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Creating custom operators in Swift

/ Arun Patwardhan / 1 Comment

What are custom operators?

Custom operators are operators that are defined by us and are not part of the programming language natively.

We are all aware of the built in operators in the Swift Language. 

Operators like: + – * % > == ! to name a few.

These operators are defined by the system. It is also possible for us to overload some of these operators. However there are situations where we would like to create our own operators that perform operations not defined by the system. 

Thats exactly what Custom operators are. They are operators defined by the developer. These are not overloaded operators but completely new operators that don’t exist otherwise.

These operators are used within the project that we are working on. Though it is possible for us to share these operators using Swift Packages or XCFrameworks.

These operators are typically associated with a specific type and their behavior is also defined by us.

Why do we need them?

There are many reasons why we would want custom operators:

  1. Allow for more compact and concise syntax.

Using custom operators allows our code to be more compact. Entire function calls can be condensed into a single operator.

  1. Make the code more readable

This also improves the readability of our code. Properly chosen symbols can convey the message immediately and easily. 

  1. Allow for consistency in design of code

One of the other things that custom operators help us achieve is consistency. By using standard operations as operators we make our code more familiar and consistent to others who may read it. Programmers are familiar with the concept of operators and using them for different operations. So even if they may not immediately recognise the operator they would understand that there is some task for them to perform.

And finally it encourages reusability.

What do we need to create custom operators?

There are a couple of things that we need to create custom operators:

  1. A logic for the action being performed by the operator
  2. A list of valid symbols
  3. Information about the operators attributes like prefix, postfix, infix.
  4. The precedence of the operator if it is an infix operator

Operator Rules

There are some rules that must be followed when we are constructing the symbol for our operator. Most of the requirements are rather straightforward. However, choosing the right symbol is a very important task. There are a set of symbols that are allowed. 

There are rules as far as whitespace around operators is concerned.

And finally there are certain symbols are allowed only in combination with other symbols. 

Operator types
TypeDescription
PrefixOperators that appear before a variable or value. These are unary operators.
PostfixOperators that appear after a variable or value. These are unary operators.
InfixOperators that appear in between variables or values. These are binary operators.
Allowed Characters

This is the important bit. Which characters are allowed for usage as an operator. 

We can have ASCII symbols that are used for builtin operators.

There are also many mathematical symbols that can be used as operators.

Note that the list of symbols show in the slide are not complete. 

TypeExamples of different symbols
ASCII Characters/, =, -, +, !, *, %,<, >, &, |, ^, ?, ~
Mathematical Operators,
Miscellaneous symbols, dingbats*		∝, √, ⊆, ≿, ∫

Here are some more

U+00A1–U+00A7U+2190–U+23FF
U+00A9 or U+00ABU+2500–U+2775
U+00AC or U+00AEU+2794–U+2BFF
U+00B0–U+00B1U+2E00–U+2E7F
U+00B6U+3001–U+3003
U+00BBU+3008–U+3020
U+00BFU+3030
U+00D7U+0300–U+036F
U+00F7U+1DC0–U+1DFF
U+2016–U+2017U+20D0–U+20FF
U+2020–U+2027U+FE00–U+FE0F
U+2030–U+203EU+FE20–U+FE2F
U+2041–U+2053U+E0100–U+E01EF
U+2055–U+205E
Whitespace

The next important bit is the whitespace around the operator.

If an operator has a whitespace on both the sides or doesn’t have whitespace on both the sides then it is interpreted as a binary operator. This is what would appear for infix operator.

If an operator has whitespace only on the left then it is a prefix unary operator.

If an operator has whitespace only on the right then it is a postfix unary operator.

If an operator does not have whitespace on the left but is followed by a dot then it is treated as a postfix unary operator.

Finally, any round, brace, square brackets appearing before or after the operator along with comma, colon, & semicolon are treated as whitespace

Making sure that we put the whitespace in the correct place while using these operators is very important.

No.RuleExample code
1If an operator has a whitespace on both the sides or doesn’t have whitespace on both the sides then it is interpreted as a binary operatora**b 
or 
a ** b
2If an operator has whitespace only on the left then it is a prefix unary operator**a
3If an operator has whitespace only on the right then it is a postfix unary operatora**
4If an operator does not have whitespace on the left but is followed by a dot then it is treated as a postfix unary operatora**.b is treated as a** .b
5(, {, [ before the operator and ), }, ] after the operator along with ,, :, ; are treated as whitespace

There are some exceptions to the rules we just saw. Especially with exclamation mark & question mark.

  1. ! & ? which are predefined are always treated as postfix if there is no whitespace on the left
  2. If we wish to use ? In optional chaining then it must not have whitespace on the left
  3. To use it as a ternary conditional operator ?: it must have whitespace on both the sides
  4. Operators with a leading or trailing <, > are split into multiple tokens. For example, in Dictionary<String, Array<Int>> the last 2 arrows are not interpreted as shift operator.
Operator grammar

There are rules for constructing operators. Only certain combinations are allowed.

Each operator contains a symbol which forms the operator head. The head is the first character in the operator. 

The head may or may not be followed by 1 or more characters which are operator characters. 

The head and the optional characters combined together form the operator. 

The head itself can contain a one out of a set of valid symbols. Or it can contain a period.

These are some of the symbols allowed for usage as the head of the operator. You can choose any one of those.

/, =, -, +, !, *, %,<, >, &, |, ^, ?, ~U+2055–U+205E
U+00A1–U+00A7U+2190–U+23FF
U+00A9 or U+00ABU+2500–U+2775
U+00AC or U+00AEU+2794–U+2BFF
U+00B0–U+00B1U+2E00–U+2E7F
U+00B6U+3001–U+3003
U+00BBU+3008–U+3020
U+00BFU+3030
U+00D7
U+00F7
U+2016–U+2017
U+2020–U+2027
U+2030–U+203E
U+2041–U+2053

For the successive characters you can use any of the symbols allowed for the head plus some additional allowed symbols. The list above contains all the allowed symbols.

/, =, -, +, !, *, %,<, >, &, |, ^, ?, ~U+2055–U+205E
U+00A1–U+00A7U+2190–U+23FF
U+00A9 or U+00ABU+2500–U+2775
U+00AC or U+00AEU+2794–U+2BFF
U+00B0–U+00B1U+2E00–U+2E7F
U+00B6U+3001–U+3003
U+00BBU+3008–U+3020
U+00BFU+3030
U+00D7U+0300–U+036F
U+00F7U+1DC0–U+1DFF
U+2016–U+2017U+20D0–U+20FF
U+2020–U+2027U+FE00–U+FE0F
U+2030–U+203EU+FE20–U+FE2F
U+2041–U+2053U+E0100–U+E01EF
Examples
.+.
≈
√
**
Operator Precedence

As far as infix operators are concerned there is also the question of precedence. Precedence is used to determine the operator priority when there are multiple operators in a single statement. 

precedencegroup <#precedence group name#> {
    higherThan: <#lower group names#>
    lowerThan: <#higher group names#>
    associativity: <#associativity#>
    assignment: <#assignment#>
}

While the first 2 values are straightforward, they simply help determine the exact position of the newly created precedence as compared to existing precedences, the associativity and assignment are extra items that are not immediately clear.

TypeDescriptionValues
AssociativityDetermines order in which a sequence of operators with the same precedence are evaluated in the absence of grouping bracketsleft, right, none
AssignmentSpecifies priority when used with optional chaining. 
TRUE: Same grouping rules as assignment operator from standard libraryFALSE: Same rules as operators that don’t perform assignment		true, false

The assignment of a precedence group specifies the precedence of an operator when used in an operation that includes optional chaining. When set to true, an operator in the corresponding precedence group uses the same grouping rules during optional chaining as the assignment operators from the standard library. Otherwise, when set to false or omitted, operators in the precedence group follows the same optional chaining rules as operators that don’t perform assignment.

Determines order in which a sequence of operators with the same precedence are evaluated in the absence of grouping brackets. so for example 4 – 6 – 7 has the minus sign which has left associativity. The operation 4-6 is grouped and then the – 7 operation is performed.

Nonassociative operators of the same precedence level can’t appear adjacent to each to other.

The priority for the built in precedences can be seen in Apple’s documentation.

Creating the operators

It is fairly easy to create our own operators. You can try the code in a playground. We will be creating 1 operator of each type: postfix, prefix, infix.

  1. Create a new playground.
  2. Declare the creation of the prefix operator as shown. This will be used as a squaring operator.
prefix operator **
  1. Now we will provide a generic version of the operator implementation.
prefix func **<T:Numeric> (inputValue : T) -> T {
    return inputValue * inputValue
}

That’s it. It is that simple to create our own prefix operator. Now let us test it.

  1. Create a variable of type Float and use the operator we have just created.
var lengthOfSideOfSquare : Float = 1.1

var areaOfSquare : Float = **lengthOfSideOfSquare

print("The area of a square whose side is \(lengthOfSideOfSquare) centimeters long is \(areaOfSquare) square centimeters")
  1. Similarly declare a postfix operator. This one will perform conversion to a string.
postfix operator ~>
  1. Now we will implement this operator. To do that let us make a simple type which will have the to string operator capability.
struct Person {
    var name : String = ""
    var age : Int = 0
}

extension Person {
    static postfix func ~> (inputValue : Person) -> String {
        return "NAME: \(inputValue.name)\nAGE: \(inputValue.age)"
    }
}
  1. Let us try this operator out and see.
var developer : Person = Person(name: "Arun Patwardhan",
                                age: 35)

var description : String = developer~>

print(#line, description)
  1. Now let us implement an infix operator. The one that we are going to implement is a similarity operator which can be used to determine the degree of similarity between objects of the same type. To do that let us start off by declaring an enum which holds the values for the degree of similarity.
enum DegreeOfSimilarity {
    case exactly_the_same
    case almost_the_same
    case slightly_similar
    case completely_different
}
  1. Infix operator can also have a precedence associated with it. Let us declare our own precedence and use it for our operator.
precedencegroup DegreeOfSimilarityPrecedence {
    higherThan: AdditionPrecedence
    lowerThan: MultiplicationPrecedence
    associativity: none
    assignment: true
}

Let us examine the values we have given:

higherThan: This indicates that our precedence has higher priority than the Addition precedence

lowerThan: This indicates that our precedence has lower priority than the Multiplication precedence

Associativity: This indicates that our operator is not associative. So we cannot combine multiple occurrences of our operator in one statement.

assignment: This indicates that out operators has the same behaviour, as other operators that assign, when it comes to optional chaining.

  1. Now we can declare our infix operator.
infix operator ≈ : DegreeOfSimilarityPrecedence

It is useful to save your new operator symbols as code snippets to easily use them. You can read this article if you don’t know how to create a code snippet.

  1. Let us look at the implementation. I am going to use the same person type we used earlier.
extension Person {
    static func ≈ (lhsValue : Person, rhsValue : Person) -> DegreeOfSimilarity {
        guard lhsValue.name == rhsValue.name else {
            return DegreeOfSimilarity.completely_different
        }
        
        guard lhsValue.age == rhsValue.age else {
            return DegreeOfSimilarity.almost_the_same
        }
        
        return DegreeOfSimilarity.exactly_the_same
    }
}
  1. Now we will test them and see.
var employee1 : Person = Person(name: "Jack",
                                age: 22)

var employee2 : Person = Person(name: "John",
                                age: 21)

var employee3 : Person = Person(name: "Jack",
                                age: 23)

var employee4 : Person = Person(name: "Jack",
                                age: 23)

print(#line, employee1 ≈ employee2)

print(#line, employee1 ≈ employee3)

print(#line, employee3 ≈ employee4)
  1. Run the code and see the end result.

Feel free to create more operators and play around. You could also package these operators in a swift package and share them around. I have shared links to

Summary the new operator

Creating operators is very easy. Most of the requirements are rather straightforward. However, choosing the right symbol is a very important task.

The one thing that we should keep in mind is not to over use these. It can be tempting to do this. But abstracting everything can make the code look a little too vague.

So that is how you can create operators. 

Download the sample project

I have uploaded some of the custom operators, that I have shown above, as a Swift Package. You can download the package as well as a demo project, which shows how to use them, from the links below.

Custom Operators Swift Package Download
Custom Operators usage Demo Project Download

Video

Here is the video describing what we discussed above.

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Creating Code Snippets in Xcode

/ Arun Patwardhan / 1 Comment

What are code snippets?

Code snippets are as the name suggests, short pieces of code that can quickly be inserted into your code file. This is done either by dragging the snippet or by typing out the completion. Code snippets are very easy to create and use and can be applied in a wide variety of situations.

We will look at how you can create & use snippets. The following example is done in a playground, but this could be done from anywhere within Xcode.

Note: The example below was performed on Xcode 11.7

How do we create code snippets?

  1. Start off by writing the code or text that you want to convert into a snippet. For example, I have a set of comments that I add at the start of every function. Write it down.
/**
 This function performs a comparison of the 2 objects
 - important: This function does not perform data validation.
 - returns: `Bool`.
 - requires: iOS 13 or later
 - Since: iOS 13
 - parameter lhsValue: This holds the value on the lhs of the operator
 - parameter rhsValue: This holds the value on the rhs of the operator
 - Example: `var answer =  venueAddress == hotelAddress`
 - author: Arun Patwardhan
 - copyright: Copyright (c) Amaranthine 2020
 - date: 14th September 2020
 - version: 1.0
 */

2. Select it.
3. From the menu bar select Editor > Create Code Snippet.

This brings up the snippet editor.
4. Give your snippet the following details.

OptionDescription
NameThis is the name of your code snippet.
PlatformThis determines whether your snippet is available only for certain platforms: say only for iOS.
AvailabilityThis determines the place where the snippet can be added.
CompletionThis is the word that we will be typing in the Xcode editor to trigger the implementation of the snippet
LanguageThis specifies the language for which the snippet will be applied.

Name: Func Documentation

Language: Swift

Platform: All

Availability: All scopes

Completion: doc

Note that the values for Name and Completion can be whatever you want.

This is how the snippet should look.

5. Now we will try to use it in the editor. Start typing the completion word in the Xcode editor.

6. Select the snippet with your name and completion.
7. Hit enter. You should see the comments you want appearing in the editor.

Placeholder

We can make our snippet above even better by using placeholders. Placeholders are pieces of text that can be replaced by the user. They also give information about what is expected in the placeholder.

We can add place holders by simply typing the hint inside placeholder brackets. Placeholder brackets are nothing but open <# and closing #>. For example:

<# some text #>

Which appears as

The user will simply click on the “some text” placeholder.

There are plenty of places in our comments where we can use placeholders. When we use the code snippet it should put comments with place holders in them.

  1. Let us change the comments in our Xcode editor first. We will edit the snippet later on. Make the changes as shown below.
/**
 <# put the description of your function here #>
 - important: <# mention some important points here #>
 - returns: `<# return type #>`.
 - requires: iOS  <#iOS Version#>  or later
 - Since: iOS  <#iOS Version#>
 - parameter <#param 1#>: This holds the value on the lhs of the operator
 - parameter <#param2#>: This holds the value on the rhs of the operator
 - Example: `<#put some example code here#>`
 - author: Arun Patwardhan
 - copyright: Copyright (c) Amaranthine 2020
 - date: <#day#>  <#month#>  <#year#>
 - version: 1.0
 */

We have made the following items into comments.

  • Description
  • OS Version
  • Return type
  • Important comments
  • Parameter 1 & 2 names
  • Sample code
  • Day, Month, & Year

Of course, there are other things we could change too. Feel free to make any other changes you can think of.

2. Let us now copy these changes to the code snippet we created. Copy the code from the Xcode editor.

To bring the snippet editor again simply click on the add object button in the upper right hand corner of Xcode.

4. Select the snippet from the list on the left and click edit.
5. Paste the code that you just copied. Your snippet editor should look like this:

6. Click on ‘Done’ once you are finished making changes. Your snippet will now be ready.

7. Try adding the snippet into your editor just like before. Simply type in the completion for your snippet.

Dragging snippets

We can use the autocompletion we saw earlier. But it is also possible for us to drag snippets.

Exporting code snippets

Once created it is possible to export/import code snippets too. All the snippets are located in the following folder.

~/Library/Developer/Xcode/UserData/CodeSnippets/

Any snippets you have created will be located there.

Any new snippets to be added will have to be added there.

Summary

Code snippets are easy to create and have several advantages:

  1. They improve the developers experience
  2. Promote consistent code
  3. Speeds up the process of writing code
  4. Encourages developers to use each others snippets and gain the first 3 advantages.

Creating and using snippets is very very easy and has a lot of benefits. So go ahead and create snippets.

Creating custom templates for iOS App Development

/ Arun Patwardhan / 1 Comment

What are Xcode templates?

Xcode templates are basically pre-created files which we use when we create new projects or project files. So every time you go through the process of creating a new project File > New > Project > iOS > Single View App you are using the Single View App template.

While most of the templates are good enough we can easily create our own templates.

Why do we need custom templates?

The templates available out of the box are good for common situations. But we find that most of the times we end up creating a lot of file in our project. Sometime we implement common design patterns and architectures on a regular basis.

In such situations creating out own custom templates will help us save a lot of time during development.

The other advantage is that this promotes a more consistent development experience in any organisation.

Now that we know what templates are and why we may need custom templates let us look at how we can create them.

Template Types

Before we go ahead and create templates let us examine what a typical template includes.

Navigate to the following path:

/Applications/Xcode.app/Contents/Developer/Platforms/iPhoneOS.platform/Developer/Library/Xcode/Templates/

Notice that there are 2 folders already created out here. File Templates & Project Templates. Let us browse through these folders.

File Templates

These are the templates used when a developer wishes to add a new file to an existing project. Under file templates you should see different folders in there. Each folder represents a certain category of templates. For example, User Interface is one category. Select it.

You should see multiple folders under it. The screenshot above shows the View template. As we can see the template itself is a folder with multiple files inside. The template ends with an extensions xctemplate. Let us look at those files.

  • ___FILEBASENAME___.xib
  • TemplateIcon.png
  • TemplateIcon@2x.png
  • TemplateInfo.plist

The first one is the XIB file which will be generated by this template. The ___FILEBASENAME___ placeholder will be replaced with an actual name when it is created.

The next 2 are simply images that will be used as icons for the template when we bring up the template wizard in Xcode.

The last one is the more important one. The TemplateInfo.plist. This is where we describe how the file creation process works. This is also where we configure options which will be presented to the user. We will look at this file in greater depth later on when we try to create our own templates.

Project Templates

These are the templates that are used when a developer decides to create a new project. Under project templates you should see different folders in there. Each folder represents a certain category of templates. For example, Application is one category. Select it.

I have the single view app template inside it. This is the most commonly used template when starting out with iOS App Development. You should see other familiar project templates. Feel free to examine the files in the folder. Let us have a look inside the Single View App template folder. You should see these items:

  • ContentView.swift
  • Main.storyboard
  • TemplateIcon.png
  • TemplateIcon@2x.png
  • Preview Assets.xcassets folder
  • TemplateInfo.plist

The first 2 files are the UI related files. One of the 2 will be selected based on the users choice between Storyboard and SwiftUI.

The next 2 are simply images that will be used as icons for the template when we bring up the template wizard in Xcode.

The Preview Assets folder is used with SwiftUI for previewing purposes.

Here too we have the TemplateInfo.plist file which configures the template options at the time of creation. We will explore this file in greater depth when we try to create our own project template.

How can we create them?

In this article we will look at creating 2 types of templates.

  1. File Templates
  2. Project Templates

Warning: It may be a good idea to try this out on a test computer so that you do not break anything on the computer you use everyday.

Preparation

Before we get started let us prepare the folders where we will be storing our custom templates.

  1. Navigate to the following folder.
~/Library/Developer/Xcode/Templates/

Note, you may have to create this folder.

  1. There should be 2 folders inside: File Templates, Project Templates. If these folders are not there then go ahead and create them.

We will be placing our templates in these folders.

TopicPage
Creating File templates2
Creating Project templates3

Download

You can download the templates from these links.

Note

This code has been tested on Xcode 11.3.1 on macOS Catalina 10.15.3

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Creating iOS Apps without Storyboard – Part 1

/ Arun Patwardhan / 2 Comments

What are “nibless” apps?

Apps which are designed without the help of Storyboard are called as “Nibless” apps. Normally we design an app with the help of a Storyboard file. Earlier they were called Xib files or Nib files. Hence the term “Nibless”.

Why should we create Apps without storyboard?

There are a number of reasons.

  1. It makes for a better experience when implementing along with version control.
  2. Allows us to create UI elements dynamically.
  3. Makes reusable UI Components easier to distribute and reuse.

How can we create Apps without Storyboard?

There are a couple of things that need to be done. Firstly the Main.storyboard file needs to be removed and the project settings need to be updated to reflect this change.. We are doing this since we won’t be using the storyboard file.
Everything will now have to be started up by us manually. Many of these tasks were taken care of by storyboard, but since that was removed we will have to do it. This means we have to manually create the window, create the view controller set it as a the root view controller.
We also have to manually create each and every component on our own. That is the very thing we were trying to achieve.

This example is implemented on Xcode 10.3 on macOS 10.14.5. We are not implementing auto layout in this article. We will look at implementing that programmatically in the next article.

  1. Let us start with an empty project. Open Xcode.
  2. Select File > New > Project
  3. Give it any name. Select the language as Swift & leave the checkboxes unchecked.
  4. Once the project loads select the Main.storyboard file and delete it.
  5. Switch to the Project settings file.
  6. Remove the entry for the main interface.
  7. It is a good idea to leave the LaunchScreen.storyboard file. The reason for this is to give the launch process a reference of the screen size it needs to produce. Else it will default down to the 0,0,320,480 which is the old iPhone size.
  8. Switch to the AppDelegate.swift file.
  9. Add the following property below the UI Window declaration. 
      
let mainScreenController : ViewController = ViewController()
  10. Add the code to create the window and set root view controller in the didFinishLaunchingWithOptions method 
       
//1. Create the UIWindow object   
self.window = UIWindow(frame: UIScreen.main.bounds)   

//2. Set the root view controller   
self.window?.rootViewController = self.mainScreenController   

//3. Make the window key and visible  
self.window?.makeKeyAndVisible()
  11. Switch to the ViewController.swift file.
  12. Declare the following variables 
      
//UI Variables  
var labelDemo   : UILabel?  
var imageDemo   : UIImageView?  
var buttonDemo  : UIButton = UIButton(type: UIButton.ButtonType.roundedRect) 
var dataField   : UITextField?
  13. Implement the function to create labels. The process of creating a view programmatically is fairly straightforward. Barring a few variations depending on the view component nothing is drastically different. 
      
func createLabel() 
{      
     //1. Specify the dimensions      
     let labelRect : CGRect   = CGRect(x: 100.0, y: 50.0, width: self.view.frame.size.width - 130.0, height: 60.0)     

     //2. Create the view object      
     labelDemo                = UILabel(frame: labelRect)      

     //3. Customise the view attributes      
     labelDemo?.text          = "This is my first Programmatic App."                
     labelDemo?.textColor     = UIColor.yellow      
     labelDemo?.textAlignment = NSTextAlignment.left  
     labelDemo?.numberOfLines = 0      
     labelDemo?.font          = UIFont.boldSystemFont(ofSize: 20.0)      

     //4. Add the view to the subview      
     self.view.addSubview(labelDemo!) 
}
    Let us examine the steps one by one. 
     
//1. Specify the dimensions 
let labelRect : CGRect = CGRect(x: 100.0, y: 50.0, width: self.view.frame.size.width - 130.0, height: 60.0)
    This will define the dimensions of the view. As we are not implementing auto layout we will need to do this manually. 
     
//2. Create the view object
labelDemo = UILabel(frame: labelRect)
    Now that we have the dimensions we can go ahead and instantiate an instance of the label object using those dimensions. These 2 parts are the same as dragging a label from the object library onto the storyboard and placing it onto the storyboard per our requirements. 
    //3. Customise the view attributes 
labelDemo?.text          = "This is my first Programmatic App."     
labelDemo?.textColor     = UIColor.yellow 
labelDemo?.textAlignment = NSTextAlignment.center      
labelDemo?.numberOfLines = 0 
labelDemo?.font          = UIFont.boldSystemFont(ofSize: 20.0)
    This part is the same as changing the attributes in the attributes inspector. This is where we customise the label. 
     
//4. Add the view to the subview 
self.view.addSubview(labelDemo!)
    This last part also forms one part of dragging the label on to the storyboard. When we drag a view on to the storyboard it is placed within the main view that belongs to the ViewController. This statement completes the above process.
  14. Repeat the above steps for showing an image. 
    func createImage()
{
     //1. Specify the dimensions
     let imageRect  : CGRect  = CGRect(x: 30.0, y: 50.0, width: 60.0, height: 60.0)

     //2. Create the image model
     let imageModel : UIImage = UIImage(named: "logo.png")!

     //3. Create the view object
     imageDemo                = UIImageView(frame: imageRect)

     //4. Customise the view attributes
     imageDemo?.image         = imageModel
     imageDemo?.contentMode   = UIView.ContentMode.scaleAspectFit

     //5. Add the view to the subview
     self.view.addSubview(imageDemo!)
}
    The code above is almost similar to the one created for labels except for the fact that we had to explicitly create a model object for the view. Images being different from strings, require this process to be done explicitly.
  15. Similarly let us implement the code for creating buttons 
    func createButton()
{
     //1. Specify the dimensions
     let buttonRect : CGRect = CGRect(x: 30.0, y: 220.0, width: 100.0, height: 50.0)

     //2. Provide the frame to the button
     buttonDemo.frame = buttonRect

     //3. Customise the view attributes
     buttonDemo.setTitle("Click Me", for: UIControl.State.normal)
     buttonDemo.addTarget(self, action: #selector(ViewController.clickMeTapped), for: UIControl.Event.touchDown)

     //4. Add the view to the subview
     self.view.addSubview(buttonDemo)
}

@objc func clickMeTapped(
{
     print("Click me tapped!")
}
    Again just minor variations here. Mainly the step to add a target function to be invoked when the button is tapped. We also need to write the target function itself.
  16. We will also implement the code to create a text field. 
    func createTextField()
{
    //1. Provide dimensions for the view
    let tfRect : CGRect             = CGRect(x: 30.0, y: 140.0, width: self.view.frame.size.width - 60.0, height: 50.0)
        
    //2. Create the view object
    dataField                       = UITextField(frame: tfRect)
        
    //3. Customise the attributes of the view
    dataField?.placeholder          = "Enter Name"
    dataField?.borderStyle          = UITextField.BorderStyle.roundedRect
    dataField?.keyboardType         = UIKeyboardType.namePhonePad
    dataField?.keyboardAppearance   = UIKeyboardAppearance.dark
    dataField?.returnKeyType        = UIReturnKeyType.go
        
    //4. Add the view to the subview
    self.view.addSubview(dataField!)
}
  17. Next we need to call all these functions. I have implemented a single creator function for that. 
    func createUIElements()
{
     self.createLabel()
     self.createImage()
     self.createButton()
     self.createTextField()
}
  18. Lastly we will call this function in the viewDidLoad method. Add the following lines to the viewDidLoad method. 
    self.view.backgroundColor = UIColor.lightGray
self.createUIElements()
    I have also added code to change the background colour so that we can see the background clearly.
  19. Run the project. Everything should appear normally.

Are there any benefits of creating apps without storyboard?

The points mentioned in the “why should we make programmatic apps?” section are some of the advantages. Beyond that there aren’t too many.
If you are looking at a team based project development then this approach is good.
There is no difference in terms of memory or performance when it comes down to apps design with or without storyboard.

Are there any drawbacks?

As can be seen from the example above, there are a couple of drawbacks

  1. The main drawback is that you can’t get a quick preview of how your app looks. You have to run the simulation every time you wish to see the end result.
  2. There is a lot more coding involved. Which can be daunting to those who are overly accustomed to designing with the help of storyboards

Note

A small point. I have left the LaunchScreen.storyboard file. I did not delete it. The reason I did that was to allow the app to allow the system to determine the dimensions on the device. If we do delete the file then the UIScreen.main.bounds return (0.0, 0.0, 320.0, 480.0) which are the old iPhone screen size settings.
While you can go ahead and make changes programmatically it is a lot easier to just leave the LaunchScreen.storyboard file there.

Carrying on from the previous point. It actually is okay if you leave the Main.storyboard file as is too. In which case you will have to skip steps 5,6,8,9,10. The code is still running programmatically but you do not have to create the main ViewController manually.

Download the Source Code

You can download the Xcode Project from this link.