let items: [String] = ["A", "B", "A", "C", "A", "D"]
items.whatFunction("A") // -> [0, 2, 4]
items.whatFunction("B") // -> [1]
Does Swift 3 support a function like whatFunction(_: Element)
?
If not, what is the most efficient logic?
You can filter the indices
of the array directly, it avoids the extra map
ping.
let items = ["A", "B", "A", "C", "A", "D"]
let filteredIndices = items.indices.filter {items[$0] == "A"}
or as Array
extension:
extension Array where Element: Equatable {
func whatFunction(_ value : Element) -> [Int] {
return self.indices.filter {self[$0] == value}
}
}
items.whatFunction("A") // -> [0, 2, 4]
items.whatFunction("B") // -> [1]
or still more generic
extension Collection where Element: Equatable {
func whatFunction(_ value : Element) -> [Index] {
return self.indices.filter {self[$0] == value}
}
}
Collection
since the implementation uses nothing that is specific to arrays.
Commented
Jul 14, 2018 at 19:17
You can create your own extension for arrays.
extension Array where Element: Equatable {
func indexes(of element: Element) -> [Int] {
return self.enumerated().filter({ element == $0.element }).map({ $0.offset })
}
}
You can simply call it like this
items.indexes(of: "A") // [0, 2, 4]
items.indexes(of: "B") // [1]
.enumerated()
is a bad idea since its not guaranteed to be the index as stated by the apple docu: "When you enumerate a collection, the integer part of each pair is a counter for the enumeration, but is not necessarily the index of the paired value."
You can achieve this by chain of:
enumerated()
- add indexes;filter()
out unnecessary items;map()
our indexes.Example (works in Swift 3 - Swift 4.x):
let items: [String] = ["A", "B", "A", "C", "A", "D"]
print(items.enumerated().filter({ $0.element == "A" }).map({ $0.offset })) // -> [0, 2, 4]
Another way is using flatMap
, which allows you to check the element and return index if needed in one closure.
Example (works in Swift 3 - Swift 4.0):
print(items.enumerated().flatMap { $0.element == "A" ? $0.offset : nil }) // -> [0, 2, 4]
But since Swift 4.1 flatMap
that can return non-nil objects become deprecated and instead you should use compactMap
.
Example (works since Swift 4.1):
print(items.enumerated().compactMap { $0.element == "A" ? $0.offset : nil }) // -> [0, 2, 4]
And the cleanest and the most memory-cheap way is to iterate through array indices and check if element of array at current index equals to required element.
Example (works in Swift 3 - Swift 5.x):
print(items.indices.filter({ items[$0] == "A" })) // -> [0, 2, 4]
.enumerated()
is a bad idea since its not guaranteed to be the index as stated by the apple docu: "When you enumerate a collection, the integer part of each pair is a counter for the enumeration, but is not necessarily the index of the paired value."
In Swift 3 and Swift 4 you can do that:
let items: [String] = ["A", "B", "A", "C", "A", "D"]
extension Array where Element: Equatable {
func indexes(of item: Element) -> [Int] {
return enumerated().compactMap { $0.element == item ? $0.offset : nil }
}
}
items.indexes(of: "A")
I hope my answer was helpful 😊
you can use it like that :
let items: [String] = ["A", "B", "A", "C", "A", "D"]
let indexes = items.enumerated().filter {
$0.element == "A"
}.map{$0.offset}
print(indexes)
just copy and paste
extension Array {
func whatFunction(_ ids : String) -> [Int] {
var mutableArr = [Int]()
for i in 0..<self.count {
if ((self[i] as! String) == ids) {
mutableArr.append(i)
}
}
return mutableArr
}
}
You can use that below code:
var firstArray = ["k","d","r","r","p","k","b","p","k","k"]
var secondArray = ["k","d","r","s","d","r","b","c"]
let filterArray = firstArray.filter { secondArray.contains($0) }
let filterArray1 = firstArray.filter { !secondArray.contains($0) }
let filterIndex = firstArray.enumerated().filter { $0.element == "k" }.map { $0.offset }
print(filterArray) --> // ["k", "d", "r", "r", "k", "b", "k", "k"]
print(filterArray1) --> // ["p", "p"]
print(filterIndex) --> // [0, 5, 8, 9]
this can be a way too
// MARK: - ZIP: Dictionary like
let words = ["One", "Two", "Three", "Four"]
let numbers = 1...words.count
for (word, number) in zip(words, numbers) {
print("\n\(word): \(number)")
}
For example finding the indices of p_last values that are in inds1 array: (swift 4+)
let p_last = [51,42]
let inds1 = [1,3,51,42,4]
let idx1 = Array(inds1.filter{ p_last.contains($0) }.indices)
idx1 = [0,1]
index(of: Element)
just returnsInt?
. The function that I need should returns[Int]?
.