Linkedin Swift Assessment Test Answer 2022 _ 100% Updated

Linkedin Swift Assessment Test Answer 2022

Linkedin Swift Assessment Test Answer 2022

Swift Assessment LinkedIn Answers 2022,
LinkedIn Swift Quiz Answers 2022,

LinkedIn Swift Assessment Answers: LinkedIn says that candidates who have completed LinkedIn Skill Assessments are significantly more likely to be hired. The LinkedIn Skill Assessments feature allows you to demonstrate your knowledge of the skills you have added to your profile by completing specific reviews for those skills.

LinkedIn Swift Assessment Quiz Answers 2022,
LinkedIn Swift Assessment Quiz Answers,
LinkedIn Swift Assessment Answers 2022,

Linkedin Swift Assessment Test Answer 2022

LinkedIn Swift Assessment Answers,
Swift Assessment Quiz Answers 2022,
Swift Assessment Answers 2022,

Linkedin Swift Assessment Test Answer 2022

Q1. What is this code an example of?
let val = (Double)6
 
  •  an error
  •  typecasting
  •  assignment
  •  initialization
 
Q2. What is the error in this code?
 
let x = 5
guard x == 5 { return }
 
  •  The guard is missing the else.
  •  Nothing is wrong.
  •  The guard is missing a then.
  •  The comparison is wrong.
 
Q3. What is the raw/underlying type of this enum?
 
enum Direction {
  case north, south, east, west
}
 
  •  There is none.
  •  String
  •  Any
  •  Int
 
Q4. Why is dispatchGroup used in certain situations?
 
  •  It allows multiple synchronous or asynchronous operations to run on different queues.
  •  It allows track and control execution of multiple operations together.
  •  It allows operations to wait for each other as desired.
  •  all of these answers.
 
Q5. What is this code an example of?  
 
let val = 5
print(“value is: \(val)”)
 
  •  string interpolation
  •  string compilation
  •  method chaining
  •  string concatenation
 
Q6. What are the contents of vals after this code is executed?
 
var vals = [10, 2]
vals.sort { (s1, s2) -> Bool in
  s1 > s2
}
 
  •  [10, 2]
  •  [2, 10]
  •  nil
  •  This code contains an error
 
Q7. What does this code print?
 
typealias Thing = [String, Any]
var stuff: Thing
print(type(of: stuff))
 
  •  Dictionary<String, Any> (To print this than code in question has to be typealias Thing = [String: Any])
  •  Dictionary
  •  ERROR (If code in question is really like that.)
  •  Thing
 
Q8. What is the value of y?
 
let x = [“1”, “2”].dropFirst()
let y = x[0]
 
  •  This code contains an error
  •  1
  •  2
  •  nil
 
Q9. What is the value of test in this code?
 
var test = 1 == 1
 
  •  TRUE
  •  YES
  •  1
  •  This code contains an error
 
Q10. What is the value of y?
 
var x: Int?
let y = x ?? 5
 
  •  5
  •  0
  •  nil
  •  This code contains an error
 
Q11. What is the type of this function?
 
func add(a: Int, b: Int) -> Int { return a+b }
 
  •  Int
  •  (Int, Int) -> Int
  •  Int
  •  Functions don’t have types.
 
Q12. What is the correct was to call this function?
 
func myFunc(_ a: Int, b: Int) -> Int {
  return a + b
}
 
  •  myFunc(5, b: 6)
  •  myFunc(5, 6)
  •  myFunc(a: 5, b: 6)
  •  myFunc(a, b)
 
Q13. The Codable protocol is **_**?
 
  •  a combination of Encodable and Decodable
  •  not a true protocol <<<<—Possibly correct as it’s a typealias of Encodable and Decodable
  •  required of all classes
  •  automatically included in all classes
 
Q14. What is the type of value1 in this code?
 
let value1 = “\(“test”.count)”
 
  •  String
  •  Int
  •  null
  •  test.count
 
Q15. When a function takes a closure as a parameter, when do you want to mark is as escaping?
 
  •  when it’s executed after the function returns
  •  when it’s scope is undefined
  •  when is’s lazy loaded
  •  all of these answers
 
Q16. What’s wrong with this code?
class Person {
  var name: String
  var address: String
}
 
  •  Person has no initializers.
  •  Person has no base class.
  •  var name is not formatted corrrectly.
  •  address is a keyword.
 
Q17. What is the value of names after this code is executed?
 
let names = [“Bear”, “Joe”, “Clark”]
names.map { (s) -> String in
  return s.uppercased()
}
 
  •  [“BEAR”, “JOE”, “CLARK”]
  •  [“B”, “J”, “C”]
  •  [“Bear”, “Joe”, “Clark”]
  •  This code contains an error.
 
Q18. What describes this line of code?
 
let val = 5
 
  •  a constant named val of type Int
  •  a variable named val of type item
  •  a constant named val of type Number
  •  a variable named val of type Int
 
Q19. What is the error in this code?
 
extension String {
  var firstLetter: Character = “c” {
    didSet {
      print(“new value”)
    }
  }
}
 
  •  Extensions can’t add properties. // although extensions technically can’t contain stored properties
  •  Nothing is wrong with it.
  •  didSet takes a parameter.
  •  c is not a character.
 
Q20. didSet and willSet are examples of \***\*\_\*\***?
 
  •  property observers
  •  key properties
  •  all of these answers
  •  newOld value calls
 
Q21. What is wrong with this code?
 
self.callback = {
  self.attempts += 1
  self.downloadFailed()
}
 
  •  Use of self inside the closure causes retain cycle.
  •  You cannot assign a value to closure in this manner.
  •  You need to define the type of closure explicitly.
  •  There is nothing wrong with this code.
 
Q22. How many values does vals have after this code is executed?
 
var vals = Set<String> = [“4”, “5”, “6”]
vals.insert(“5”)
 
  •  three
  •  four
  •  eight
  •  This code contains an error.
 
Q23. How can you avoid a strong reference cycle in a closure?
 
  •  Use a capture list to set class instances of weak or unowned.
  •  You can’t, there will always be a danger of strong reference cycles inside a closure.
  •  Initialize the closure as read-only.
  •  Declare the closure variable as lazy.
 
Q24. What is wrong with this code?
 
if let s = String.init(“some string”) {
  print(s)
}
 
  •  This String initializer does not return an optional.
  •  String does not have an initializer that can take a String.
  •  = is not a comparison.
  •  Nothing is wrong with this code.
 
Q25. Which code snippet correctly creates a typealias closure?
 
  •  typealias CustomClosure: () -> ()
  •  typealias CustomClosure { () -> () }
  •  typealias CustomClosure -> () -> ()
  •  typealias CustomClosure -> () {}
 
Q26. How do you reference class members from within a class?
  •  self
  •  instance
  •  class
  •  this
 
Q27. All value types in Swift are **_** under the hood?
 
  •  structs
  •  classes
  •  optionals
  •  generics
 
Q28. What is the correct was to ass a value to this array?
 
var strings = [1, 2, 3]
 
  •  all of these answers
  •  strings.append(4)
  •  strings.insert(5, at: 1)
  •  strings += [5]
 
Q29. How many times will this loop be executed?
 
for i in 0…100 {
  print(i)
}
 
  •  0
  •  101
  •  99
  •  100
 
Q30. What can AnyObject represent?
 
  •  an instance of any class
  •  an instance of an optional type
  •  an instance of a function type
  •  all of these answers
 
Q30. What can AnyObject represent?
 
  •  an instance of any class
  •  an instance of function type
  •  all of these answers
  •  an instance of an optional type
 
Q31. What does this code print?
 
typealias Thing = [String:Any]
var stuff : Thing
print(type(of:stuff))
 
  •  Dictionary
  •  ERROR
  •  Thing
  •  Dictionary<String, Any>
 
Q32. What is the value of test in this code?
 
var test = 1 == 1
 
  •  TRUE
  •  1
  •  This code contains an error.
  •  YES
 
Q33. What is the value of y?
 
var x : Int?
let y = x ?? 5
 
  •  0
  •  nil
  •  This code contains an error.
  •  5
 
Q34. What is the value of y?
 
let x = [“1″,”2”].dropFirst()
let y = x[0]
 
  •  1
  •  nil
  •  This code contains an error.
  •  2
 
Q35. What is the value of t after this code is executed?
 
let names = [“Larry”, “Sven”, “Bear”]
let t = names.enumerated().first().offset
 
  •  This code is invalid.
  •  This code does not compile.
  •  0
  •  1
  •  Larry
 
Q36. What is the value of test after this code executes?
 
let vt = (name: “ABC”, val: 5)
let test = vt.0
 
  •  ABC
  •  0
  •  5
  •  name
 
Q37. What is the base class in this code?
 
class LSN : MMM {
}
 
  •  MMM
  •  LSN
  •  There is no base class.
  •  This code is invalid.
 
Q38. What does this code print to the console?
 
var userLocation: String = “Home” {
  willSet(newValue) {
  print(“About to set userLocation to \(newValue)…”)
  }
 
 
  didSet {
  if userLocation != oldValue {
  print(“userLocation updated with new value!”)
  } else {
  print(“userLocation already set to that value…”)
  }
  }
 }
 
 userLocation = “Work”
 
  •  About to set userLocation to Work… userLocation updated with new value!
  •  About to set userLocation to Work… userLocation already set to that value…
  •  About to set userLocation to Home… userLocation updated to new value!
  •  ERROR
 
Q39. What must a convenience initializer call?
 
  •  a base class convenience initializer
  •  either a designated or another convenience initializer
  •  a designated initializer
  •  none of these answers
 
Q40. Which object allows you access to specify that a block of code runs in a background thread?
 
  •  DispatchQueue.visible
  •  DispatchQueue.global
  •  errorExample need to be labeled as throws.
  •  DispatchQueue.background
 
Q41. What is the inferred type of x?
 
let x = [“a”, “b”, “c”]
 
  •  String[]
  •  Array<String>
  •  Set<String>
  •  Array<Character>
 
Q42. What is the value of oThings after this code is executed?
 
let nThings: [Any] = [1, “2”, “three”]
let oThings = nThings.reduce(“”) { “\($0)\($1)” }
 
  •  11212three
  •  115
  •  12three
  •  Nothing, this code is invalid.
 
Q43. How would you call a function that throws errors and also returns a value?
 
  •  !try
  •  try?
  •  try!
  •  ?try
 
Q44. What is wrong with this code?
 
protocol TUI {
  func add(x1 : Int, x2 : Int) -> Int {
    return x1 + x2
  }
}
 
  •  Protocol functions cannot have return types.
  •  Protocol functions cannot have implementations.
  •  Nothing is wrong with it.
  •  add is a reserved keyword.
 
Q45. In this code, what are wheels and doors examples of?
 
class Car {
  var wheels: Int = 4
  let doors = 4
}
 
  •  class members
  •  This code is invalid.
  •  class fields
  •  class properties
 
Q46. How do you designate a failable initializer?
 
  •  init?
  •  deinit
  •  init
  •  You can’t.
 
Q46. How do you designated a failable initializer?
 
  •  You cannot
  •  deinit
  •  init?
  •  init
 
Q47. What is printed when this code is executed?
 
let dbl = Double.init(“5a”)
print(dbl ?? “.asString()”)
 
  •  five
  •  5a
  •  .asString()
  •  5
 
Q48. In the function below, what are this and toThat examples of?
 
func add(this x: Int, toThat y: Int)->{}
 
  •  none of these answers
  •  local terms
  •  argument labels
  •  parameters names
 
Q49. What is wrong with this code?
 
if let s = String.init(“some string”){
  print (s)
}
 
  •  Nothing is wrong with this code
  •  = is not a comparison
  •  String does not have an initializer that can take a String
  •  This String initializer does not return an optional
 
Q50. What is wrong with this code?
 
for (key, value) in [1: “one”, 2: “two”]{
  print(key, value)
}
 
  •  The interaction source is invalid
  •  The interaction variable is invalid
  •  There is nothing wrong with this code
  •  The comma in the print is misplaced
 
Q51. Which of these choices is associated with unit testing?
 
  •  XCTest
  •  all of these answers
  •  @testable
  •  XCAssert
 
Q52. In the code below, what is width an example of?
 
class Square{
  var height: Int = 0
  var width : Int {
    return height
  }
}
 
  •  This code contains error
  •  a closure
  •  a computed property
  •  lazy loading
 
Q53. What data type is this an example of?
 
let vals = (“val”, 1)
 
  •  a dictionary
  •  a tuple
  •  an optional
  •  This code contains error
 
Q54. What is wrong with this code?
 
var x = 5
x = 10.0
 
  •  You cannot assign a Double to a variable of type Int
  •  x is undefined
  •  x is a constant
  •  x has no type
 
Q55. What is the type of x: let x = try?
 
String.init(from: decoder)
 
  •  String
  •  String?
  •  String!
  •  try?
 
Q56. What will this code print to the console?
 
var items = [“a”:1, “b”:2, “c”:”test”] as [String: Any]
items[“c”] = nil
print(items[“c”] as Any)
 
  •  Any
  •  test
  •  1,2,3
  •  nil
 
Q57. What is wrong with this code?
 
let val = 5.0 + 10
 
  •  There is nothing wrong with this code
  •  val is a constant and cannot be changed
  •  5.0 and 10 are different types
  •  There is no semicolon
 
Q58. How many parameters does the initializer for Test have?
 
struct Test{
  var score: Int
  var date: Date
}
 
  •  zero
  •  This code contains an error
  •  two
  •  Structs do not have initializers
 
Q59. What prints to the console when executing this code?
 
let x = try? String.init(“test”)
print(x)
 
  •  nil
  •  Nothing – this code contains an error
  •  Optional(“test”)
  •  test
 
Q60. How can you sort this array?
 
var vals = [1,2,3]
 
  •  vals.sort { $0 < $1 }
  •  vals.sort { (s1, s2) in s1 < s2 }
  •  vals.sort(by: <)
  •  all of these answers
 
Q61. What is printed when this code is executed?
 
let dbl = Double.init(“5a”)
print(dbl ?? “.asString()”)
 
  •  5a
  •  5
  •  five
  •  asString()
 
Q62. DispatchQueue.main.async takes a block that will be
 
  •  not executed
  •  executed in the main queue
  •  none of these answers
  •  executed on the background thread
 
Q63. What is the value of test after this code executes?
 
let vt = (name: “ABC”, val: 5)
let test = vt.0
  •  ABC
  •  name
  •  5
  •  0
 
Q64. When is deinit called?
 
  •  When a class instance needs memory
  •  All of these answers
  •  When the executable code is finished
  •  When a class instance is being removed from memory
 
Q65. How do you declare an optional String?
 
  •  String?
  •  Optional[String]
  •  [String]?
  •  ?String
 
Q66. Why is dispatchGroup used in certain situation?
 
  •  All of these answers
  •  It allows multiple synchronous or asynchronous operations to run on different values
  •  It allows operations to wait for each other as defined
  •  It allows track and control execution of multiple operations together
 
Q67. How many times this code will be executed? —OR— How many times will this loop be performed?
 
for i in [“0”, “1”]{
  print(i)
}
 
  •  one
  •  two
  •  three
  •  This code does not compile
 
Q68. What does this code print?
 
let names = [“Bear”, “Tony”, “Svante”]
print(names[1]+”Bear”)
 
  •  1Bear
  •  BearBear
  •  TonyBear
  •  Nothing, this code is invalid
 
Q69. What is true of this code?
 
let name: String?
 
  •  name can hold only a string value.
  •  name can hold either a string or nil value.
  •  Optional values cannot be let constants.
  •  Only non-empty string variables can be stored in name.
 
Q70. What is the value of val after this code is executed?
 
let i = 5
let val = i * 6.0
 
  •  This code is invalid.
  •  6
  •  30
  •  0

Post Author: Sheikh

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