Merge pull request #2012 from cbess/master

[swift/en] Update examples to Swift 2.1

swift.html.markdown

@@ -32,7 +32,7 @@ import UIKit
 
 // In Swift 2, println and print were combined into one print method. Print automatically appends a new line.
 print("Hello, world") // println is now print
-print("Hello, world", appendNewLine: false) // printing without appending a newline
+print("Hello, world", terminator: "") // printing without appending a newline
 
 // variables (var) value can change after being set
 // constants (let) value can NOT be changed after being set
@@ -149,6 +149,14 @@ var explicitEmptyMutableDictionary: [String: Float] = [:] // same as above
 // MARK: Control Flow
 //
 
+// Condition statements support "where" clauses, which can be used
+// to help provide conditions on optional values.
+// Both the assignment and the "where" clause must pass.
+let someNumber = Optional<Int>(7)
+if let num = someNumber where num > 3 {
+    print("num is greater than 3")
+}
+
 // for loop (array)
 let myArray = [1, 1, 2, 3, 5]
 for value in myArray {
@@ -178,8 +186,8 @@ while i < 1000 {
     i *= 2
 }
 
-// do-while loop
-do {
+// repeat-while loop
+repeat {
     print("hello")
 } while 1 == 2
 
@@ -198,7 +206,6 @@ default: // required (in order to cover all possible input)
     let vegetableComment = "Everything tastes good in soup."
 }
 
-
 //
 // MARK: Functions
 //
@@ -221,10 +228,10 @@ default: // required (in order to cover all possible input)
 func greet(name: String, day: String) -> String {
     return "Hello \(name), today is \(day)."
 }
-greet("Bob", "Tuesday")
+greet("Bob", day: "Tuesday")
 
 // similar to above except for the function parameter behaviors
-func greet2(#requiredName: String, externalParamName localParamName: String) -> String {
+func greet2(requiredName requiredName: String, externalParamName localParamName: String) -> String {
     return "Hello \(requiredName), the day is \(localParamName)"
 }
 greet2(requiredName: "John", externalParamName: "Sunday")
@@ -240,11 +247,33 @@ let (_, price1, _) = pricesTuple // price1 == 3.69
 print(price1 == pricesTuple.1) // true
 print("Gas price: \(price)")
 
+// Labeled/named tuple params
+func getGasPrices2() -> (lowestPrice: Double, highestPrice: Double, midPrice: Double) {
+    return (1.77, 37.70, 7.37)
+}
+let pricesTuple2 = getGasPrices2()
+let price2 = pricesTuple2.lowestPrice
+let (_, price3, _) = pricesTuple2
+print(pricesTuple2.highestPrice == pricesTuple2.1) // true
+print("Highest gas price: \(pricesTuple2.highestPrice)")
+
+// guard statements
+func testGuard() {
+    // guards provide early exits or breaks, placing the error handler code near the conditions.
+    // it places variables it declares in the same scope as the guard statement.
+    guard let aNumber = Optional<Int>(7) else {
+        return
+    }
+
+    print("number is \(aNumber)")
+}
+testGuard()
+
 // Variadic Args
 func setup(numbers: Int...) {
     // its an array
-    let number = numbers[0]
-    let argCount = numbers.count
+    let _ = numbers[0]
+    let _ = numbers.count
 }
 
 // Passing and returning functions
@@ -265,7 +294,7 @@ func swapTwoInts(inout a: Int, inout b: Int) {
 }
 var someIntA = 7
 var someIntB = 3
-swapTwoInts(&someIntA, &someIntB)
+swapTwoInts(&someIntA, b: &someIntB)
 print(someIntB) // 7
 
 
@@ -293,23 +322,17 @@ numbers = numbers.map({ number in 3 * number })
 print(numbers) // [3, 6, 18]
 
 // Trailing closure
-numbers = sorted(numbers) { $0 > $1 }
+numbers = numbers.sort { $0 > $1 }
 
 print(numbers) // [18, 6, 3]
 
-// Super shorthand, since the < operator infers the types
-
-numbers = sorted(numbers, < )
-
-print(numbers) // [3, 6, 18]
-
 //
 // MARK: Structures
 //
 
 // Structures and classes have very similar capabilities
 struct NamesTable {
-    let names = [String]()
+    let names: [String]
 
     // Custom subscript
     subscript(index: Int) -> String {
@@ -353,6 +376,11 @@ internal class Rect: Shape {
         }
     }
 
+    // Computed properties must be declared as `var`, you know, cause' they can change
+    var smallestSideLength: Int {
+        return self.sideLength - 1
+    }
+
     // Lazily load a property
     // subShape remains nil (uninitialized) until getter called
     lazy var subShape = Rect(sideLength: 4)
@@ -457,9 +485,10 @@ enum Suit {
 // when the variable is explicitly declared
 var suitValue: Suit = .Hearts
 
-// Non-Integer enums require direct raw value assignments
+// String enums can have direct raw value assignments
+// or their raw values will be derived from the Enum field
 enum BookName: String {
-    case John = "John"
+    case John
     case Luke = "Luke"
 }
 print("Name: \(BookName.John.rawValue)")
@@ -503,7 +532,7 @@ protocol ShapeGenerator {
 // Protocols declared with @objc allow optional functions,
 // which allow you to check for conformance
 @objc protocol TransformShape {
-    optional func reshaped()
+    optional func reshape()
     optional func canReshape() -> Bool
 }
 
@@ -516,9 +545,9 @@ class MyShape: Rect {
         // Place a question mark after an optional property, method, or
         // subscript to gracefully ignore a nil value and return nil
         // instead of throwing a runtime error ("optional chaining").
-        if let allow = self.delegate?.canReshape?() {
+        if let reshape = self.delegate?.canReshape?() where reshape {
             // test for delegate then for method
-            self.delegate?.reshaped?()
+            self.delegate?.reshape?()
         }
     }
 }
@@ -531,7 +560,7 @@ class MyShape: Rect {
 // `extension`s: Add extra functionality to an already existing type
 
 // Square now "conforms" to the `Printable` protocol
-extension Square: Printable {
+extension Square: CustomStringConvertible {
     var description: String {
         return "Area: \(self.getArea()) - ID: \(self.identifier)"
     }
@@ -556,8 +585,8 @@ print(14.multiplyBy(3)) // 42
 // Generics: Similar to Java and C#. Use the `where` keyword to specify the
 //   requirements of the generics.
 
-func findIndex<T: Equatable>(array: [T], valueToFind: T) -> Int? {
-    for (index, value) in enumerate(array) {
+func findIndex<T: Equatable>(array: [T], _ valueToFind: T) -> Int? {
+    for (index, value) in array.enumerate() {
         if value == valueToFind {
             return index
         }