Layout priorities in SwiftUI

This week we will talk about another core process in SwiftUI. We will learn the procedure of laying out views. We will understand how SwiftUI calculates positions and sizes of our views and how we can change that process using layout priorities.

Basics

You can build regular views without real knowledge of the layout process. SwiftUI has a declarative nature where you have to describe what you want to achieve, and SwiftUI will understand it. Let’s start our discussion with the simple example of a “Hello World” app in SwiftUI.

import SwiftUI struct MessageView : View { var body : some View { Text ( "Hello World!!!" ) } }

Assume that MessageView is the root view of our app.

SwiftUI passes all the available space to MessageView. MessageView has only one child, which is the text view. MessageView proposes the available space to the text view and asks it to calculate its size. The text view measures the size of its content and passes it back to MessageView. MessageView now understands the size of the text view and place it in the center of available space.

This is how the SwiftUI layout system works. It always applies these four steps.

Layout Priority

Let’s take a look at the more complicated example with multiple sibling views inside an HStack.

import SwiftUI struct MessageView : View { var body : some View { HStack ( spacing : 16 ) { Text ( "Hello" ) Text ( "World" ) Text ( "!!!" ) } . font ( . largeTitle ) } }

Vertical and horizontal stacks have additional steps in the layout process.

First of all, stack view calculates adaptive spacing between items and deducts it from available space. Then stack view divides available space into equal parts and offers one of them to the first child. The child view calculates its size and returns it to the parent stack. As the next step, stack deducts the size of the first child from available space and divide it into equal portions again. Stack view repeats this process as many times as needed to calculate the size of every child. It the end, stack view sum the spacing between items and calculated sizes of children to understand its own size and pass it back to the parent.

One thing that we can adjust in this process is the order of size proposing. Usually, SwiftUI starts the layout process inside a stack with the least flexible view. But we can alter this rule by using layoutPriority modifier. Layout priority defines the order of the size proposing process. By default, all views have 0 as default priority. SwiftUI allows us to set a custom layout priority using layoutPriority modifier. SwiftUI uses layout priorities to sort views in descending order. It means SwiftUI will propose views with higher priority first.

import SwiftUI struct MessageView : View { var body : some View { HStack ( spacing : 16 ) { Text ( "Hello" ) Text ( "World" ) Text ( "!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!" ) . layoutPriority ( 1 ) } . font ( . largeTitle ) . lineLimit ( 1 ) } }

As you can see in the example above, we use layoutPriority modifier to change the order of the layout process. SwiftUI will start the size proposing process with the latest view inside the HStack because it has the highest priority in the view hierarchy. Try to remove layoutPriority modifier to understand how it works.

Conclusion

This week we learned about another exciting feature of SwiftUI. To be honest, I don’t use layout priorities a lot. Usually, I’m able to build the needed layout without altering priorities, but it is always good to know that we have this tool in the toolbox. I hope you enjoy the post. Feel free to follow me on Twitter and ask your questions related to this post. Thanks for reading, and see you next week!