As already mentioned by Hot Licks you can use NSDictionary method isEqualToDictionary() to check if they are equal as follow:
let dic1: [String: AnyObject] = ["key1": 100, "key2": 200]
let dic2: [String: AnyObject] = ["key1": 100, "key2": 200]
let dic3: [String: AnyObject] = ["key1": 100, "key2": 250]
println( NSDictionary(dictionary: dic1).isEqualToDictionary(dic2) ) // true
println( NSDictionary(dictionary: dic1).isEqualToDictionary(dic3) ) // false
you can also implement a custom operator "==" as follow:
public func ==(lhs: [String: AnyObject], rhs: [String: AnyObject] ) -> Bool {
return NSDictionary(dictionary: lhs).isEqualToDictionary(rhs)
}
println(dic1 == dic2) // true
println(dic1 == dic3) // false
Xcode 9 ? Swift 4
From the docs, dictionary is now defined as a struct:
struct Dictionary<Key : Hashable, Value> : Collection, ExpressibleByDictionaryLiteral
Description
A collection whose elements are key-value pairs. A
dictionary is a type of hash table, providing fast access to the
entries it contains. Each entry in the table is identified using its
key, which is a hashable type such as a string or number. You use that
key to retrieve the corresponding value, which can be any object. In
other languages, similar data types are known as hashes or associated
arrays. Create a new dictionary by using a dictionary literal. A
dictionary literal is a comma-separated list of key-value pairs, in
which a colon separates each key from its associated value, surrounded
by square brackets. You can assign a dictionary literal to a variable
or constant or pass it to a function that expects a dictionary.
Here’s how you would create a dictionary of HTTP response codes and their related messages:
var responseMessages = [200: "OK",
403: "Access forbidden",
404: "File not found",
500: "Internal server error"]
The responseMessages variable is inferred to have type [Int: String]
.
The Key type of the dictionary is Int
, and the Value type of the
dictionary is String
.
To create a dictionary with no key-value pairs, use an empty dictionary literal ([:]).
var emptyDict: [String: String] = [:]
Any type that conforms to the Hashable protocol can be used as a dictionary’s Key type, including all of Swift’s basic types. You can use your own custom types as dictionary keys by making them conform to the Hashable protocol.
We don't need to define a custom operator anymore:
From the docs:
static func ==(lhs: [Key : Value], rhs: [Key : Value]) -> Bool
Testing:
let dic1 = ["key1": 100, "key2": 200]
let dic2 = ["key1": 100, "key2": 200]
let dic3 = ["key1": 100, "key2": 250]
print(dic1 == dic2) // true
print(dic1 == dic3) // false
In the example above all dictionary keys and values are the same type.
If we try to compare two dictionaries of type [String: Any]
Xcode will complain that Binary operator == cannot be applied to two [String: Any]
operands.
let dic4: [String: Any] = ["key1": 100, "key2": "200"]
let dic5: [String: Any] = ["key1": 100, "key2": "200"]
let dic6: [String: Any] = ["key1": 100, "key2": Date()]
print(dic4 == dic5) // Binary operator == cannot be applied to two `[String: Any]` operands
But we can extend the ==
operator functionality implementing an infix operator, casting Swift Dictionary to NSDictionary and constraining the dictionary values to Hashable Protocol:
Xcode 11 ? Swift 5.1
public func ==<K, L: Hashable, R: Hashable>(lhs: [K: L], rhs: [K: R] ) -> Bool {
(lhs as NSDictionary).isEqual(to: rhs)
}
Testing:
let dic4: [String: AnyHashable] = ["key1": 100, "key2": "200"]
let dic5: [String: AnyHashable] = ["key1": 100, "key2": "200"]
let dic6: [String: AnyHashable] = ["key1": 100, "key2": Date()]
print(dic4 == dic5) // true
print(dic4 == dic6) // false
let dic7: [String: String] = [ "key2": "200"]
let dic8: [String: Date] = [ "key2": Date()]
print(dic7 == dic8) // false