Swift Quiz #05: Swift Arrays
Test your understanding of Swift Arrays with this engaging quiz
Topic: Swift Arrays
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In Swift, an array is a collection type that allows you to store multiple values of the same type in an ordered list. Arrays are used to group related values together and access them using an index.
Key Concepts:
Mutability: Swift arrays can be mutable or immutable depending on whether you declare them as variables (
var
) or constants (let
). Immutable arrays cannot be modified once defined, while mutable arrays can have elements added, removed, or modified.Type Safety: Swift arrays are strongly typed, meaning they can only store values of the same type. Once you define the type of an array, you cannot store values of a different type in it.
Dynamic Size: Swift arrays have a dynamic size, which means they can grow or shrink in length as needed. You can append elements to the end of an array using the
append()
method, insert elements at specific positions using theinsert(_:at:)
method, and remove elements using theremove(at:)
method.Array Literal: Array can be initialized using an array literal, which is a shorthand way of defining an array. Array literals are created by enclosing a comma-separated list of values inside square brackets
[]
Value Semantics: Arrays in Swift have value semantics. When you assign an array to a new variable or pass it as a parameter to a function, a new copy of the array is created. This ensures that modifications to one array do not affect other copies.
Quick Refresher:
1. Creating and Initializing Arrays in Swift:
Empty Arrays: To create an empty array, developers can utilize the initializer syntax or the array literal
Initializing with Default Values: Arrays can be initialized with a specific size and default values using the
Array(repeating:count:)
initializerInitializing with Values: Values can be directly assigned to an array using an array literal
//Empty Arrays:
var someInts: \[Int\] \= \[\]
var anotherInts \= \[Int\]()
//Initializing with Default Values:
var threeDoubles \= Array(repeating: 0.0, count: 3)
// Initializing with Values
var shoppingList: \[String\] \= \["Eggs", "Milk", "Flour"\]
2. Accessing and Modifying Arrays
Count and Empty Check: number of items in an array can be determined using the
count
propertyTo check if an array is empty, use the
isEmpty
property
// count
print("The shopping list contains \\(shoppingList.count) items.")
// Empty check
if shoppingList.isEmpty {
print("The shopping list is empty.")
} else {
print("The shopping list isn't empty.")
}
- Appending and Modifying: Elements can be added to an array using the
append(_:)
method or the+=
operator. To modify an existing element, subscript syntax can be used.
// Appending
shoppingList.append("Bread")
shoppingList += \["Butter", "Sugar"\]
//Subscript
shoppingList\[0\] \= "Bananas"
Inserting and Removing Elements: Items can be inserted at a specific index using the
insert(_:at:)
method:To remove an element at a given index, use the
remove(at:)
method
// Insert
shoppingList.insert("Apples", at: 1)
//Remove
let removedItem \= shoppingList.remove(at: 2)
3. Combining and Transforming Arrays
Combining Arrays: Two arrays with compatible types can be combined using the
+
operator:Transforming Arrays: Swift provides powerful higher-order functions to transform arrays. For example, the
map(_:), filter, reduce, flatmap
functions can be used to apply a transformation to each element:
// combining Arrays
var fruits \= \["Bananas", "Apples"\]
var vegetables \= \["Carrots", "Broccoli"\]
var groceries \= fruits + vegetables
// Transforming
let numbers \= \[1, 2, 3, 4, 5\]
let squaredNumbers \= numbers.map { $0 \* $0 }
// Sorting an array
let sortedNumbers \= numbers.sorted()
// Filtering an array
let evenNumbers \= numbers.filter { $0 % 2 \== 0 }
4. Iterating over Arrays
For-In Loop: Arrays can be iterated using a for-in loop
Enumerating Arrays To access both the index and value of each item in an array, utilize the
enumerated()
method
for (index, item) in shoppingList.enumerated() {
print("Item \\(index + 1): \\(item)")
}
// Enumerating
for (index, item) in shoppingList.enumerated() {
print("Item \\(index + 1): \\(item)")
}
5. Common Array Operations:
- Swift arrays provide several useful operations, such as sorting, filtering, and searching.
6. Storing Callbacks in Arrays:
Arrays in Swift can store values of any type, including functions or closures. This feature enables the storage of callbacks or event handlers in an array, facilitating dynamic behavior in code.
typealias Callback \= () -> Void
var callbacks: \[Callback\] \= \[\]
func performTask(withCallback callback: @escaping Callback) {
callbacks.append(callback)
}
func executeCallbacks() {
for callback in callbacks {
callback()
}
}
Check out the interactive quiz quizzesforyou.com/quiz/swiftarrays
- What is the output?
var numbers \= \[1, 2, 3, 4, 5\]
let transformedNumbers \= numbers.map { $0 \* 2 }
print(transformedNumbers)
A) [2, 4, 6, 8, 10]
B) [1, 2, 3, 4, 5]
C) [1, 4, 9, 16, 25]
Answer: A
The map(_:)
function transforms each element in the numbers
array by multiplying it by 2, resulting in the array [2, 4, 6, 8, 10]
.
2. Which method is used to find the first index of a specific element in an array?
A) index(of:)
B) findIndex(of:)
C) firstIndex(of:)
Answer: C
The firstIndex(of:)
method is used to find the first index of a specific element in an array.
3. What is the output?
let names = \["Alice", "Bob", "Charlie"\]
let result = names.allSatisfy { $0.count >= 3 }
print(result)
a) true
b) [“Alice”, “Charlie”]
c) [true, true, true]
Answer: a) true
The allSatisfy
function is used to check if all elements in the array satisfy a given condition. In this case, the closure { $0.count >= 3 }
checks if the length of each name in the names
array is greater than or equal to 3. Since all the names in the array ("Alice", "Bob", "Charlie") have lengths of 3 or more characters, the condition is satisfied for all elements, and the output will be true
.
4. What is the output?
let numbers \= \[1, 2, 3, 4, 5\]
let result \= numbers.reduce(3) { $0 + $1 }
print(result)
a) 15
b) 18
c) 5
Answer: b) 18
The reduce
function is used to combine all elements of the numbers
array into a single value (result
). The initial value is set to 3 (reduce(3)
), and the closure $0 + $1
is used to add each element of the array to the accumulated value. So, the output will be the sum of all numbers in the array, which is 18.
5. Which method can be used to check if an array contains a specific element?
A) contains(_:)
B) includes(_:)
C) has(_:)
Answer: A
The contains(_:)
method is used to check if an array contains a specific element.
6. What is the output?
let numbers \= \[1, 2, 3, 4, 5\]
let result \= numbers.filter { $0 % 2 \== 0 }
.flatMap { Array(repeating: $0, count: $0) }
print(result)
a) [2, 2, 4, 4, 4, 4]
b) [0, 0, 0, 0, 0, 0]
c) [[0,0],[0,0,0,0]]
Answer: a) [2, 2, 4, 4, 4, 4]
the filter
function is first used to create a new array that contains only the even numbers from the numbers
array. Then, the flatMap
function is applied to transform each even number into an array of repeating numbers. The resulting array is flattened, resulting in [2, 2, 4, 4, 4]
, which contains the repeating numbers for each even number in the original array.
7. What is the output?
let names = \["Alice", "Bob", "Charlie"\]
let result = names.allSatisfy { $0.count >= 3 }
print(result)
a) true
b) [“Alice”, “Charlie”]
c) [true, true, true]
Answer: a) true
The allSatisfy
function is used to check if all elements in the array satisfy a given condition. In this case, the closure { $0.count >= 3 }
checks if the length of each name in the names
array is greater than or equal to 3. Since all the names in the array ("Alice", "Bob", "Charlie") have lengths of 3 or more characters, the condition is satisfied for all elements, and the output will be true
.
8. What is the output?
let names \= \["Alice", "Bob", "Charlie", "David"\]
let result \= names.compactMap { $0.count \> 4 ? $0 : nil }
print(result)
a) [“Alice”, “Bob”, “Charlie”, “David”]
b) [“Alice”, “Charlie”, “David”]
c) [“Bob”, “David”]
Answer: b) [“Alice”, “Charlie”, “David”]
The compactMap
function is used to transform each element in the array and remove any resulting nil
values. In this case, the closure { $0.count > 4 ? $0 : nil }
checks if the length of each name is greater than 4. If it is, the name is returned; otherwise, nil
is returned and filtered out. So, the output will be an array containing only the names with lengths greater than 4: [“Alice”, “Charlie”, “David”].
9. What is the difference between map
and flatMap
when dealing with optionals?
A) map
unwraps optionals, while flatMap
keeps the optionals intact.
B) map
transforms optionals, while flatMap
unwraps optionals.
C) There is no difference between map
and flatMap
when dealing with optionals.
Answer: B
When applied to optionals, map
transforms the underlying value if it exists, while flatMap
unwraps the optional and applies a transformation that may also return an optional value.
10. What is the output?
let words = \["Hello", "World", "Swift"\]
let result = words.joined(separator: " ")
print(result)
a) “HelloWorldSwift”
b) “Hello World Swift”
c) “Hello, World, Swift”
Answer: b) “Hello World Swift”
The joined(separator:)
function is used to concatenate the elements of an array into a single string, separated by a specified separator. In this case, the elements of the words
array are joined into a single string with a space separator. So, the output will be "Hello World Swift" with spaces between the words.
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References: https://docs.swift.org/swift-book/documentation/the-swift-programming-language/collectiontypes