While learning Scala, I came across interesting concept of companion object. Companion object can used to define static methods in Scala. Need few clarifications in the below Spark Scala code in regard of companion object.
class BballStatCounter extends Serializable {
val stats: StatCounter = new StatCounter()
var missing: Long = 0
def add(x: Double): BballStatCounter = {
if (x.isNaN) {
missing += 1
} else {
stats.merge(x)
}
this
}
}
object BballStatCounter extends Serializable {
def apply(x: Double) = new BballStatCounter().add(x)
}
Above code is invoked using val stat3 = stats1.map(b=>BballStatCounter(b)).
What is nature of variables stats and missing declared in the
class? Is it similar to class attributes of Python?
What is the significance of apply method in here?
Here stats and missing are class attributes and each instance of BballStatCounter will have their own copy of them just like in Python.
In Scala the method apply serves a special purpose, if any object has a method apply and if that object is used as function calling notation like Obj() then the compiler replaces that with its apply method calling, like Obj.apply() .
The apply method is generally used as a constructor in a Class Companion object.
All the collection Classes in Scala has a Companion Object with apply method, thus you are able to create a list like : List(1,2,3,4)
Thus in your above code BballStatCounter(b) will get compiled to BballStatCounter.apply(b)
stats and missing are members of the class BcStatCounter. stats is a val so it cannot be changed once it has been defined. missing is a var so it is more like a traditional variable and can be updated, as it is in the add method. Every instance of BcStatCounter will have these members. (Unlike Python, you can't add or remove members from a Scala object)
The apply method is a shortcut that makes objects look like functions. If you have an object x with an apply method, you write x(...) and the compiler will automatically convert this to x.apply(...). In this case it means that you can call BballStatCounter(1.0) and this will call the apply method on the BballStatCounter object.
Neither of these questions is really about companion objects, this is just the normal Scala class framework.
Please note the remarks in the comments about asking multiple questions.
Here is how the code looks:
class B {
doStuff() //some API call
}
class A extends B {
val x = doStuff()
...
}
When I mock it as follows:
class ASpec {
val a = new A
when(a.doStuff()).thenReturn("stuff") <---this should just return "stuff" on the test
assert(true, a.doOtherStuff())
}
Problem is that its definitely still making the API call from doStuff(). How come its not returning "stuff" as specified?
You need to make A a mock. Right now, you're creating a real instance of A via new A. Instead, use mock(classOf[A]) (or, with ScalaTest's MockitoSugar, mock[A]):
val a = mock(classOf[A])
when(a.doStuff()).thenReturn("stuff")
when(a.doOtherStuff()).thenCallRealMethod() // Necessary since `A` is a mock
assert(a.doOtherStuff())
However, it's generally a Bad Idea™ to mock one method of a class so that you can test another. For one thing, you'll need to remember to specify the behavior of each method of A used by doOtherStuff (potentially using thenCallRealMethod on all of them). Prefer only mocking things external to your class. To accomplish this, you can either mock what doStuff depends on or move doStuff to another class.
I am attempting to test a function, however the function that I am testing makes a call to the traits function which I would like to stub. I can't seem to stub this function using ScalaMock, as I am unable to mock the object.
trait[A<:CommonReturn] commonTrait[A] {
def commonFunction(s:String):(String,String) = {
("Hello","World")
}
def testMe(s:String) : A
}
This trait is then extended by many Objects each implementing commonTrait and returning their specific sub-type of common return.
object ob extends commonTrait[ConcreteType] {
override def testMe(s:String){
val(x,y) = commonFunction(s)
val z = "unique logic"
ConcreteType(x,y,z)
}
}
I therefore am now trying to test ob.testMe however I can't seem to Mock the ob Object, therefore can't stub the commonFunction.
Is this due to my architecture? Or is it possible to mock an object with scalamock and use scalatest?
val mocked = mock[ob]
(mocked.commonFunction _).expect(*).returning("test","test")
This doesn't compile.
you cannot mock objects with ScalaMock, as a mock[X] is a subclass of X. Scala does not allow subclasses of objects.
If you need to test collaboration with this commonFunction then inheritance makes it rather difficult. I would consider designing this with Dependency Injection instead.
Is there a way to create an object of a given type that overrides a subset of methods and throws runtime exceptions for the rest of the methods?
It doesn't even need to have access to any implementation of the superclass. It just needs to have the same type at compiletime and runtime.
That pretty much is what a ScalaMock mock object does out of the box — methods you've set expectations on do whatever the expectations tell them to do, all others throw an ExpectationException.
What's your use-case?
As Paul said, ScalaMock is a good way to go.
But I wanted to point out that you're just describing basic inheritance:
class OriginalClass {
def methodToRun() = { println("called OriginalClass.methodToRun") }
def methodNotToRun() = { println("called OriginalClass.methodNotToRun") }
}
class MockOriginalClass extends OriginalClass {
override def methodToRun() = super.methodToRun()
override def methodNotToRun() = throw new RuntimeException("you weren't supposed to run this!")
}
Then, in your code, where you were expecting an OriginalClass object you can pass in a MockOriginalClass and it will throw errors when you call the wrong things.
I'm just going over some Scala tutorials on the Internet and have noticed in some examples an object is declared at the start of the example.
What is the difference between class and object in Scala?
tl;dr
class C defines a class, just as in Java or C++.
object O creates a singleton object O as instance of some anonymous class; it can be used to hold static members that are not associated with instances of some class.
object O extends T makes the object O an instance of trait T; you can then pass O anywhere, a T is expected.
if there is a class C, then object C is the companion object of class C; note that the companion object is not automatically an instance of C.
Also see Scala documentation for object and class.
object as host of static members
Most often, you need an object to hold methods and values/variables that shall be available without having to first instantiate an instance of some class.
This use is closely related to static members in Java.
object A {
def twice(i: Int): Int = 2*i
}
You can then call above method using A.twice(2).
If twice were a member of some class A, then you would need to make an instance first:
class A() {
def twice(i: Int): Int = 2 * i
}
val a = new A()
a.twice(2)
You can see how redundant this is, as twice does not require any instance-specific data.
object as a special named instance
You can also use the object itself as some special instance of a class or trait.
When you do this, your object needs to extend some trait in order to become an instance of a subclass of it.
Consider the following code:
object A extends B with C {
...
}
This declaration first declares an anonymous (inaccessible) class that extends both B and C, and instantiates a single instance of this class named A.
This means A can be passed to functions expecting objects of type B or C, or B with C.
Additional Features of object
There also exist some special features of objects in Scala.
I recommend to read the official documentation.
def apply(...) enables the usual method name-less syntax of A(...)
def unapply(...) allows to create custom pattern matching extractors
if accompanying a class of the same name, the object assumes a special role when resolving implicit parameters
A class is a definition, a description. It defines a type in terms of methods and composition of other types.
An object is a singleton -- an instance of a class which is guaranteed to be unique. For every object in the code, an anonymous class is created, which inherits from whatever classes you declared object to implement. This class cannot be seen from Scala source code -- though you can get at it through reflection.
There is a relationship between object and class. An object is said to be the companion-object of a class if they share the same name. When this happens, each has access to methods of private visibility in the other. These methods are not automatically imported, though. You either have to import them explicitly, or prefix them with the class/object name.
For example:
class X {
// class X can see private members of object X
// Prefix to call
def m(x: Int) = X.f(x)
// Import and use
import X._
def n(x: Int) = f(x)
private def o = 2
}
object X {
private def f(x: Int) = x * x
// object X can see private members of class X
def g(x: X) = {
import x._
x.o * o // fully specified and imported
}
}
An object has exactly one instance (you can not call new MyObject). You can have multiple instances of a class.
Object serves the same (and some additional) purposes as the static methods and fields in Java.
As has been explained by many, object defines a singleton instance. The one thing in the answers here that I believe is left out is that object serves several purposes.
It can be the companion object to a class/trait, containing what might be considered static methods or convenience methods.
It can act much like a module, containing related/subsidiary types and definitions, etc.
It can implement an interface by extending a class or one or more traits.
It can represent a case of a sealed trait that contains no data. In this respect, it's often considered more correct than a case class with no parameters. The special case of a sealed trait with only case object implementors is more or less the Scala version of an enum.
It can act as evidence for implicit-driven logic.
It introduces a singleton type.
It's a very powerful and general construct. What can be very confusing to Scala beginners is that the same construct can have vastly different uses. And an object can serve many of these different uses all at once, which can be even more confusing.
Defining an object in Scala is like defining a class in Java that has only static methods. However, in Scala an object can extend another superclass, implement interfaces, and be passed around as though it were an instance of a class. (So it's like the static methods on a class but better).
The formal difference -
you can not provide constructor parameters for Objects
Object is not a type - you may not create an instance with new operator. But it can have fields, methods, extend a superclass and mix in traits.
The difference in usage:
Scala doesn't have static methods or fields. Instead you should use object. You can use it with or without related class. In 1st case it's called a companion object. You have to:
use the same name for both class and object
put them in the same source file.
To create a program you should use main method in object, not in class.
object Hello {
def main(args: Array[String]) {
println("Hello, World!")
}
}
You also may use it as you use singleton object in java.
In scala, there is no static concept. So scala creates a singleton object to provide entry point for your program execution.
If you don't create singleton object, your code will compile successfully but will not produce any output. Methods declared inside Singleton Object are accessible globally. A singleton object can extend classes and traits.
Scala Singleton Object Example
object Singleton{
def main(args:Array[String]){
SingletonObject.hello() // No need to create object.
}
}
object SingletonObject{
def hello(){
println("Hello, This is Singleton Object")
}
}
Output:
Hello, This is Singleton Object
In scala, when you have a class with same name as singleton object, it is called companion class and the singleton object is called companion object.
The companion class and its companion object both must be defined in the same source file.
Scala Companion Object Example
class ComapanionClass{
def hello(){
println("Hello, this is Companion Class.")
}
}
object CompanoinObject{
def main(args:Array[String]){
new ComapanionClass().hello()
println("And this is Companion Object.")
}
}
Output:
Hello, this is Companion Class.
And this is Companion Object.
In scala, a class can contain:
1. Data member
2. Member method
3. Constructor Block
4. Nested class
5. Super class information etc.
You must initialize all instance variables in the class. There is no default scope. If you don't specify access scope, it is public. There must be an object in which main method is defined. It provides starting point for your program. Here, we have created an example of class.
Scala Sample Example of Class
class Student{
var id:Int = 0; // All fields must be initialized
var name:String = null;
}
object MainObject{
def main(args:Array[String]){
var s = new Student() // Creating an object
println(s.id+" "+s.name);
}
}
I am sorry, I am too late but I hope it will help you.
The object keyword creates a new singleton type, which is like a class that only has a single named instance. If you’re familiar with Java, declaring an object in Scala is a lot like creating a new instance of an anonymous class.
Scala has no equivalent to Java’s static keyword, and an object is often used in Scala where you might use a class with static members in Java.
Object is a class but it already has(is) an instance, so you can not call new ObjectName. On the other hand, Class is just type and it can be an instance by calling new ClassName().
A class is just like any other class in other languages. You define class just like any other language with some syntax difference.
class Person(val name: String)
val me = new Person("My name")
However, object is a class with single object only. This makes it interesting as it can be used to create static members of a class using companion object. This companion object has access to private members of the class definition and it has the same name as the class you're defining.
class Person(var name: String) {
import Person._
def hi(): String = sayHello(name)
}
object Person {
private def sayHello(name: String): String = "Hello " + name
}
val me = new Person("My name")
me.hi()
Also, noteworthy point is that object class is lazily created which is another important point. So, these are not instantiated unless they are needed in our code.
If you're defining connection creation for JDBC, you can create them inside object to avoid duplication just like we do in Java with singleton objects.
Scala class same as Java Class but scala not gives you any entry method in class, like main method in java. The main method associated with object keyword. You can think of the object keyword as creating a singleton object of a class that is defined implicitly.
more information check this article
class and object keyword in scala programming
The object is similar to the static class in Java to some extend, the static characteristic means the static class need not to create an object when putting to the JVM, it can be used by it's class name directly and the same instance(same data state) is shared wherever it is used.
If you are coming from java background the concept of class in scala is kind of similar to Java, but class in scala cant contain static members.
Objects in scala are singleton type you call methods inside it using object name, in scala object is a keyword and in java object is a instance of class