I am new to Scala and heard a lot that everything is an object in Scala. What I don't get is what's the advantage of "everything's an object"? What are things that I cannot do if everything is not an object? Examples are welcome. Thanks
The advantage of having "everything" be an object is that you have far fewer cases where abstraction breaks.
For example, methods are not objects in Java. So if I have two strings, I can
So we have abstracted away string identity in our operation of making something upper case. But what if we want to abstract away the identity of the operation--that is, we do something to a String that gives back another String but we want to abstract away what the details are? Now we're stuck, because methods aren't objects in Java.
In Scala, methods can be converted to functions, which are objects. For instance:
Now we have abstracted the idea of performing some string transformation on nonempty strings.
And we can make lists of the operations and such and pass them around, if that's what we need to do.
There are other less essential cases (object vs. class, primitive vs. not, value classes, etc.), but the big one is collapsing the distinction between method and object so that passing around and abstracting over functionality is just as easy as passing around and abstracting over data.
The advantage is that you don't have different operators that follow different rules within your language. For example, in Java to perform operations involving objects, you use the
the main differences is that the
Scala circumvents the inflexibility of the
results in two objects being created (a 5 object and a 7 object) the plus method of the 5 object being called with the parameter 7 (if my scala memory serves me correctly) and a "12" object being returned as the value of the
This everything is an object has a lot of benefits in a functional programming environment, for example, blocks of code now are object too, making it possible to pass back and forth blocks of code (without names) as parameters, yet still be bound to strict type checking (the block of code only returns
When it boils down to it, it makes some kinds of solutions very easy to implement, and often the inefficiencies are mitigated by the lack of need to handle "move into primitives, manipulate, move out of primitives" marshalling code.
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One specific advantage that comes to my mind (since you asked for examples) is what in Java are primitive types (
Then, you could call this method from any
This way you can 'pimp' basic types to adapt them to your needs
In addition to the points made by others, I always emphasize that the uniform treatment of all values in Scala is in part an illusion. For the most part it is a very welcome illusion. And Scala is very smart to use real JVM primitives as much as possible and to perform automatic transformations (usually referred to as boxing and unboxing) only as much as necessary.
However, if the dynamic pattern of application of automatic boxing and unboxing is very high, there can be undesirable costs (both memory and CPU) associated with it. This can be partially mitigated with the use of specialization, which creates special versions of generic classes when particular type parameters are of (programmer-specified) primitive types. This avoids boxing and unboxing but comes at the cost of more