Swift - Classes
Classes in Swift 4 are building blocks of flexible constructs. Similar to constants, variables and functions the user can define class properties and methods. Swift 4 provides us the functionality that while declaring classes the users need not create interfaces or implementation files. Swift 4 allows us to create classes as a single file and the external interfaces will be created by default once the classes are initialized.
Benefits of having Classes
Inheritance acquires the properties of one class to another class
Type casting enables the user to check class type at run time
Deinitializers take care of releasing memory resources
Reference counting allows the class instance to have more than one reference
Common Characteristics of Classes and structures
- Properties are defined to store values
- Subscripts are defined for providing access to values
- Methods are initialized to improve functionality
- Initial state are defined by initializers
- Functionality are expanded beyond default values
- Confirming protocol functionality standards
Syntax
Class classname {
Definition 1
Definition 2
---
Definition N
}
Class Definition
class student {
var studname: String
var mark: Int
var mark2: Int
}
The syntax for creating instances
let studrecord = student()
Example
class MarksStruct {
var mark: Int
init(mark: Int) {
self.mark = mark
}
}
class studentMarks {
var mark = 300
}
let marks = studentMarks()
print("Mark is \(marks.mark)")
When we run the above program using playground, we get the following result −
Mark is 300
Accessing Class Properties as Reference Types
Class properties can be accessed by the '.' syntax. Property name is separated by a '.' after the instance name.
class MarksStruct {
var mark: Int
init(mark: Int) {
self.mark = mark
}
}
class studentMarks {
var mark1 = 300
var mark2 = 400
var mark3 = 900
}
let marks = studentMarks()
print("Mark1 is \(marks.mark1)")
print("Mark2 is \(marks.mark2)")
print("Mark3 is \(marks.mark3)")
When we run the above program using playground, we get the following result −
Mark1 is 300
Mark2 is 400
Mark3 is 900
Class Identity Operators
Classes in Swift 4 refers multiple constants and variables pointing to a single instance. To know about the constants and variables pointing to a particular class instance identity operators are used. Class instances are always passed by reference. In Classes NSString, NSArray, and NSDictionary instances are always assigned and passed around as a reference to an existing instance, rather than as a copy.
| Identical to Operators |
Not Identical to Operators |
| Operator used is (===) |
Operator used is (!==) |
| Returns true when two constants or variables pointing to a same instance |
Returns true when two constants or variables pointing to a different instance |
class SampleClass: Equatable {
let myProperty: String
init(s: String) {
myProperty = s
}
}
func ==(lhs: SampleClass, rhs: SampleClass) -> Bool {
return lhs.myProperty == rhs.myProperty
}
let spClass1 = SampleClass(s: "Hello")
let spClass2 = SampleClass(s: "Hello")
spClass1 === spClass2 // false
print("\(spClass1)")
spClass1 !== spClass2 // true
print("\(spClass2)")
When we run the above program using playground, we get the following result −
main.SampleClass
main.SampleClass
