I'm trying to inject some Scala code into my existing Java app. (So, being said, I want some more fun).
I create a singleton stuff in Scala
ScalaPower.scala
package org.fun
class ScalaPower
object ScalaPower{
def showMyPower(time:Int) = {
(0 to time-1).mkString(", ")
}
}
Now, inside OldJava.java
class OldJava {
public void demo(){
System.out.println(?)
}
}
What should I fill in ?
so that Java will call the showMyPower method?
I tried both org.fun.ScalaPower.showMyPower(10)
and org.fun.ScalaPower.getInstance().showMyPower(10)
but none work.
(Decompile the class file using Jad show me nothing but nonsense code.)
Edit
I remove the class ScalaPower
declaration and scala produce the static method as expected. (call to org.fun.ScalaPower.showMyPower(10)
just works).
Wonder if it's a bug in scala compiler or not
Calling methods on Scala instances work exactly as in Java.ScalaClass scalaClass = new ScalaClass(true); assertEquals(2, scalaClass. plus(1, 1)); Note that Scala classes cannot have static methods. The convention is to put methods of static nature on companion objects.
In Scala, a singleton object can extend class and traits. In Scala, a main method is always present in singleton object. The method in the singleton object is accessed with the name of the object(just like calling static method in Java), so there is no need to create an object to access this method.
A singleton object named the same as a class is called a companion object. Also a companion object must be defined inside the same source file as the class.
It's usually better to access the singleton directly from its own class.
In this case:
org.fun.ScalaPower$.MODULE$.showMyPower(10);
Without going too much into the implementation details, Scala differentiates namespaces between Object and Class/Trait. This means they can use the same name. However, an object has a class, and therefore needs a mangled name on the JVM. The current Scala conventions is to add a $ at the end of the module name (for top-level modules). If the object is defined in a class, I believe the convention is OuterClass$ModuleName$. To enforce the singleton property of the ScalaPower module, there is also a static MODULE$ member of the ModuleName$ class. This is initialised at class-load time, ensuring that there is only one instance. A side effect of this is that you should not do any sort of locking in a module's constructor.
In any case, Scala also has built into it a "make things nicer for Java" static-forwarders mechanism. This is where it writes static methods on the ScalaPower class that just call ScalaPower$.MODULE$.someMethod(). If you also define a companion class, the forwarders that could be generated are limited, as you are not allowed to have naming conflicts with static and instance-level methods on the JVM. I think in 2.8.0 this means if you have a companion object, you lose your static forwarders.
In this case a "best practice" would be to always use the ScalaPower$.MODULE$ reference instead of a static forwarder, as the forwarder could disappear with modifications to the ScalaPower class.
EDIT: Typo
I think this indirectly covers it:
Companion Objects and Java Static Methods
There is one more thing to know about companion objects. Whenever you define a main method to use as the entry point for an application, Scala requires you to put it in an object. However, at the time of this writing, main methods cannot be defined in a companion object. Because of implementation details in the generated code, the JVM won’t find the main method. This issue may be resolved in a future release. For now, you must define any main method in a singleton object (i.e., a “non-companion” object) [ScalaTips]. Consider the following example of a simple Person class and companion object that attempts to define main.
As found here: http://programming-scala.labs.oreilly.com/ch06.html
In short because your Object is a companion object (has a companion class) you can't call it like you expect. As you found if you get rid of the class it will work.
What were the errors you were getting? Using your Scala sample and the following Java class:
cat test.java
:
import org.fun.*;
public class test {
public static void main(String args[]) {
System.out.println("show my power: " + ScalaPower.showMyPower(3));
}
}
And running it as follows:
java -cp .:<path-to/scala/install-dir>/lib/scala-library.jar test
gives my the output:
show my power: 0, 1, 2
Keep in mind that the stock javap
tool can be used to see what the Scala compiler produces. It doesn't directly answer your question, of course, but when what you need is just to be reminded of the code generation patterns, it's sufficient.
After doing
class ScalaPower
object ScalaPower{
def showMyPower(time:Int) = {
(0 to time-1).mkString(", ")
}
}
ScalaPower.showMyPower(10)
works as expected.
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