12

I'm trying to recreate basic collection view behavior with SwiftUI:

I have a number of views (e.g. photos) that are shown next to each other horizontally. When there is not enough space to show all photos on the same line, the remaining photos should wrap to the next line(s).

Here's an example:

landscape version portrait

It looks like one could use one VStack with a number of HStack elements, each containing the photos for one row.

I tried using GeometryReader and iterating over the photo views to dynamically create such a layout, but it won't compile (Closure containing a declaration cannot be used with function builder 'ViewBuilder'). Is it possible to dynamically create views and return them?

Clarification:

The boxes/photos can be of different width (unlike a classical "grid"). The tricky part is that I have to know the width of the current box in order to decide if it fits on the current row of if I have to start a new row.

3
  • You can use package github.com/Q-Mobile/QGrid, either by including the Package in your project, or just as an inspiration for your own solution.
    – kontiki
    Commented Aug 15, 2019 at 13:14
  • Thanks for the link. It looks promising, but is not quite what I need. In my case, the width of the boxes varies, i.e. there could be 2 on the first row and 3 on the next. What makes this difficult is that I need to know the width of the current box to determine if it will fit on the current row or if I have to start a new row.
    – Mark
    Commented Aug 15, 2019 at 13:28
  • I have written some articles about view preferences that can be useful (check my profile for a link to my blog if you need that information).
    – kontiki
    Commented Aug 15, 2019 at 13:31

3 Answers 3

8

Here is how I solved this using PreferenceKeys.

public struct MultilineHStack: View {
    struct SizePreferenceKey: PreferenceKey {
        typealias Value = [CGSize]
        static var defaultValue: Value = []
        static func reduce(value: inout Value, nextValue: () -> Value) {
            value.append(contentsOf: nextValue())
        }
    }

    private let items: [AnyView]
    @State private var sizes: [CGSize] = []

    public init<Data: RandomAccessCollection,  Content: View>(_ data: Data, @ViewBuilder content: (Data.Element) -> Content) {
          self.items = data.map { AnyView(content($0)) }
    }

    public var body: some View {
        GeometryReader {geometry in
            ZStack(alignment: .topLeading) {
                ForEach(0..<self.items.count) { index in
                    self.items[index].background(self.backgroundView()).offset(self.getOffset(at: index, geometry: geometry))
                }
            }
        }.onPreferenceChange(SizePreferenceKey.self) {
                self.sizes = $0
        }
    }

    private func getOffset(at index: Int, geometry: GeometryProxy) -> CGSize {
        guard index < sizes.endIndex else {return .zero}
        let frame = sizes[index]
        var (x,y,maxHeight) = sizes[..<index].reduce((CGFloat.zero,CGFloat.zero,CGFloat.zero)) {
            var (x,y,maxHeight) = $0
            x += $1.width
            if x > geometry.size.width {
                x = $1.width
                y += maxHeight
                maxHeight = 0
            }
            maxHeight = max(maxHeight, $1.height)
            return (x,y,maxHeight)
        }
        if x + frame.width > geometry.size.width {
            x = 0
            y += maxHeight
        }
        return .init(width: x, height: y)
    }

    private func backgroundView() -> some View {
        GeometryReader { geometry in
            Rectangle()
                .fill(Color.clear)
                .preference(
                    key: SizePreferenceKey.self,
                    value: [geometry.frame(in: CoordinateSpace.global).size]
                )
        }
    }
}

You can use it like this:

struct ContentView: View {
    let texts = ["a","lot","of","texts"]
    var body: some View {
        MultilineHStack(self.texts) {
            Text($0)
        }
    }
}

It works not only with Text, but with any views.

3
  • Would be better with position instead of offset, in order for the views around the MultilineHStack to position correctly instead of above the elements. Great stuff though.
    – Daniel
    Commented Mar 11, 2021 at 17:51
  • In the end, this answer did not work for me since it was positioning elements around it wrong (even using position instead of offset) and I ended up creating a GitHub project ( WrappingHStack) to make it easier in the future
    – Daniel
    Commented Mar 21, 2021 at 18:21
  • Thanks for this. I made some changes to this code so that it functions more like a LazyHStack as I was unable to pass my custom view into this struct. I'll post it as an answer with acknowledgement.
    – JohnnyD
    Commented Aug 10, 2023 at 11:55
5

I managed something using GeometryReader and the ZStack by using the .position modifier. I'm using a hack method to get String Widths using a UIFont, but as you are dealing with Images, the width should be more readily accessible.

The view below has state variables for Vertical and Horizontal alignment, letting you start from any corner of the ZStack. Probably adds undue complexity, but you should be able to adapt this to your needs.

//
//  WrapStack.swift
//  MusicBook
//
//  Created by Mike Stoddard on 8/26/19.
//  Copyright © 2019 Mike Stoddard. All rights reserved.
//

import SwiftUI

extension String {
    func height(withConstrainedWidth width: CGFloat, font: UIFont) -> CGFloat {
        let constraintRect = CGSize(width: width, height: .greatestFiniteMagnitude)
        let boundingBox = self.boundingRect(with: constraintRect, options: .usesLineFragmentOrigin, attributes: [.font: font], context: nil)

        return ceil(boundingBox.height)
    }

    func width(withConstrainedHeight height: CGFloat, font: UIFont) -> CGFloat {
        let constraintRect = CGSize(width: .greatestFiniteMagnitude, height: height)
        let boundingBox = self.boundingRect(with: constraintRect, options: .usesLineFragmentOrigin, attributes: [.font: font], context: nil)

        return ceil(boundingBox.width)
    }
}


struct WrapStack: View {
    var strings: [String]

    @State var borderColor = Color.red
    @State var verticalAlignment = VerticalAlignment.top
    @State var horizontalAlignment = HorizontalAlignment.leading

    var body: some View {
        GeometryReader { geometry in
            ZStack {
                ForEach(self.strings.indices, id: \.self) {idx in
                    Text(self.strings[idx])
                        .position(self.nextPosition(
                            index: idx,
                            bucketRect: geometry.frame(in: .local)))
                }   //end GeometryReader
            }   //end ForEach
        }   //end ZStack
        .overlay(Rectangle().stroke(self.borderColor))
    }   //end body

    func nextPosition(index: Int,
                      bucketRect: CGRect) -> CGPoint {
        let ssfont = UIFont.systemFont(ofSize: UIFont.systemFontSize)
        let initX = (self.horizontalAlignment == .trailing) ? bucketRect.size.width : CGFloat(0)
        let initY = (self.verticalAlignment == .bottom) ? bucketRect.size.height : CGFloat(0)
        let dirX = (self.horizontalAlignment == .trailing) ? CGFloat(-1) : CGFloat(1)
        let dirY = (self.verticalAlignment == .bottom) ? CGFloat(-1) : CGFloat(1)

        let internalPad = 10   //fudge factor

        var runningX = initX
        var runningY = initY
        let fontHeight = "TEST".height(withConstrainedWidth: 30, font: ssfont)

        if index > 0 {
            for i in 0...index-1 {
                let w = self.strings[i].width(
                    withConstrainedHeight: fontHeight,
                    font: ssfont) + CGFloat(internalPad)
                if dirX <= 0 {
                    if (runningX - w) <= 0 {
                        runningX = initX - w
                        runningY = runningY + dirY * fontHeight
                    } else {
                        runningX -= w
                    }
                } else {
                    if (runningX + w) >= bucketRect.size.width {
                        runningX = initX + w
                        runningY = runningY + dirY * fontHeight
                    } else {
                        runningX += w
                    }   //end check if overflow
                }   //end check direction of flow
            }   //end for loop
        }   //end check if not the first one

        let w = self.strings[index].width(
            withConstrainedHeight: fontHeight,
            font: ssfont) + CGFloat(internalPad)

        if dirX <= 0 {
            if (runningX - w) <= 0 {
                runningX = initX
                runningY = runningY + dirY * fontHeight
            }
        } else {
            if (runningX +  w) >= bucketRect.size.width {
                runningX = initX
                runningY = runningY + dirY * fontHeight
            }  //end check if overflow
        }   //end check direction of flow

        //At this point runnoingX and runningY are pointing at the
        //corner of the spot at which to put this tag.  So...
        //
        return CGPoint(
            x: runningX + dirX * w/2,
            y: runningY + dirY * fontHeight/2)
    }

}   //end struct WrapStack

struct WrapStack_Previews: PreviewProvider {
    static var previews: some View {
        WrapStack(strings: ["One, ", "Two, ", "Three, ", "Four, ", "Five, ", "Six, ", "Seven, ", "Eight, ", "Nine, ", "Ten, ", "Eleven, ", "Twelve, ", "Thirteen, ", "Fourteen, ", "Fifteen, ", "Sixteen"])
    }
}
0

This is a revision of bzz's answer. Struct description in the markup.


//  MultilineHStackView.swift
//  Everything Demonstrated
//
//  Created by John Durcan on 10/08/2023.
//
import SwiftUI


/// `MultilineHStack` is a SwiftUI view that arranges its items horizontally, automatically wrapping to the next line when running out of horizontal space.
///
/// Items are arranged similarly to how words are laid out in a paragraph: horizontally until no more space is available, at which point it moves to the next line.
///
/// Usage:
/// ```
/// MultilineHStack(dataCollection) { item in
///     // SwiftUI View representing each item
/// }
/// ```
///
/// - Important: The data collection's element type should conform to the `Identifiable` protocol.
///
/// # Example
/// ```
/// struct IdentifiableString: Identifiable {
///     let id = UUID()
///     let value: String
/// }
///
/// let texts: [IdentifiableString] = [
///     IdentifiableString(value: "a"),
///     IdentifiableString(value: "lot"),
///     // ... other data items
/// ]
///
/// MultilineHStack(texts) { item in
///     Text(item.value)
/// }
/// ```
///
/// - Parameters:
///     - Data: The collection type of the data being displayed.
///     - Content: The SwiftUI view type for each item.
///
public struct MultilineHStack<Data: RandomAccessCollection, Content: View>: View where Data.Element: Identifiable {
    struct SizePreferenceKey: PreferenceKey {
        typealias Value = [CGSize]
        static var defaultValue: Value { [] }
        static func reduce(value: inout Value, nextValue: () -> Value) {
            value.append(contentsOf: nextValue())
        }
    }

    private let data: Data
    private let content: (Data.Element) -> Content
    @State private var sizes: [CGSize] = []

    public init(_ data: Data, @ViewBuilder content: @escaping (Data.Element) -> Content) {
        self.data = data
        self.content = content
    }

    public var body: some View {
        GeometryReader { geometry in
            ZStack(alignment: .topLeading) {
                ForEach(0..<data.count, id: \.self) { index in
                    content(data[data.index(data.startIndex, offsetBy: index)])
                        .background(backgroundView())
                        .offset(getOffset(at: index, geometry: geometry))
                }
            }
        }
        .onPreferenceChange(SizePreferenceKey.self) { self.sizes = $0 }
    }


    private func getOffset(at index: Int, geometry: GeometryProxy) -> CGSize {
        guard index < sizes.endIndex else {return .zero}
        let frame = sizes[index]
        var (x,y,maxHeight) = sizes[..<index].reduce((CGFloat.zero,CGFloat.zero,CGFloat.zero)) {
            var (x,y,maxHeight) = $0
            x += $1.width
            if x > geometry.size.width {
                x = $1.width
                y += maxHeight
                maxHeight = 0
            }
            maxHeight = max(maxHeight, $1.height)
            return (x,y,maxHeight)
        }
        if x + frame.width > geometry.size.width {
            x = 0
            y += maxHeight
        }
        return .init(width: x, height: y)
    }
    
    private func backgroundView() -> some View {
        GeometryReader { geometry in
            Rectangle()
                .fill(Color.clear)
                .preference(
                    key: SizePreferenceKey.self,
                    value: [geometry.frame(in: CoordinateSpace.global).size]
                )
        }
    }
}

struct MultilineHStack_Previews: PreviewProvider {
    struct IdentifiableString: Identifiable {
        let id = UUID()
        let value: String
    }

    static let texts = [
        IdentifiableString(value: "a"),
        IdentifiableString(value: "lot"),
        IdentifiableString(value: "of"),
        IdentifiableString(value: "textstextstextstextstextstexts"),
        IdentifiableString(value: "Another one"),
        IdentifiableString(value: "two")
    ]
    
    static var previews: some View {
        MultilineHStack(texts) { file in
            Text(file.value)
                    .padding(6)
        }
            .frame(width: 250)
    }
}

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.