TiMi v20231006版本的 MD5 值为:735bfb4e213f5a09dc94b4b195ca13d5
以下内容为反编译后的 ClassGeneratorUtil.java 源代码,内容仅作参考
package bsh;
import androidx.core.view.InputDeviceCompat;
import bsh.ClassGeneratorImpl;
import bsh.org.objectweb.asm.ClassWriter;
import bsh.org.objectweb.asm.CodeVisitor;
import bsh.org.objectweb.asm.Constants;
import bsh.org.objectweb.asm.Label;
import bsh.org.objectweb.asm.Type;
import java.lang.reflect.Constructor;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.ArrayList;
public class ClassGeneratorUtil implements Constants {
static final String BSHCONSTRUCTORS = "_bshConstructors";
static final String BSHINIT = "_bshInstanceInitializer";
static final String BSHSTATIC = "_bshStatic";
static final String BSHSUPER = "_bshSuper";
static final String BSHTHIS = "_bshThis";
static final int DEFAULTCONSTRUCTOR = -1;
static final String OBJECT = "Ljava/lang/Object;";
static Class array$Ljava$lang$Object;
static Class class$bsh$CallStack;
static Class class$bsh$Interpreter;
static Class class$bsh$SimpleNode;
static Class class$java$lang$Object;
static Class class$java$lang$String;
Modifiers classModifiers;
String className;
NameSpace classStaticNameSpace;
DelayedEvalBshMethod[] constructors;
String fqClassName;
Class[] interfaces;
boolean isInterface;
DelayedEvalBshMethod[] methods;
Class superClass;
String superClassName;
Constructor[] superConstructors;
Variable[] vars;
public static class ConstructorArgs {
public static ConstructorArgs DEFAULT = new ConstructorArgs();
int arg;
Object[] args;
public int selector;
ConstructorArgs() {
this.selector = -1;
this.arg = 0;
}
ConstructorArgs(int i, Object[] objArr) {
this.selector = -1;
this.arg = 0;
this.selector = i;
this.args = objArr;
}
public boolean getBoolean() {
return ((Boolean) next()).booleanValue();
}
public byte getByte() {
return ((Byte) next()).byteValue();
}
public char getChar() {
return ((Character) next()).charValue();
}
public double getDouble() {
return ((Double) next()).doubleValue();
}
public float getFloat() {
return ((Float) next()).floatValue();
}
public int getInt() {
return ((Integer) next()).intValue();
}
public long getLong() {
return ((Long) next()).longValue();
}
public Object getObject() {
return next();
}
public short getShort() {
return ((Short) next()).shortValue();
}
Object next() {
Object[] objArr = this.args;
int i = this.arg;
this.arg = i + 1;
return objArr[i];
}
}
public ClassGeneratorUtil(Modifiers modifiers, String str, String str2, Class cls, Class[] clsArr, Variable[] variableArr, DelayedEvalBshMethod[] delayedEvalBshMethodArr, NameSpace nameSpace, boolean z) {
this.classModifiers = modifiers;
this.className = str;
if (str2 != null) {
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append(str2.replace('.', '/'));
stringBuffer.append("/");
stringBuffer.append(str);
this.fqClassName = stringBuffer.toString();
} else {
this.fqClassName = str;
}
if (cls == null) {
Class cls2 = class$java$lang$Object;
if (cls2 == null) {
cls2 = class$("java.lang.Object");
class$java$lang$Object = cls2;
}
cls = cls2;
}
this.superClass = cls;
this.superClassName = Type.getInternalName(cls);
this.interfaces = clsArr == null ? new Class[0] : clsArr;
this.vars = variableArr;
this.classStaticNameSpace = nameSpace;
this.superConstructors = cls.getDeclaredConstructors();
ArrayList arrayList = new ArrayList();
ArrayList arrayList2 = new ArrayList();
String baseName = getBaseName(str);
for (int i = 0; i < delayedEvalBshMethodArr.length; i++) {
if (delayedEvalBshMethodArr[i].getName().equals(baseName)) {
arrayList.add(delayedEvalBshMethodArr[i]);
} else {
arrayList2.add(delayedEvalBshMethodArr[i]);
}
}
this.constructors = (DelayedEvalBshMethod[]) arrayList.toArray(new DelayedEvalBshMethod[0]);
this.methods = (DelayedEvalBshMethod[]) arrayList2.toArray(new DelayedEvalBshMethod[0]);
try {
nameSpace.setLocalVariable(BSHCONSTRUCTORS, this.constructors, false);
this.isInterface = z;
} catch (UtilEvalError unused) {
throw new InterpreterError("can't set cons var");
}
}
static Class class$(String str) {
try {
return Class.forName(str);
} catch (ClassNotFoundException e) {
throw new NoClassDefFoundError(e.getMessage());
}
}
private static String descriptorToClassName(String str) {
return (str.startsWith("[") || !str.startsWith("L")) ? str : str.substring(1, str.length() - 1);
}
static void doSwitchBranch(int i, String str, String[] strArr, Label label, Label[] labelArr, int i2, CodeVisitor codeVisitor) {
codeVisitor.visitLabel(labelArr[i]);
codeVisitor.visitVarInsn(25, 0);
for (String str2 : strArr) {
String str3 = str2.equals("Z") ? "getBoolean" : str2.equals("B") ? "getByte" : str2.equals("C") ? "getChar" : str2.equals("S") ? "getShort" : str2.equals("I") ? "getInt" : str2.equals("J") ? "getLong" : str2.equals("D") ? "getDouble" : str2.equals("F") ? "getFloat" : "getObject";
codeVisitor.visitVarInsn(25, i2);
String str4 = str3.equals("getObject") ? OBJECT : str2;
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append("()");
stringBuffer.append(str4);
codeVisitor.visitMethodInsn(Constants.INVOKEVIRTUAL, "bsh/ClassGeneratorUtil$ConstructorArgs", str3, stringBuffer.toString());
if (str3.equals("getObject")) {
codeVisitor.visitTypeInsn(Constants.CHECKCAST, descriptorToClassName(str2));
}
}
codeVisitor.visitMethodInsn(Constants.INVOKESPECIAL, str, "<init>", getMethodDescriptor("V", strArr));
codeVisitor.visitJumpInsn(Constants.GOTO, label);
}
static void generateField(String str, String str2, int i, ClassWriter classWriter) {
classWriter.visitField(i, str, str2, null);
}
static void generateMethod(String str, String str2, String str3, String str4, String[] strArr, int i, ClassWriter classWriter) {
int i2;
StringBuffer stringBuffer;
String str5;
boolean z = (i & 8) != 0;
if (str4 == null) {
str4 = OBJECT;
}
CodeVisitor visitMethod = classWriter.visitMethod(i, str3, getMethodDescriptor(str4, strArr), null);
if ((i & 1024) != 0) {
return;
}
if (z) {
i2 = Constants.GETSTATIC;
stringBuffer = new StringBuffer();
str5 = BSHSTATIC;
} else {
visitMethod.visitVarInsn(25, 0);
i2 = Constants.GETFIELD;
stringBuffer = new StringBuffer();
str5 = BSHTHIS;
}
stringBuffer.append(str5);
stringBuffer.append(str);
visitMethod.visitFieldInsn(i2, str2, stringBuffer.toString(), "Lbsh/This;");
visitMethod.visitLdcInsn(str3);
generateParameterReifierCode(strArr, z, visitMethod);
visitMethod.visitInsn(1);
visitMethod.visitInsn(1);
visitMethod.visitInsn(1);
visitMethod.visitInsn(4);
Class cls = class$java$lang$Object;
if (cls == null) {
cls = class$("java.lang.Object");
class$java$lang$Object = cls;
}
Type type = Type.getType(cls);
Type[] typeArr = new Type[6];
Class cls2 = class$java$lang$String;
if (cls2 == null) {
cls2 = class$("java.lang.String");
class$java$lang$String = cls2;
}
typeArr[0] = Type.getType(cls2);
Class cls3 = array$Ljava$lang$Object;
if (cls3 == null) {
cls3 = class$("[Ljava.lang.Object;");
array$Ljava$lang$Object = cls3;
}
typeArr[1] = Type.getType(cls3);
Class cls4 = class$bsh$Interpreter;
if (cls4 == null) {
cls4 = class$("bsh.Interpreter");
class$bsh$Interpreter = cls4;
}
typeArr[2] = Type.getType(cls4);
Class cls5 = class$bsh$CallStack;
if (cls5 == null) {
cls5 = class$("bsh.CallStack");
class$bsh$CallStack = cls5;
}
typeArr[3] = Type.getType(cls5);
Class cls6 = class$bsh$SimpleNode;
if (cls6 == null) {
cls6 = class$("bsh.SimpleNode");
class$bsh$SimpleNode = cls6;
}
typeArr[4] = Type.getType(cls6);
typeArr[5] = Type.getType(Boolean.TYPE);
visitMethod.visitMethodInsn(Constants.INVOKEVIRTUAL, "bsh/This", "invokeMethod", Type.getMethodDescriptor(type, typeArr));
visitMethod.visitMethodInsn(Constants.INVOKESTATIC, "bsh/Primitive", "unwrap", "(Ljava/lang/Object;)Ljava/lang/Object;");
generateReturnCode(str4, visitMethod);
visitMethod.visitMaxs(20, 20);
}
public static void generateParameterReifierCode(String[] strArr, boolean z, CodeVisitor codeVisitor) {
codeVisitor.visitIntInsn(17, strArr.length);
codeVisitor.visitTypeInsn(Constants.ANEWARRAY, "java/lang/Object");
int i = !z ? 1 : 0;
for (int i2 = 0; i2 < strArr.length; i2++) {
String str = strArr[i2];
codeVisitor.visitInsn(89);
codeVisitor.visitIntInsn(17, i2);
if (isPrimitive(str)) {
int i3 = str.equals("F") ? 23 : str.equals("D") ? 24 : str.equals("J") ? 22 : 21;
codeVisitor.visitTypeInsn(Constants.NEW, "bsh/Primitive");
codeVisitor.visitInsn(89);
codeVisitor.visitVarInsn(i3, i);
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append("(");
stringBuffer.append(str);
stringBuffer.append(")V");
codeVisitor.visitMethodInsn(Constants.INVOKESPECIAL, "bsh/Primitive", "<init>", stringBuffer.toString());
} else {
codeVisitor.visitVarInsn(25, i);
}
codeVisitor.visitInsn(83);
i += (str.equals("D") || str.equals("J")) ? 2 : 1;
}
}
static void generatePlainReturnCode(String str, CodeVisitor codeVisitor) {
int i;
if (str.equals("V")) {
i = Constants.RETURN;
} else if (isPrimitive(str)) {
int i2 = Constants.IRETURN;
if (str.equals("D")) {
i2 = Constants.DRETURN;
} else if (str.equals("F")) {
i2 = Constants.FRETURN;
} else if (str.equals("J")) {
i2 = Constants.LRETURN;
}
codeVisitor.visitInsn(i2);
return;
} else {
codeVisitor.visitTypeInsn(Constants.CHECKCAST, descriptorToClassName(str));
i = Constants.ARETURN;
}
codeVisitor.visitInsn(i);
}
public static void generateReturnCode(String str, CodeVisitor codeVisitor) {
int i;
String str2;
String str3;
if (str.equals("V")) {
codeVisitor.visitInsn(87);
i = Constants.RETURN;
} else if (isPrimitive(str)) {
int i2 = Constants.IRETURN;
if (str.equals("B")) {
str2 = "java/lang/Byte";
str3 = "byteValue";
} else if (str.equals("I")) {
str2 = "java/lang/Integer";
str3 = "intValue";
} else if (str.equals("Z")) {
str2 = "java/lang/Boolean";
str3 = "booleanValue";
} else if (str.equals("D")) {
i2 = Constants.DRETURN;
str2 = "java/lang/Double";
str3 = "doubleValue";
} else if (str.equals("F")) {
i2 = Constants.FRETURN;
str2 = "java/lang/Float";
str3 = "floatValue";
} else if (str.equals("J")) {
i2 = Constants.LRETURN;
str2 = "java/lang/Long";
str3 = "longValue";
} else if (str.equals("C")) {
str2 = "java/lang/Character";
str3 = "charValue";
} else {
str2 = "java/lang/Short";
str3 = "shortValue";
}
codeVisitor.visitTypeInsn(Constants.CHECKCAST, str2);
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append("()");
stringBuffer.append(str);
codeVisitor.visitMethodInsn(Constants.INVOKEVIRTUAL, str2, str3, stringBuffer.toString());
codeVisitor.visitInsn(i2);
return;
} else {
codeVisitor.visitTypeInsn(Constants.CHECKCAST, descriptorToClassName(str));
i = Constants.ARETURN;
}
codeVisitor.visitInsn(i);
}
static void generateSuperDelegateMethod(String str, String str2, String str3, String[] strArr, int i, ClassWriter classWriter) {
if (str3 == null) {
str3 = OBJECT;
}
String methodDescriptor = getMethodDescriptor(str3, strArr);
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append(BSHSUPER);
stringBuffer.append(str2);
CodeVisitor visitMethod = classWriter.visitMethod(i, stringBuffer.toString(), methodDescriptor, null);
visitMethod.visitVarInsn(25, 0);
int i2 = 1;
for (int i3 = 0; i3 < strArr.length; i3++) {
if (isPrimitive(strArr[i3])) {
visitMethod.visitVarInsn(21, i2);
} else {
visitMethod.visitVarInsn(25, i2);
}
i2 += (strArr[i3].equals("D") || strArr[i3].equals("J")) ? 2 : 1;
}
visitMethod.visitMethodInsn(Constants.INVOKESPECIAL, str, str2, methodDescriptor);
generatePlainReturnCode(str3, visitMethod);
visitMethod.visitMaxs(20, 20);
}
static int getASMModifiers(Modifiers modifiers) {
if (modifiers == null) {
return 0;
}
int i = modifiers.hasModifier("public") ? 1 : 0;
if (modifiers.hasModifier("protected")) {
i += 4;
}
if (modifiers.hasModifier("static")) {
i += 8;
}
if (modifiers.hasModifier("synchronized")) {
i += 32;
}
return modifiers.hasModifier("abstract") ? i + 1024 : i;
}
private static String getBaseName(String str) {
int indexOf = str.indexOf("$");
return indexOf == -1 ? str : str.substring(indexOf + 1);
}
public static This getClassInstanceThis(Object obj, String str) {
try {
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append(BSHTHIS);
stringBuffer.append(str);
return (This) Primitive.unwrap(Reflect.getObjectFieldValue(obj, stringBuffer.toString()));
} catch (Exception e) {
StringBuffer stringBuffer2 = new StringBuffer();
stringBuffer2.append("Generated class: Error getting This");
stringBuffer2.append(e);
throw new InterpreterError(stringBuffer2.toString());
}
}
static This getClassStaticThis(Class cls, String str) {
try {
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append(BSHSTATIC);
stringBuffer.append(str);
return (This) Reflect.getStaticFieldValue(cls, stringBuffer.toString());
} catch (Exception e) {
StringBuffer stringBuffer2 = new StringBuffer();
stringBuffer2.append("Unable to get class static space: ");
stringBuffer2.append(e);
throw new InterpreterError(stringBuffer2.toString());
}
}
public static ConstructorArgs getConstructorArgs(String str, This r17, Object[] objArr, int i) {
BSHArguments bSHArguments;
String str2;
try {
DelayedEvalBshMethod[] delayedEvalBshMethodArr = (DelayedEvalBshMethod[]) r17.getNameSpace().getVariable(BSHCONSTRUCTORS);
int i2 = -1;
if (i == -1) {
return ConstructorArgs.DEFAULT;
}
DelayedEvalBshMethod delayedEvalBshMethod = delayedEvalBshMethodArr[i];
if (delayedEvalBshMethod.methodBody.jjtGetNumChildren() == 0) {
return ConstructorArgs.DEFAULT;
}
int i3 = 0;
SimpleNode simpleNode = (SimpleNode) delayedEvalBshMethod.methodBody.jjtGetChild(0);
if (simpleNode instanceof BSHPrimaryExpression) {
simpleNode = (SimpleNode) simpleNode.jjtGetChild(0);
}
if (simpleNode instanceof BSHMethodInvocation) {
BSHMethodInvocation bSHMethodInvocation = (BSHMethodInvocation) simpleNode;
BSHAmbiguousName nameNode = bSHMethodInvocation.getNameNode();
if (nameNode.text.equals("super") || nameNode.text.equals("this")) {
str2 = nameNode.text;
bSHArguments = bSHMethodInvocation.getArgsNode();
if (str2 != null) {
return ConstructorArgs.DEFAULT;
}
NameSpace nameSpace = new NameSpace(r17.getNameSpace(), "consArgs");
String[] parameterNames = delayedEvalBshMethod.getParameterNames();
Class[] parameterTypes = delayedEvalBshMethod.getParameterTypes();
int i4 = 0;
while (i4 < objArr.length) {
try {
nameSpace.setTypedVariable(parameterNames[i4], parameterTypes[i4], objArr[i4], (Modifiers) null);
i4++;
i2 = -1;
i3 = 0;
} catch (UtilEvalError e) {
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append("err setting local cons arg:");
stringBuffer.append(e);
throw new InterpreterError(stringBuffer.toString());
}
}
CallStack callStack = new CallStack();
callStack.push(nameSpace);
Interpreter interpreter = r17.declaringInterpreter;
try {
Object[] arguments = bSHArguments.getArguments(callStack, interpreter);
Class[] types = Types.getTypes(arguments);
Object[] unwrap = Primitive.unwrap(arguments);
Class classForName = interpreter.getClassManager().classForName(str);
if (classForName == null) {
StringBuffer stringBuffer2 = new StringBuffer();
stringBuffer2.append("can't find superclass: ");
stringBuffer2.append(str);
throw new InterpreterError(stringBuffer2.toString());
}
Constructor<?>[] declaredConstructors = classForName.getDeclaredConstructors();
if (str2.equals("super")) {
int findMostSpecificConstructorIndex = Reflect.findMostSpecificConstructorIndex(types, declaredConstructors);
if (findMostSpecificConstructorIndex != i2) {
return new ConstructorArgs(findMostSpecificConstructorIndex, unwrap);
}
throw new InterpreterError("can't find constructor for args!");
}
int length = delayedEvalBshMethodArr.length;
Class[][] clsArr = new Class[length];
while (i3 < length) {
clsArr[i3] = delayedEvalBshMethodArr[i3].getParameterTypes();
i3++;
}
int findMostSpecificSignature = Reflect.findMostSpecificSignature(types, clsArr);
if (findMostSpecificSignature != i2) {
int length2 = findMostSpecificSignature + declaredConstructors.length;
if (length2 != i + declaredConstructors.length) {
return new ConstructorArgs(length2, unwrap);
}
throw new InterpreterError("Recusive constructor call.");
}
throw new InterpreterError("can't find constructor for args 2!");
} catch (EvalError e2) {
StringBuffer stringBuffer3 = new StringBuffer();
stringBuffer3.append("Error evaluating constructor args: ");
stringBuffer3.append(e2);
throw new InterpreterError(stringBuffer3.toString());
}
}
}
bSHArguments = null;
str2 = null;
if (str2 != null) {
}
} catch (Exception e3) {
StringBuffer stringBuffer4 = new StringBuffer();
stringBuffer4.append("unable to get instance initializer: ");
stringBuffer4.append(e3);
throw new InterpreterError(stringBuffer4.toString());
}
}
static String getMethodDescriptor(String str, String[] strArr) {
StringBuffer stringBuffer = new StringBuffer("(");
for (String str2 : strArr) {
stringBuffer.append(str2);
}
StringBuffer stringBuffer2 = new StringBuffer();
stringBuffer2.append(")");
stringBuffer2.append(str);
stringBuffer.append(stringBuffer2.toString());
return stringBuffer.toString();
}
static String[] getTypeDescriptors(Class[] clsArr) {
int length = clsArr.length;
String[] strArr = new String[length];
for (int i = 0; i < length; i++) {
strArr[i] = BSHType.getTypeDescriptor(clsArr[i]);
}
return strArr;
}
public static void initInstance(Object obj, String str, Object[] objArr) {
NameSpace nameSpace;
Interpreter interpreter;
Class[] types = Types.getTypes(objArr);
CallStack callStack = new CallStack();
This classInstanceThis = getClassInstanceThis(obj, str);
if (classInstanceThis == null) {
This classStaticThis = getClassStaticThis(obj.getClass(), str);
interpreter = classStaticThis.declaringInterpreter;
try {
BSHBlock bSHBlock = (BSHBlock) classStaticThis.getNameSpace().getVariable(BSHINIT);
nameSpace = new NameSpace(classStaticThis.getNameSpace(), str);
nameSpace.isClass = true;
This r1 = nameSpace.getThis(interpreter);
try {
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append(BSHTHIS);
stringBuffer.append(str);
Reflect.getLHSObjectField(obj, stringBuffer.toString()).assign(r1, false);
nameSpace.setClassInstance(obj);
callStack.push(nameSpace);
try {
bSHBlock.evalBlock(callStack, interpreter, true, ClassGeneratorImpl.ClassNodeFilter.CLASSINSTANCE);
callStack.pop();
} catch (Exception e) {
StringBuffer stringBuffer2 = new StringBuffer();
stringBuffer2.append("Error in class initialization: ");
stringBuffer2.append(e);
throw new InterpreterError(stringBuffer2.toString());
}
} catch (Exception e2) {
StringBuffer stringBuffer3 = new StringBuffer();
stringBuffer3.append("Error in class gen setup: ");
stringBuffer3.append(e2);
throw new InterpreterError(stringBuffer3.toString());
}
} catch (Exception e3) {
StringBuffer stringBuffer4 = new StringBuffer();
stringBuffer4.append("unable to get instance initializer: ");
stringBuffer4.append(e3);
throw new InterpreterError(stringBuffer4.toString());
}
} else {
Interpreter interpreter2 = classInstanceThis.declaringInterpreter;
nameSpace = classInstanceThis.getNameSpace();
interpreter = interpreter2;
}
try {
BshMethod method = nameSpace.getMethod(getBaseName(str), types, true);
if (objArr.length > 0 && method == null) {
StringBuffer stringBuffer5 = new StringBuffer();
stringBuffer5.append("Can't find constructor: ");
stringBuffer5.append(str);
throw new InterpreterError(stringBuffer5.toString());
}
} catch (Exception e4) {
e = e4;
if (e instanceof TargetError) {
e = (Exception) ((TargetError) e).getTarget();
}
if (e instanceof InvocationTargetException) {
e = (Exception) ((InvocationTargetException) e).getTargetException();
}
e.printStackTrace(System.err);
StringBuffer stringBuffer6 = new StringBuffer();
stringBuffer6.append("Error in class initialization: ");
stringBuffer6.append(e);
throw new InterpreterError(stringBuffer6.toString());
}
}
private static boolean isPrimitive(String str) {
return str.length() == 1;
}
boolean classContainsMethod(Class cls, String str, String[] strArr) {
boolean z;
while (cls != null) {
Method[] declaredMethods = cls.getDeclaredMethods();
for (int i = 0; i < declaredMethods.length; i++) {
if (declaredMethods[i].getName().equals(str)) {
String[] typeDescriptors = getTypeDescriptors(declaredMethods[i].getParameterTypes());
int i2 = 0;
while (true) {
if (i2 >= typeDescriptors.length) {
z = true;
break;
} else if (!strArr[i2].equals(typeDescriptors[i2])) {
z = false;
break;
} else {
i2++;
}
}
if (z) {
return true;
}
}
}
cls = cls.getSuperclass();
}
return false;
}
public byte[] generateClass() {
int aSMModifiers = getASMModifiers(this.classModifiers) | 1;
if (this.isInterface) {
aSMModifiers |= 512;
}
int i = aSMModifiers;
String[] strArr = new String[this.interfaces.length];
int i2 = 0;
while (true) {
Class[] clsArr = this.interfaces;
if (i2 >= clsArr.length) {
break;
}
strArr[i2] = Type.getInternalName(clsArr[i2]);
i2++;
}
ClassWriter classWriter = new ClassWriter(false);
classWriter.visit(i, this.fqClassName, this.superClassName, strArr, "BeanShell Generated via ASM (www.objectweb.org)");
if (!this.isInterface) {
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append(BSHTHIS);
stringBuffer.append(this.className);
generateField(stringBuffer.toString(), "Lbsh/This;", 1, classWriter);
StringBuffer stringBuffer2 = new StringBuffer();
stringBuffer2.append(BSHSTATIC);
stringBuffer2.append(this.className);
generateField(stringBuffer2.toString(), "Lbsh/This;", 9, classWriter);
}
int i3 = 0;
while (true) {
Variable[] variableArr = this.vars;
if (i3 >= variableArr.length) {
break;
}
String typeDescriptor = variableArr[i3].getTypeDescriptor();
if (!this.vars[i3].hasModifier("private") && typeDescriptor != null) {
generateField(this.vars[i3].getName(), typeDescriptor, this.isInterface ? 25 : getASMModifiers(this.vars[i3].getModifiers()), classWriter);
}
i3++;
}
int i4 = 0;
boolean z = false;
while (true) {
DelayedEvalBshMethod[] delayedEvalBshMethodArr = this.constructors;
if (i4 >= delayedEvalBshMethodArr.length) {
break;
}
if (!delayedEvalBshMethodArr[i4].hasModifier("private")) {
generateConstructor(i4, this.constructors[i4].getParamTypeDescriptors(), getASMModifiers(this.constructors[i4].getModifiers()), classWriter);
z = true;
}
i4++;
}
if (!this.isInterface && !z) {
generateConstructor(-1, new String[0], 1, classWriter);
}
int i5 = 0;
while (true) {
DelayedEvalBshMethod[] delayedEvalBshMethodArr2 = this.methods;
if (i5 >= delayedEvalBshMethodArr2.length) {
return classWriter.toByteArray();
}
String returnTypeDescriptor = delayedEvalBshMethodArr2[i5].getReturnTypeDescriptor();
if (!this.methods[i5].hasModifier("private")) {
int aSMModifiers2 = getASMModifiers(this.methods[i5].getModifiers());
if (this.isInterface) {
aSMModifiers2 |= InputDeviceCompat.SOURCE_GAMEPAD;
}
generateMethod(this.className, this.fqClassName, this.methods[i5].getName(), returnTypeDescriptor, this.methods[i5].getParamTypeDescriptors(), aSMModifiers2, classWriter);
boolean z2 = (aSMModifiers2 & 8) > 0;
boolean classContainsMethod = classContainsMethod(this.superClass, this.methods[i5].getName(), this.methods[i5].getParamTypeDescriptors());
if (!z2 && classContainsMethod) {
generateSuperDelegateMethod(this.superClassName, this.methods[i5].getName(), returnTypeDescriptor, this.methods[i5].getParamTypeDescriptors(), aSMModifiers2, classWriter);
}
}
i5++;
}
}
void generateConstructor(int i, String[] strArr, int i2, ClassWriter classWriter) {
int length = strArr.length + 1;
CodeVisitor visitMethod = classWriter.visitMethod(i2, "<init>", getMethodDescriptor("V", strArr), null);
generateParameterReifierCode(strArr, false, visitMethod);
visitMethod.visitVarInsn(58, length);
generateConstructorSwitch(i, length, strArr.length + 2, visitMethod);
visitMethod.visitVarInsn(25, 0);
visitMethod.visitLdcInsn(this.className);
visitMethod.visitVarInsn(25, length);
visitMethod.visitMethodInsn(Constants.INVOKESTATIC, "bsh/ClassGeneratorUtil", "initInstance", "(Ljava/lang/Object;Ljava/lang/String;[Ljava/lang/Object;)V");
visitMethod.visitInsn(Constants.RETURN);
visitMethod.visitMaxs(20, 20);
}
void generateConstructorSwitch(int i, int i2, int i3, CodeVisitor codeVisitor) {
Label label = new Label();
Label label2 = new Label();
int length = this.superConstructors.length + this.constructors.length;
Label[] labelArr = new Label[length];
for (int i4 = 0; i4 < length; i4++) {
labelArr[i4] = new Label();
}
codeVisitor.visitLdcInsn(this.superClass.getName());
String str = this.fqClassName;
StringBuffer stringBuffer = new StringBuffer();
stringBuffer.append(BSHSTATIC);
stringBuffer.append(this.className);
codeVisitor.visitFieldInsn(Constants.GETSTATIC, str, stringBuffer.toString(), "Lbsh/This;");
codeVisitor.visitVarInsn(25, i2);
codeVisitor.visitIntInsn(16, i);
codeVisitor.visitMethodInsn(Constants.INVOKESTATIC, "bsh/ClassGeneratorUtil", "getConstructorArgs", "(Ljava/lang/String;Lbsh/This;[Ljava/lang/Object;I)Lbsh/ClassGeneratorUtil$ConstructorArgs;");
codeVisitor.visitVarInsn(58, i3);
codeVisitor.visitVarInsn(25, i3);
codeVisitor.visitFieldInsn(Constants.GETFIELD, "bsh/ClassGeneratorUtil$ConstructorArgs", "selector", "I");
codeVisitor.visitTableSwitchInsn(0, length - 1, label, labelArr);
int i5 = 0;
int i6 = 0;
while (true) {
Constructor[] constructorArr = this.superConstructors;
if (i5 >= constructorArr.length) {
break;
}
doSwitchBranch(i6, this.superClassName, getTypeDescriptors(constructorArr[i5].getParameterTypes()), label2, labelArr, i3, codeVisitor);
i5++;
i6++;
}
int i7 = 0;
while (true) {
DelayedEvalBshMethod[] delayedEvalBshMethodArr = this.constructors;
if (i7 >= delayedEvalBshMethodArr.length) {
codeVisitor.visitLabel(label);
codeVisitor.visitVarInsn(25, 0);
codeVisitor.visitMethodInsn(Constants.INVOKESPECIAL, this.superClassName, "<init>", "()V");
codeVisitor.visitLabel(label2);
return;
}
doSwitchBranch(i6, this.fqClassName, delayedEvalBshMethodArr[i7].getParamTypeDescriptors(), label2, labelArr, i3, codeVisitor);
i7++;
i6++;
}
}
}