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481 lines
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Markdown
481 lines
13 KiB
Markdown
---
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language: Scala
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filename: learnscala.scala
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contributors:
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- ["George Petrov", "http://github.com/petrovg"]
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- ["Dominic Bou-Samra", "http://dbousamra.github.com"]
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- ["Geoff Liu", "http://geoffliu.me"]
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filename: learn.scala
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---
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Scala - the scalable language
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```scala
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/*
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Set yourself up:
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1) Download Scala - http://www.scala-lang.org/downloads
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2) unzip/untar in your favourite location and put the bin subdir on the path
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3) Start a scala REPL by typing scala. You should see the prompt:
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scala>
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This is the so called REPL (Read-Eval-Print Loop). You may type any valid
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Scala expression into it, and the result will be printed. We will explain what
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Scala files look like further into this tutorial, but for now, let's start
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with some basics.
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*/
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#################################################
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## 1. Basics
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#################################################
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// Single line comments start with two forward slashes
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/*
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Multi line comments, as you can already see from above, look like this.
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*/
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// Printing, and forcing a new line on the next print
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println("Hello world!")
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println(10)
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// Printing, without forcing a new line on next print
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print("Hello world")
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// Declaring values is done using either var or val.
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// val declarations are immutable, whereas var's are mutable. Immutability is
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// a good thing.
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val x = 10 // x is now 10
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x = 20 // error: reassignment to val
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var y = 10
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y = 20 // y is now 20
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/*
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Scala is a statically typed language, yet note that in the above declarations, we did not specify
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a type. This is due to a language feature called type inference. In most cases, Scala compiler can
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guess what the type of a variable is, so you don't have to type it every time. We can explicitly
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declare the type of a variable like so:
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*/
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val z: Int = 10
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val a: Double = 1.0
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val b: Double = 10 // Notice automatic conversion from Int to Double, result is 10.0, not 10
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// Boolean values
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true
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false
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// Boolean operations
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!true // false
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!false // true
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true == false // false
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10 > 5 // true
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// Math is as per usual
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1 + 1 // 2
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2 - 1 // 1
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5 * 3 // 15
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6 / 2 // 3
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6 / 4 // 1
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6.0 / 4 // 1.5
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// Evaluating an expression in the REPL gives you the type and value of the result
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1 + 7
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/* The above line results in:
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scala> 1 + 7
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res29: Int = 8
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This means the result of evaluating 1 + 7 is an object of type Int with a
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value of 8
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Note that "res29" is a sequentially generated variable name to store the results of the
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expressions you typed, your output may differ.
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*/
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"Scala strings are surrounded by double quotes"
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'a' // A Scala Char
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'Single quote strings don't exist' // Error
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// Strings have the usual Java methods defined on them
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"hello world".length
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"ABCDEF".substring(2, 6)
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"ABCDEF".replace("C", "3")
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// They also have some extra Scala methods. See also: scala.collection.immutable.StringOps
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"hello world".take(5)
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// String interpolation: notice the prefix "s"
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val n = 45
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s"We have $n apples" // => "We have 45 apples"
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// Expressions inside interpolated strings are also possible
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val a = Array(11, 9, 6)
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s"My second daughter is ${a(0) - a(2)} years old." // => "My second daughter is 5 years old."
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s"We have double the amount of ${n / 2.0} in apples." // => "We have double the amount of 22.5 in apples."
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s"Power of 2: ${math.pow(2, 2)}" // => "Power of 2: 4"
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// Formatting with interpolated strings with the prefix "f"
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f"Power of 5: ${math.pow(5, 2)}%1.0f" // "Power of 5: 25"
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f"Square root of 122: ${math.sqrt(122)}%1.4f" // "Square root of 122: 11.0454"
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// Raw strings, ignoring special characters.
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raw"New line feed: \n. Carriage return: \r." // => "New line feed: \n. Carriage return: \r."
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// Some characters need to be "escaped", e.g. a double quote inside a string:
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"They stood outside the \"Rose and Crown\"" // => "They stood outside the "Rose and Crown""
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// Triple double-quotes let strings span multiple rows and contain quotes
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val html = """<form id="daform">
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<p>Press belo', Joe</p>
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<input type="submit">
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</form>"""
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#################################################
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## 2. Functions
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#################################################
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// The next line gives you a function that takes an Int and returns it squared
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(x:Int) => x * x
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// You can assign this function to an identifier, like this:
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val sq = (x:Int) => x * x
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/* The above says this
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sq: Int => Int = <function1>
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Which means that this time we gave an explicit name to the value - sq is a
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function that take an Int and returns Int.
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sq can be executed as follows:
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*/
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sq(10) // Gives you this: res33: Int = 100.
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// The colon explicitly defines the type of a value, in this case a function
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// taking an Int and returning an Int.
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val add10: Int => Int = _ + 10
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#################################################
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## 3. Flow Control
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#################################################
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1 to 5
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val r = 1 to 5
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r.foreach( println )
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r foreach println
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// NB: Scala is quite lenient when it comes to dots and brackets - study the
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// rules separately. This helps write DSLs and APIs that read like English
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(5 to 1 by -1) foreach ( println )
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// A while loops
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var i = 0
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while (i < 10) { println("i " + i); i+=1 }
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while (i < 10) { println("i " + i); i+=1 } // Yes, again. What happened? Why?
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i // Show the value of i. Note that while is a loop in the classical sense -
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// it executes sequentially while changing the loop variable. while is very
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// fast, faster that Java // loops, but using the combinators and
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// comprehensions above is easier to understand and parallelize
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// A do while loop
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do {
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println("x is still less than 10");
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x += 1
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} while (x < 10)
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// Tail recursion is an idiomatic way of doing recurring things in Scala.
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// Recursive functions need an explicit return type, the compiler can't infer it.
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// Here it's Unit.
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def showNumbersInRange(a:Int, b:Int):Unit = {
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print(a)
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if (a < b)
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showNumbersInRange(a + 1, b)
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}
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// Conditionals
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val x = 10
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if (x == 1) println("yeah")
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if (x == 10) println("yeah")
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if (x == 11) println("yeah")
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if (x == 11) println ("yeah") else println("nay")
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println(if (x == 10) "yeah" else "nope")
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val text = if (x == 10) "yeah" else "nope"
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var i = 0
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while (i < 10) { println("i " + i); i+=1 }
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#################################################
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## 4. Data Structures
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#################################################
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val a = Array(1, 2, 3, 5, 8, 13)
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a(0)
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a(3)
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a(21) // Throws an exception
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val m = Map("fork" -> "tenedor", "spoon" -> "cuchara", "knife" -> "cuchillo")
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m("fork")
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m("spoon")
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m("bottle") // Throws an exception
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val safeM = m.withDefaultValue("no lo se")
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safeM("bottle")
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val s = Set(1, 3, 7)
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s(0)
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s(1)
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/* Look up the documentation of map here -
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* http://www.scala-lang.org/api/current/index.html#scala.collection.immutable.Map
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* and make sure you can read it
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*/
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// Tuples
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(1, 2)
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(4, 3, 2)
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(1, 2, "three")
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(a, 2, "three")
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// Why have this?
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val divideInts = (x:Int, y:Int) => (x / y, x % y)
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divideInts(10,3) // The function divideInts gives you the result and the remainder
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// To access the elements of a tuple, use _._n where n is the 1-based index of
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// the element
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val d = divideInts(10,3)
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d._1
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d._2
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#################################################
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## 5. Object Oriented Programming
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#################################################
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/*
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Aside: Everything we've done so far in this tutorial has been simple
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expressions (values, functions, etc). These expressions are fine to type into
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the command-line interpreter for quick tests, but they cannot exist by
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themselves in a Scala file. For example, you cannot have just "val x = 5" in
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a Scala file. Instead, the only top-level constructs allowed in Scala are:
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- objects
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- classes
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- case classes
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- traits
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And now we will explain what these are.
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*/
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class Dog {
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//A method called bark, returning a String
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def bark: String = {
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// the body of the method
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"Woof, woof!"
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}
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}
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// Classes can contain nearly any other construct, including other classes,
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// functions, methods, objects, case classes, traits etc.
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// Case classes
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case class Person(name:String, phoneNumber:String)
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Person("George", "1234") == Person("Kate", "1236")
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// Objects and traits coming soon!
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#################################################
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## 6. Pattern Matching
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#################################################
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val me = Person("George", "1234")
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me match { case Person(name, number) => {
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"We matched someone : " + name + ", phone : " + number }}
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me match { case Person(name, number) => "Match : " + name; case _ => "Hm..." }
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me match { case Person("George", number) => "Match"; case _ => "Hm..." }
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me match { case Person("Kate", number) => "Match"; case _ => "Hm..." }
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me match { case Person("Kate", _) => "Girl"; case Person("George", _) => "Boy" }
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val kate = Person("Kate", "1234")
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kate match { case Person("Kate", _) => "Girl"; case Person("George", _) => "Boy" }
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// Regular expressions
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val email = "(.*)@(.*)".r // Invoking r on String makes it a Regex
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val serialKey = """(\d{5})-(\d{5})-(\d{5})-(\d{5})""".r // Using verbatim (multiline) syntax
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val matcher = (value: String) => {
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println(value match {
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case email(name, domain) => s"It was an email: $name"
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case serialKey(p1, p2, p3, p4) => s"Serial key: $p1, $p2, $p3, $p4"
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case _ => s"No match on '$value'" // default if no match found
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})
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}
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matcher("mrbean@pyahoo.com") // => "It was an email: mrbean"
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matcher("nope..") // => "No match on 'nope..'"
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matcher("52917") // => "No match on '52917'"
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matcher("52752-16432-22178-47917") // => "Serial key: 52752, 16432, 22178, 47917"
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#################################################
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## 7. Functional Programming
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#################################################
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// Scala allows methods and functions to return, or take as parameters, other
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// functions or methods.
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List(1, 2, 3) map add10 // List(11, 12, 13) - add10 is applied to each element
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// Anonymous functions can be used instead of named functions:
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List(1, 2, 3) map (x => x + 10)
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// And the underscore symbol, can be used if there is just one argument to the
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// anonymous function. It gets bound as the variable
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List(1, 2, 3) map (_ + 10)
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// If the anonymous block AND the function you are applying both take one
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// argument, you can even omit the underscore
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List("Dom", "Bob", "Natalia") foreach println
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// Combinators
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s.map(sq)
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val sSquared = s. map(sq)
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sSquared.filter(_ < 10)
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sSquared.reduce (_+_)
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// The filter function takes a predicate (a function from A -> Boolean) and
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// selects all elements which satisfy the predicate
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List(1, 2, 3) filter (_ > 2) // List(3)
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List(
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Person(name = "Dom", age = 23),
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Person(name = "Bob", age = 30)
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).filter(_.age > 25) // List(Person("Bob", 30))
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// Scala a foreach method defined on certain collections that takes a type
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// returning Unit (a void method)
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aListOfNumbers foreach (x => println(x))
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aListOfNumbers foreach println
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// For comprehensions
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for { n <- s } yield sq(n)
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val nSquared2 = for { n <- s } yield sq(n)
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for { n <- nSquared2 if n < 10 } yield n
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for { n <- s; nSquared = n * n if nSquared < 10} yield nSquared
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/* NB Those were not for loops. The semantics of a for loop is 'repeat', whereas
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a for-comprehension defines a relationship between two sets of data. */
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#################################################
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## 8. Implicits
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#################################################
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Coming soon!
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#################################################
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## 9. Misc
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#################################################
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// Importing things
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import scala.collection.immutable.List
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// Import all "sub packages"
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import scala.collection.immutable._
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// Import multiple classes in one statement
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import scala.collection.immutable.{List, Map}
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// Rename an import using '=>'
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import scala.collection.immutable.{ List => ImmutableList }
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// Import all classes, except some. The following excludes Map and Set:
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import scala.collection.immutable.{Map => _, Set => _, _}
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// Your programs entry point is defined in an scala file using an object, with a
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// single method, main:
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object Application {
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def main(args: Array[String]): Unit = {
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// stuff goes here.
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}
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}
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// Files can contain multiple classes and objects. Compile with scalac
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// Input and output
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// To read a file line by line
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import scala.io.Source
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for(line <- Source.fromFile("myfile.txt").getLines())
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println(line)
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// To write a file use Java's PrintWriter
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val writer = new PrintWriter("myfile.txt")
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writer.write("Writing line for line" + util.Properties.lineSeparator)
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writer.write("Another line here" + util.Properties.lineSeparator)
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writer.close()
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```
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## Further resources
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[Scala for the impatient](http://horstmann.com/scala/)
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[Twitter Scala school](http://twitter.github.io/scala_school/)
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[The scala documentation](http://docs.scala-lang.org/)
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[Try Scala in your browser](http://scalatutorials.com/tour/)
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Join the [Scala user group](https://groups.google.com/forum/#!forum/scala-user)
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