I’ve yet another factor to say on the relative sizing view modifier from my earlier submit, Working with percentages in SwiftUI format. I’m assuming you’ve learn that article. The next is nice to know if you wish to use the modifier in your individual code, however I hope you’ll additionally study some normal tidbits about SwiftUI’s format algorithm for HStacks and VStacks.
Utilizing relative sizing inside a stack view
Let’s apply the relativeProposed
modifier to one of many subviews of an HStack
:
HStack(spacing: 10) {
Colour.blue
.relativeProposed(width: 0.5)
Colour.inexperienced
Colour.yellow
}
.border(.major)
.body(top: 80)
What do you anticipate to occur right here? Will the blue view take up 50 % of the obtainable width? The reply is not any. The truth is, the blue rectangle turns into narrower than the others:
It is because the HStack
solely proposes a proportion of its obtainable width to every of its youngsters. Right here, the stack proposes one third of the obtainable area to its first youngster, the relative sizing modifier. The modifier then halves this worth, leading to one sixth of the whole width (minus spacing) for the blue coloration. The opposite two rectangles then turn into wider than one third as a result of the primary youngster view didn’t burn up its full proposed width.
Order issues
Now let’s transfer the modifier to the inexperienced coloration within the center:
HStack(spacing: 10) {
Colour.blue
Colour.inexperienced
.relativeProposed(width: 0.5)
Colour.yellow
}
Naively, I’d anticipate an equal outcome: the inexperienced rectangle ought to turn into 100 pt large, and blue and yellow ought to be 250 pt every. However that’s not what occurs — the yellow view finally ends up being wider than the blue one:
I discovered this unintuitive at first, but it surely is sensible in case you perceive that the HStack processes its youngsters in sequence:
-
The HStack proposes one third of its obtainable area to the blue view:
(620 – 20) / 3 = 200
. The blue view accepts the proposal and turns into 200 pt large. -
Subsequent up is the
relativeProposed
modifier. The HStack divides the remaining area by the variety of remaining subviews and proposes that:400 / 2 = 200
. Our modifier halves this proposal and proposes 100 pt to the inexperienced view, which accepts it. The modifier in flip adopts the dimensions of its youngster and returns 100 pt to the HStack. -
For the reason that second subview used much less area than proposed, the HStack now has 300 pt left over to suggest to its remaining youngster, the yellow coloration.
Essential: the order by which the stack lays out its subviews occurs to be from left to proper on this instance, however that’s not at all times the case. On the whole, HStacks and VStacks first group their subviews by format precedence (extra on that beneath), after which order the views inside every group by flexibility such that the least versatile views are laid out first. For extra on this, see How an HStack Lays out Its Youngsters by Chris Eidhof. The views in our instance are all equally versatile (all of them can turn into any width between 0 and infinity), so the stack processes them of their “pure” order.
Leftover area isn’t redistributed
By now you could have the ability guess how the format seems after we transfer our view modifier to the final youngster view:
HStack(spacing: 10) {
Colour.blue
Colour.inexperienced
Colour.yellow
.relativeProposed(width: 0.5)
}
-
Blue and inexperienced every obtain one third of the obtainable width and turn into 200 pt large. No surprises there.
-
When the HStack reaches the relative sizing modifier, it has 200 pt left to distribute. Once more, the modifier and the yellow rectangle solely use half of this quantity.
The top result’s that the HStack finally ends up with 100 pt left over. The method stops right here — the HStack does not begin over in an try and discover a “higher” resolution. The stack makes itself simply large enough to include its subviews (= 520 pt incl. spacing) and studies that dimension to its father or mother.
Format precedence
We are able to use the layoutPriority
view modifier to affect how stacks and different containers lay out their youngsters. Let’s give the subview with the relative sizing modifier a better format precedence (the default precedence is 0):
HStack(spacing: 10) {
Colour.blue
Colour.inexperienced
Colour.yellow
.relativeProposed(width: 0.5)
.layoutPriority(1)
}
This ends in a format the place the yellow rectangle truly takes up 50 % of the obtainable area:
Clarification:
-
The HStack teams its youngsters by format precedence after which processes every group in sequence, from highest to lowest precedence. Every group is proposed the complete remaining area.
-
The primary format group solely incorporates a single view, our relative sizing modifier with the yellow coloration. The HStack proposes your entire obtainable area (minus spacing) = 600 pt. Our modifier halves the proposal, leading to 300 pt for the yellow view.
-
There are 300 pt left over for the second format group. These are distributed equally among the many two youngsters as a result of every subview accepts the proposed dimension.
Conclusion
The code I used to generate the pictures on this article is accessible on GitHub. I solely appeared HStacks right here, however VStacks work in precisely the identical method for the vertical dimension.
SwiftUI’s format algorithm at all times follows this fundamental sample of proposed sizes and responses. Every of the built-in “primitive” views (e.g. fastened and versatile frames, stacks, Textual content
, Picture
, Spacer
, shapes, padding
, background
, overlay
) has a well-defined (if not at all times well-documented) format conduct that may be expressed as a perform (ProposedViewSize) -> CGSize
. You’ll have to study the conduct for view to work successfully with SwiftUI.
A concrete lesson I’m taking away from this evaluation: HStack
and VStack
don’t deal with format as an optimization downside that tries to seek out the optimum resolution for a set of constraints (autolayout fashion). Moderately, they kind their youngsters in a specific method after which do a single proposal-and-response cross over them. If there’s area leftover on the finish, or if the obtainable area isn’t sufficient, then so be it.