Scala
I'll start with a disclaimer:
- These are notes written by an experienced Java dev, thus some level of basic programming knowledge is required
- I cannot possibly cover every unique feature of Scala, only what's most important to me
- For a better tutorial check out the Scala docs or RocktheJVM
Also I'll be focusing on Scala 2, rather than the most recent release of Scala 3. There are big differences in the syntax but the functionality remains mostly the same. My reasoning for this is the Government dataset I use is frozen on Scala 2.12.15. More tech-fluent companies may be using Scala 3, but those of us in healthcare and government should get comfortable with v2.
Overview of Types
Scala has types, similar to most other JVM based languages. However, one thing that is specific to Scala is starting variable declaration with val or var.
val someValue: Int = 42 // Immutatble
var someBool = false // mutable, type inferredval is similar to final in Java, the variable is now a constant. While var can be reassigned to the same type. Type is usually optional as it can be inferred, but it's often recommended to use the type for ease of reading.
Besides this feature, the basic types are pretty much the same as in Java. You got your String, Int, Float, Boolean, etc. However, there are several ways to represent nothingness in Scala:
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Nil - Used for representing empty lists, or collections of zero length. For sets you can use Set.empty
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None - One of two subclasses of the Optional type, the other being Some. Very well supported by the Scala collections
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Unit - Equivalent to Java's void which is used for functions that don't have a return type
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Nothing - A trait. It is a subtype of all other types, but supertype of nothing. It is like the leaf of a tree. No instances of Nothing
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Null - A trait. Not recommended to be used
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null - An instance of the trait, similarly used as the Java Null. Not recommended to be used
The best practice when coding that could return null, is to use the Optional type.
Collections
A Scala Tuple is an immutable value that contains a fixed number of elements, which each has its own type.
val tuple1 = ("Test1", 25) // inferred type is (String, Int)
println(tuple1._1) // "Test1"
println(tuple2._2) // 25Lists and Arrays must be all of the same type. A Scala List is an immutable data structure, ex. val sample: List[String] = List("type1", ...). While an Array is mutable, ex. val sample: Array[String] ] ["type1", ...]. Lists are usually preferred as they take less memory. The Java equivalent is LinkedList vs ArrayList.
Another way to construct a list is to use the "element1 :: element2 :: ... :: Nil" operator in Scala:
1 :: Nil // A list with only 1Symbols
The biggest complaint I have about Scala is the rampant use of symbols without a proper appendix explaining what they do. I found this blogpost to be more informative than the actual docs in this area. I'll break down the most popular symbols:
- _ is widely used as the wildcard and pattern matching unknown symbols. It can also be thought of as the current or default value
- + is for adding a single element
- ++ is for concatenating two collections
- : is for declaring associativity (type)
- :: represents prepending a single element or tuple of elements to a List
- ::: represents prepending a list with another list
Functional Programming
Scala is a functional programming language. While in most languages we think about the flow of instructions in sequence, but in a functional language we want to think in terms of composing the values through expressions. For example, observe the if expression below:
val ifExpression = if (testValue > 42) "String1" else "String2" // if-expressionThis is much more readable than other ternary operators in other langauges, this allows for cleaner chaining:
val ifExpression = if (testValue > 42) "String1"
else if (testValue == 0) "String2"
else "String3" // chained if-expression