
// Update the descriptor itself.
programField.u2descriptorIndex =
constantPoolEditor.addUtf8Constant(newDescriptor);
// Clear the referenced class.
programField.referencedClass = null;
// Clear the enum flag.
programField.u2accessFlags &= ~ClassConstants.ACC_ENUM;
// Clear the field value.
if (!KeepMarker.isKept(programField))
{
ProgramFieldOptimizationInfo.getProgramFieldOptimizationInfo(programField).resetValue(programClass, programField);
}
// Simplify the signature.
programField.attributesAccept(programClass, this);
}
}
public void visitProgramMethod(ProgramClass programClass, ProgramMethod programMethod)
{
// // Skip the valueOf method.
// if (programMethod.getName(programClass).equals(ClassConstants.METHOD_NAME_VALUEOF))
// {
// return;
// }
// Simplify the code, the signature, and the parameter annotations,
// before simplifying the descriptor.
programMethod.attributesAccept(programClass, this);
// Update the descriptor if it has any simple enum classes.
String descriptor = programMethod.getDescriptor(programClass);
String newDescriptor = simplifyDescriptor(descriptor, programMethod.referencedClasses);
if (!descriptor.equals(newDescriptor))
{
String name = programMethod.getName(programClass);
String newName = name;
// Append a code, if the method isn't a class instance initializer.
if (!name.equals(ClassConstants.METHOD_NAME_INIT))
{
newName += ClassConstants.SPECIAL_MEMBER_SEPARATOR + Long.toHexString(Math.abs((descriptor).hashCode()));
}
if (DEBUG)
{
System.out.println("SimpleEnumDescriptorSimplifier: ["+programClass.getName()+"."+name+descriptor+"] -> ["+newName+newDescriptor+"]");
}
ConstantPoolEditor constantPoolEditor =
new ConstantPoolEditor(programClass);
// Update the name, if necessary.
if (!newName.equals(name))
{
programMethod.u2nameIndex =
constantPoolEditor.addUtf8Constant(newName);
}
// Update the descriptor itself.
programMethod.u2descriptorIndex =
constantPoolEditor.addUtf8Constant(newDescriptor);
// Update the referenced classes.
programMethod.referencedClasses =
simplifyReferencedClasses(descriptor, programMethod.referencedClasses);
}
}
// Implementations for AttributeVisitor.
public void visitAnyAttribute(Clazz clazz, Attribute attribute) {}
public void visitCodeAttribute(Clazz clazz, Method method, CodeAttribute codeAttribute)
{
// Simplify the local variable descriptors.
codeAttribute.attributesAccept(clazz, method, this);
}
public void visitLocalVariableTableAttribute(Clazz clazz, Method method, CodeAttribute codeAttribute, LocalVariableTableAttribute localVariableTableAttribute)
{
// Change the references of the local variables.
localVariableTableAttribute.localVariablesAccept(clazz, method, codeAttribute, this);
}
public void visitLocalVariableTypeTableAttribute(Clazz clazz, Method method, CodeAttribute codeAttribute, LocalVariableTypeTableAttribute localVariableTypeTableAttribute)
{
// Change the references of the local variables.
localVariableTypeTableAttribute.localVariablesAccept(clazz, method, codeAttribute, this);
}
public void visitSignatureAttribute(Clazz clazz, SignatureAttribute signatureAttribute)
{
// Compute the new signature.
String signature = signatureAttribute.getSignature(clazz);
String newSignature = simplifyDescriptor(signature,
signatureAttribute.referencedClasses);
if (!signature.equals(newSignature))
{
// Update the signature.
signatureAttribute.u2signatureIndex =
new ConstantPoolEditor((ProgramClass)clazz).addUtf8Constant(newSignature);
// Update the referenced classes.
signatureAttribute.referencedClasses =
simplifyReferencedClasses(signature, signatureAttribute.referencedClasses);
}
}
// Implementations for LocalVariableInfoVisitor.
public void visitLocalVariableInfo(Clazz clazz, Method method, CodeAttribute codeAttribute, LocalVariableInfo localVariableInfo)
{
// Update the descriptor if it has a simple enum class.
String descriptor = localVariableInfo.getDescriptor(clazz);
String newDescriptor = simplifyDescriptor(descriptor, localVariableInfo.referencedClass);
if (!descriptor.equals(newDescriptor))
{
// Update the descriptor.
localVariableInfo.u2descriptorIndex =
new ConstantPoolEditor((ProgramClass)clazz).addUtf8Constant(newDescriptor);
// Clear the referenced class.
localVariableInfo.referencedClass = null;
}
}
// Implementations for LocalVariableTypeInfoVisitor.
public void visitLocalVariableTypeInfo(Clazz clazz, Method method, CodeAttribute codeAttribute, LocalVariableTypeInfo localVariableTypeInfo)
{
// We're only looking at the base type for now.
if (localVariableTypeInfo.referencedClasses != null &&
localVariableTypeInfo.referencedClasses.length > 0)
{
// Update the signature if it has any simple enum classes.
String signature = localVariableTypeInfo.getSignature(clazz);
String newSignature = simplifyDescriptor(signature,
localVariableTypeInfo.referencedClasses[0]);
if (!signature.equals(newSignature))
{
// Update the signature.
localVariableTypeInfo.u2signatureIndex =
new ConstantPoolEditor((ProgramClass)clazz).addUtf8Constant(newSignature);
// Clear the referenced class.
localVariableTypeInfo.referencedClasses[0] = null;
}
}
}
// Small utility methods.
/**
* Returns the descriptor with simplified enum type.
*/
private String simplifyDescriptor(String descriptor,
Clazz referencedClass)
{
return isSimpleEnum(referencedClass) ?
descriptor.substring(0, ClassUtil.internalArrayTypeDimensionCount(descriptor)) + ClassConstants.TYPE_INT :
descriptor;
}
/**
* Returns the descriptor with simplified enum types.
*/
private String simplifyDescriptor(String descriptor,
Clazz[] referencedClasses)
{
if (referencedClasses != null)
{
if (DEBUG_EXTRA)
{
System.out.println(" Before: ["+descriptor+"]");
}
InternalTypeEnumeration typeEnumeration =
new InternalTypeEnumeration(descriptor);
int referencedClassIndex = 0;
StringBuffer newDescriptorBuffer =
new StringBuffer(descriptor.length());
// Go over the formal type parameters.
if (typeEnumeration.hasFormalTypeParameters())
{
// Consider the classes referenced by this formal type
// parameter.
String type = typeEnumeration.formalTypeParameters();
DescriptorClassEnumeration classEnumeration =
new DescriptorClassEnumeration(type);
newDescriptorBuffer.append(classEnumeration.nextFluff());
// Replace any simple enum types.
while (classEnumeration.hasMoreClassNames())
{
// Get the class.
String className =
classEnumeration.nextClassName();
Clazz referencedClass =
referencedClasses[referencedClassIndex++];
// Is this class a simple enum type?
if (isSimpleEnum(referencedClass))
{
// Let's replace it by java.lang.Integer.
className = ClassConstants.NAME_JAVA_LANG_INTEGER;
}
newDescriptorBuffer.append(className);
newDescriptorBuffer.append(classEnumeration.nextFluff());
}
}
if (typeEnumeration.isMethodSignature())
{
newDescriptorBuffer.append(ClassConstants.METHOD_ARGUMENTS_OPEN);
}
// Go over the main types (class types or parameter types).
while (typeEnumeration.hasMoreTypes())
{
// Consider the classes referenced by this parameter type.
String type = typeEnumeration.nextType();
DescriptorClassEnumeration classEnumeration =
new DescriptorClassEnumeration(type);
String firstFluff = classEnumeration.nextFluff();
if (classEnumeration.hasMoreClassNames())
{
// Get the first class.
String firstClassName =
classEnumeration.nextClassName();
Clazz firstReferencedClass =
referencedClasses[referencedClassIndex++];
// Is the first class a simple enum type?
if (isSimpleEnum(firstReferencedClass))
{
// Replace it by a primitive int, with any array
// prefix.
newDescriptorBuffer.append(type.substring(0, ClassUtil.internalArrayTypeDimensionCount(type)));
newDescriptorBuffer.append(ClassConstants.TYPE_INT);
// Skip any other classes of this type.
classEnumeration.nextFluff();
while (classEnumeration.hasMoreClassNames())
{
classEnumeration.nextClassName();
classEnumeration.nextFluff();
referencedClassIndex++;
}
}
else
{
newDescriptorBuffer.append(firstFluff);
newDescriptorBuffer.append(firstClassName);
newDescriptorBuffer.append(classEnumeration.nextFluff());
// Replace any other simple enum types.
while (classEnumeration.hasMoreClassNames())
{
// Get the class.
String className =
classEnumeration.nextClassName();
Clazz referencedClass =
referencedClasses[referencedClassIndex++];
// Is this class a simple enum type?
if (isSimpleEnum(referencedClass))
{
// Let's replace it by java.lang.Integer.
className = ClassConstants.NAME_JAVA_LANG_INTEGER;
}
newDescriptorBuffer.append(className);
newDescriptorBuffer.append(classEnumeration.nextFluff());
}
}
}
else
{
newDescriptorBuffer.append(firstFluff);
}
}
if (typeEnumeration.isMethodSignature())
{
newDescriptorBuffer.append(ClassConstants.METHOD_ARGUMENTS_CLOSE);
// Consider the classes referenced by the return type.
String type = typeEnumeration.returnType();
DescriptorClassEnumeration classEnumeration =
new DescriptorClassEnumeration(type);
String firstFluff = classEnumeration.nextFluff();
if (classEnumeration.hasMoreClassNames())
{
// Get the first class.
String firstClassName =
classEnumeration.nextClassName();
Clazz firstReferencedClass =
referencedClasses[referencedClassIndex++];
// Is the first class a simple enum type?
if (isSimpleEnum(firstReferencedClass))
{
// Replace it by a primitive int, with any array
// prefix.
newDescriptorBuffer.append(type.substring(0, ClassUtil.internalArrayTypeDimensionCount(type)));
newDescriptorBuffer.append(ClassConstants.TYPE_INT);
}
else
{
newDescriptorBuffer.append(firstFluff);
newDescriptorBuffer.append(firstClassName);
newDescriptorBuffer.append(classEnumeration.nextFluff());
// Replace any other simple enum types.
while (classEnumeration.hasMoreClassNames())
{
// Get the class.
String className =
classEnumeration.nextClassName();
Clazz referencedClass =
referencedClasses[referencedClassIndex++];
// Is this class a simple enum type?
if (isSimpleEnum(referencedClass))
{
// Let's replace it by java.lang.Integer.
className = ClassConstants.NAME_JAVA_LANG_INTEGER;
}
newDescriptorBuffer.append(className);
newDescriptorBuffer.append(classEnumeration.nextFluff());
}
}
}
else
{
newDescriptorBuffer.append(firstFluff);
}
}
descriptor = newDescriptorBuffer.toString();
if (DEBUG_EXTRA)
{
System.out.println(" After: ["+descriptor+"]");
}
}
return descriptor;
}
/**
* Returns the simplified and shrunk array of referenced classes for the
* given descriptor.
*/
private Clazz[] simplifyReferencedClasses(String descriptor,
Clazz[] referencedClasses)
{
if (referencedClasses != null)
{
if (DEBUG_EXTRA)
{
System.out.print(" Referenced before:");
for (int index = 0; index < referencedClasses.length; index++)
{
System.out.print(" ["+(referencedClasses[index] == null ? null : referencedClasses[index].getName())+"]");
}
System.out.println();
}
InternalTypeEnumeration typeEnumeration =
new InternalTypeEnumeration(descriptor);
int referencedClassIndex = 0;
int newReferencedClassIndex = 0;
// Go over the formal type parameters.
if (typeEnumeration.hasFormalTypeParameters())
{
// Consider the classes referenced by this formal type
// parameter.
String type = typeEnumeration.formalTypeParameters();
DescriptorClassEnumeration classEnumeration =
new DescriptorClassEnumeration(type);
classEnumeration.nextFluff();
// Replace any simple enum types.
while (classEnumeration.hasMoreClassNames())
{
// Get the class.
classEnumeration.nextClassName();
classEnumeration.nextFluff();
Clazz referencedClass =
referencedClasses[referencedClassIndex++];
// Clear the referenced class if it is a simple
// enum type (now java.lang.Integer).
referencedClasses[newReferencedClassIndex++] =
isSimpleEnum(referencedClass) ? null : referencedClass;
}
}
// Go over the main types (class types or parameter types).
while (typeEnumeration.hasMoreTypes())
{
// Consider the classes referenced by this parameter type.
String type = typeEnumeration.nextType();
DescriptorClassEnumeration classEnumeration =
new DescriptorClassEnumeration(type);
classEnumeration.nextFluff();
if (classEnumeration.hasMoreClassNames())
{
// Get the first class.
classEnumeration.nextClassName();
classEnumeration.nextFluff();
Clazz firstReferencedClass =
referencedClasses[referencedClassIndex++];
// Is the first class a simple enum type?
if (isSimpleEnum(firstReferencedClass))
{
// Replace it by a primitive int.
// Skip any other classes of this type.
classEnumeration.nextFluff();
while (classEnumeration.hasMoreClassNames())
{
classEnumeration.nextClassName();
classEnumeration.nextFluff();
referencedClassIndex++;
}
}
else
{
referencedClasses[newReferencedClassIndex++] =
firstReferencedClass;
// Replace any other simple enum types.
while (classEnumeration.hasMoreClassNames())
{
// Get the class.
classEnumeration.nextClassName();
classEnumeration.nextFluff();
Clazz referencedClass =
referencedClasses[referencedClassIndex++];
// Clear the referenced class if it is a simple
// enum type (now java.lang.Integer).
referencedClasses[newReferencedClassIndex++] =
isSimpleEnum(referencedClass) ? null : referencedClass;
}
}
}
}
if (typeEnumeration.isMethodSignature())
{
// Consider the classes referenced by the return type.
String type = typeEnumeration.returnType();
DescriptorClassEnumeration classEnumeration =
new DescriptorClassEnumeration(type);
classEnumeration.nextFluff();
if (classEnumeration.hasMoreClassNames())
{
// Get the first class.
classEnumeration.nextClassName();
classEnumeration.nextFluff();
Clazz firstReferencedClass =
referencedClasses[referencedClassIndex++];
// Is the first class a simple enum type?
if (isSimpleEnum(firstReferencedClass))
{
// Replace it by a primitive int.
// Clear all remaining referenced classes.
}
else
{
referencedClasses[newReferencedClassIndex++] =
firstReferencedClass;
// Replace any other simple enum types.
while (classEnumeration.hasMoreClassNames())
{
// Get the class.
classEnumeration.nextClassName();
classEnumeration.nextFluff();
Clazz referencedClass =
referencedClasses[referencedClassIndex++];
// Clear the referenced class if it is a simple
// enum type (now java.lang.Integer).
referencedClasses[newReferencedClassIndex++] =
isSimpleEnum(referencedClass) ? null : referencedClass;
}
}
}
}
// Shrink the array to the proper size.
if (newReferencedClassIndex == 0)
{
referencedClasses = null;
}
else if (newReferencedClassIndex < referencedClassIndex)
{
Clazz[] newReferencedClasses = new Clazz[newReferencedClassIndex];
System.arraycopy(referencedClasses, 0,
newReferencedClasses, 0,
newReferencedClassIndex);
referencedClasses = newReferencedClasses;
if (DEBUG_EXTRA)
{
System.out.print(" Referenced after: ");
for (int index = 0; index < referencedClasses.length; index++)
{
System.out.print(" ["+(referencedClasses[index] == null ? null : referencedClasses[index].getName())+"]");
}
System.out.println();
}
}
}
return referencedClasses;
}
/**
* Returns whether the given class is not null and a simple enum class.
*/
private boolean isSimpleEnum(Clazz clazz)
{
return clazz != null &&
SimpleEnumMarker.isSimpleEnum(clazz);
}
}
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