fernflower/testData/results/TestClassLambda.dec

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package pkg;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import java.util.OptionalInt;
import java.util.function.Consumer;
import java.util.function.IntBinaryOperator;
import java.util.function.Predicate;
import java.util.function.Supplier;
public class TestClassLambda {
public int field = 0;
public void testLambda() {
List var1 = Arrays.asList(new Integer[]{Integer.valueOf(1), Integer.valueOf(2), Integer.valueOf(3), Integer.valueOf(4), Integer.valueOf(5), Integer.valueOf(6), Integer.valueOf(7)});
int var2 = (int)Math.random();
var1.forEach((var2x) -> {
int var3 = 2 * var2x.intValue();
System.out.println(var3 + var2 + this.field);
});
}
public void testLambda1() {
int var1 = (int)Math.random();
Runnable var2 = () -> {
System.out.println("hello1" + var1);
};
Runnable var3 = () -> {
System.out.println("hello2" + var1);
};
}
public void testLambda2() {
reduce((var0, var1) -> {
return Math.max(var0, var1);
});
}
public void testLambda3() {
reduce(Math::max);
}
public void testLambda4() {
reduce(TestClassLambda::localMax);
}
public void testLambda5() {
String var1 = "abcd";
function(var1::toString);
}
public void testLambda6() {
ArrayList var1 = new ArrayList();
int var2 = var1.size() * 2;
int var3 = var1.size() * 5;
var1.removeIf((var2x) -> {
return var2 >= var2x.length() && var2x.length() <= var3;
});
}
public static OptionalInt reduce(IntBinaryOperator var0) {
return null;
}
public static String function(Supplier<String> var0) {
return (String)var0.get();
}
public static int localMax(int var0, int var1) {
return 0;
}
}