# 2
package movementft;
import java.lang.*;
import java.lang.Math;
class firstmovement extends Object{
public void firstmovement(){
for (int a=0 ; a < 6 ; a++) {
System.out.println("work from another place / remote time "+a+"a");
thirddmovement movement = new thirddmovement();
}}
}
class seconddmovement extends Object{
public void seconddmovement(){
if(true)
{
thirddmovement movement = new thirddmovement();
System.out.print("work from another place / remote twice");
}
}
}
class thirddmovement extends Object{
public void thirddmovement(){
if(false)
{
seconddmovement movement = new seconddmovement();
System.out.print("work from another place / remote third");}
}
}
public class mainmovement extends Object{
public static void main(String[] args) {
// int a = fun(π + yπ¥ + ¥£¶×π);
double b = Math.sqrt(10-9);
double a = Math.sqrt(67);
double c = a+b+0.8;
System.out.println(c);
System.out.println(Math.random());
firstmovement ffm = new firstmovement();
seconddmovement movement = new seconddmovement();
firstmovement jbutton = new firstmovement();
seconddmovement jbuttonl = new seconddmovement();
ffm.firstmovement();
movement.seconddmovement();
//firstmovement.firstmovement();
//select array from table of 1
}
}
////
satu package class compilet
////
if(true==(4+4==8))
if(false==(4+4!=8))
package stadium45678;
import java.util.Arrays;
class object1mars {
String [] molecule = {"marsneon"};
static int f;
static int f1;
static int a = 55;
static int t = 66;
static int a1 = 55;
static int t1= 66;
static int equv;
//g = m{rgb}|x{marstemp} + c{marsneon} ;
//v = f1 - f ;
void frame (){
for (int a = f ; a < f1 ; a ++){
// g = rgb*marstemp+marsneon;
molecule[0] = "98" ;
}
}
void object1marscal(int equv){
f = a * t / 2;
f1 = a1 * t1 /2;
}
}
class object2venus {
String [] molecule = {"venusneon"};
static int f;
static int f1;
static int a = 505;
static int t = 606;
static int a1 = 505;
static int t1= 606;
//g = m{rgb}|x{venustemp} + c{venusneon} ;
//v = f1 - f ;
void frame (){
for (int a = f ; a < f1 ; a ++){
// g = rgb*venustemp+venusneon;
molecule[0] = "88" ;
}
}
void object1venuscal(int equv){
f = a * t / 2;
f1 = a1 * t1 /2;
}
}
class object3jupiter {
String [] molecule = {"jupiterneon"};
static int f;
static int f1;
static int a = 45;
static int t = 76;
static int a1 = 45;
static int t1= 76;
//g = m{rgb}|x{jupitertemp} + c{jupiterneon} ;
//v = f1 - f ;
void frame (){
for (int a = f ; a < f1 ; a ++){
// g = rgb*jupitertemp+jupiterneon;
molecule[0] = "78" ;
}
}
void object1jupitercal(int equv){
f = a * t / 2;
f1 = a1 * t1 /2;
}
}
class object4mercury {
String [] molecule = {"mercuryneon"};
static int f;
static int f1;
static int a = 95;
static int t = 63;
static int a1 = 95;
static int t1= 63;
//g = m{rgb}|x{mercurytemp} + c{mercuryneon} ;
//v = f1 - f ;
void frame (){
for (int a = f ; a < f1 ; a ++){
// g = rgb*mercurytemp+mercuryneon;
molecule[0] = "68" ;
}
}
void object1mercurycal(int equv){
f = a * t / 2;
f1 = a1 * t1 /2;
}
}
public class stadium45678 {
String [] constrain = new String[10];
static int v01;
static int v02;
static int v03;
static int v04;
public static void main(String[] args) {
System.out.println("i gonna test some times");
object1mars objectm = new object1mars();
objectm.frame();
object2venus objectv = new object2venus();
objectv.frame();
object3jupiter objectj = new object3jupiter();
objectj.frame();
object4mercury objectmy = new object4mercury();
objectmy.frame();
}
}
package blockside;
public class blockedside {
int temp;
int temp1;
int classnumber;
public static void main(String [] args)
{ }
}
2020-05-11 18:19