Target is a modification with the following behavior:
(but only with 2 buttons - 1 on the left side, 1 on the right)
Behavior:
short swipe shows the buttons and gives the user the ability to click it.
strong long swipe presses button.
ability to use 2 finger gesture
Minimal reproducible example:
import SwiftUI
public extension View {
func SwiperizeItem(closureL: #escaping () -> (), closureR: #escaping () -> ()) -> some View
{
self.modifier( SwiperizeItemModifier(closureL: closureL, closureR: closureR) )
}
}
struct SwiperizeItemModifier: ViewModifier {
#State var dragOffset = CGSize.zero
#State var offset1Shown = CGSize(width: 100, height: 0)
#State var offset1Click = CGSize(width: 250, height: 0)
#State var offset2Shown = CGSize(width: -100, height: 0)
#State var offset2Click = CGSize(width: -250, height: 0)
#State var BackL = Color.green
#State var BackR = Color.red
#State var ForeColorL = Color.white
#State var ForeColorR = Color.white
#State var closureL: () -> Void
#State var closureR: () -> Void
func body(content: Content) -> some View {
HStack{
Button(action: { closureL() } ) {
Text("Left")
.foregroundColor(ForeColorL)
}
.background(BackL)
.frame(maxWidth: dragOffset.width > 0 ? dragOffset.width : 0)
.fixedSize()
content
//.padding([.leading, .trailing], 20)
.animation(.spring())
.offset(x: self.dragOffset.width)
.gesture(DragGesture()
.onChanged(){
value in
self.dragOffset = value.translation
}
.onEnded(){
value in
if ( dragOffset.width > 0 ) {
if ( dragOffset.width < offset1Shown.width) {
self.dragOffset = .zero
}
else if ( dragOffset.width > offset1Shown.width && dragOffset.width < offset1Click.width ) {
self.dragOffset = offset1Shown
}
else if ( dragOffset.width > offset1Click.width ) {
self.dragOffset = .zero
closureR()
}
}
else {
if ( dragOffset.width > offset2Shown.width) {
self.dragOffset = .zero
}
else if ( dragOffset.width < offset2Shown.width && dragOffset.width > offset2Click.width ) {
self.dragOffset = offset2Shown
}
else if ( dragOffset.width < offset2Click.width ) {
self.dragOffset = .zero
closureL()
}
}
}
)
}
}
}
// ____________________
struct GuestureItem_Previews: PreviewProvider {
static var previews: some View {
Group {
Text("Hello")
.padding(.all, 30)
.background( Color( NSColor.red ) )
.SwiperizeItem(closureL: { print("click left") }, closureR: { print("click right") })
}
}
}
So... my problems are:
to draw buttons like here using SwiftUI:
I think the solution may be related to the new release of SwiftUI components: LazyHGrid or OutlineGroup. https://developer.apple.com/videos/play/wwdc2020/10031
.onDelete() is not a solution for me because it's impossible to do 2 side buttons and impossible to edit "delete" text
how to make 2 fingers swipe using swiftUI? (less important)
Unfortunately there isn't any native SwiftUI solution so far (as of SwiftUI 2 beta).
SwiftUI - Still no support for custom swipe actions
How is possible configure the List "onDelete" action / Button?
SwiftUI - List editing mode - how to change delete button title?
You can make your custom swipe actions using UIKit and wrap them in UIViewRepresentable.
Some solutions (you may have seen them already):
SwiftUI - Custom Swipe Actions In List
Create gesture to edit list item using SwiftUI
Or you can just use a library instead (at least until a native solution is developed).
Some libraries:
SwipeCell (SwiftUI) (may be exactly what you need)
SwipeCellKit (UIKit)
If you want to implement simultaneous swipe gesture you need to use UIViewRepresentable again:
How to detect a tap gesture location in SwiftUI? (this is for tap gestures only but with nice explanation)
SwiftUI: Multitouch gesture / Multiple Gestures (this is the adaptation of the above but with swipe gestures)
Summing up
Answer to the first question: SwipeCell
Answer to the second question: SwiftUI: Multitouch gesture / Multiple Gestures
iOS 15+
In iOS 15 we can finally use native Swipe Actions:
func swipeActions<T>(edge: HorizontalEdge = .trailing, allowsFullSwipe: Bool = true, content: () -> T) -> some View where T : View
They can be attached to the ForEach container just like onMove or onDelete:
ForEach {
// ...
}
.swipeActions(edge: .trailing) {
Button {
print("Editing...")
} label: {
Label("Edit", systemImage: "pencil")
}
}
"How to implement swipe to delete?"
As long as you don't want to create custom UI for the delete button, you can take advantage of SwiftUI and use all of the built in features.
ForEach has a modifier called .onDelete, that gives you an IndexSet. This represents the rows that should be deleted when the user swipes. Now if we implement the necessary logic and wrap it in an animation block, everything will work as needed.
struct ContentView: View {
#State var cars = ["Tesla Model 3", "BMW i3", "Roadster", "Cybertruck", "Agera Koenigsegg", "Rimac Concept One"]
var body: some View {
NavigationView {
List {
ForEach(cars, id: \.self) { car in
Text(car)
}
.onDelete { indexSet in
withAnimation {
cars.remove(atOffsets: indexSet)
}
}
}
.navigationTitle("My Cars")
}
}
}
Note: .onDelete modifier is not available to use with List, can only be applied on ForEach.
"How to make a 2 fingers swipe gesture in SwiftUI?"
As of now SwiftUI does not have support for creating gestures for multiple fingers. The only solution is to use UIViewRepresentable in combination with UIPanGestureRecognizer. Then you can set the minimumNumberOfTouches to 2 fingers.
This post from Apple Developer Forum shows how you could achieve something similar for a simple 2 fingers tap gesture, but the idea and concept for swipe are very similar and already explained above.
Hope this helps! 😊
Related
I'm trying to detect a Long Press gesture on TabView that's swipable.
The issue is that it disables TabView's swipable behavior at the moment.
Applying the gesture on individual VStacks didn't work either - the long press doesn't get detected if I tap on the background.
Here's a simplified version of my code - it can be copy-pasted into Swift Playground:
import SwiftUI
import PlaygroundSupport
struct ContentView: View {
#State var currentSlideIndex: Int = 0
#GestureState var isPaused: Bool = false
var body: some View {
let tap = LongPressGesture(minimumDuration: 0.5,
maximumDistance: 10)
.updating($isPaused) { value, state, transaction in
state = value
}
Text(isPaused ? "Paused" : "Not Paused")
TabView(selection: $currentSlideIndex) {
VStack {
Text("Slide 1")
Button(action: { print("Slide 1 Button Tapped")}, label: {
Text("Button 1")
})
}
VStack {
Text("Slide 2")
Button(action: { print("Slide 2 Button Tapped")}, label: {
Text("Button 2")
})
}
}
.tabViewStyle(PageTabViewStyle(indexDisplayMode: .never))
.frame(width: 400, height: 700, alignment: .bottom)
.simultaneousGesture(tap)
.onChange(of: isPaused, perform: { value in
print("isPaused: \(isPaused)")
})
}
}
PlaygroundPage.current.setLiveView(ContentView())
The overall idea is that this TabView will be rotating the slides automatically but holding a finger on any of them should pause the rotation (similar to Instagram stories). I removed that logic for simplicity.
Update: using DragGesture didn't work either.
The issue here is with the precedence of Animations in SwiftUI. Because TabView is a struct we are unable to change, its animation detection precedence cannot really be changed. The solution to this, however clunky, is to write our own custom tab view that has the expected behavior.
I apologize for how much code is here, but the behavior you described is surprisingly complex. In essence, we have a TimeLineView that is sending automatic updates to our view, telling it to change the pages, as you would see on Instagram. TimeLineView is a new feature, so if you want this to work old school, you could replace it with a Timer and its onReceive method, but I'm using this for brevity.
In the pages themselves, we are listening for this update, but only actually changing the page to the next one if there is room to do so and we are not long pressing the view. We use the .updating modifier on the LongPressGesture to know exactly when our finger is still on the screen or not. This LongPressGesture is combined in a SimultaneousGesture with a DragGesture, so that the drag can also be activated. In the drag gesture, we wait for the user's mouse/finger to traverse a certain percentage of the screen before animating the change in pages.
When sliding backwards, we initiate an async request to set the animation direction back to sliding forwards once the animation completes, so that updates received from the TimeLineView still animate in the correct direction, no matter which way we just swiped. Using custom gestures here has the added benefit that if you choose to do so, you can implement some fancy geometry effects to more closely emulate Instagram's animations. At the same time, our CustomPageView is still fully interactable, which means I can still click on button1 and see it's onTapGesture print message!
One caveat of passing in Views to a struct as a generic as I am doing in CustomTabView is that all of the views must be of the same type, which is part of the reason the pages are now reusable structs in their own right. If you have any questions about what you can / can't do with this methodology, let me know, but I've just run this in Playground same as you and it works exactly as described.
import SwiftUI
import PlaygroundSupport
// Custom Tab View to handle all the expected behaviors
struct CustomTabView<Page: View>: View {
#Binding var pageIndex: Int
var pages: [Page]
/// Primary initializer for a Custom Tab View
/// - Parameters:
/// - pageIndex: The index controlling which page we are viewing
/// - pages: The views to display on each Page
init(_ pageIndex: Binding<Int>, pages: [() -> Page]) {
self._pageIndex = pageIndex
self.pages = pages.map { $0() }
}
struct currentPage<Page: View>: View {
#Binding var pageIndex: Int
#GestureState private var isPressingDown: Bool = false
#State private var forwards: Bool = true
private let animationDuration = 0.5
var pages: [Page]
var date: Date
/// - Parameters:
/// - pageIndex: The index controlling which page we are viewing
/// - pages: The views to display on each Page
/// - date: The current date
init(_ pageIndex: Binding<Int>, pages: [Page], date: Date) {
self._pageIndex = pageIndex
self.pages = pages
self.date = date
}
var body: some View {
// Ensure that the Page fills the screen
GeometryReader { bounds in
ZStack {
// You can obviously change this to whatever you like, but it's here right now because SwiftUI will not look for gestures on a clear background, and the CustomPageView I implemented is extremely bare
Color.red
// Space the Page horizontally to keep it centered
HStack {
Spacer()
pages[pageIndex]
Spacer()
}
}
// Frame this ZStack with the GeometryReader's bounds to include the full width in gesturable bounds
.frame(width: bounds.size.width, height: bounds.size.height)
// Identify this page by its index so SwiftUI knows our views are not identical
.id("page\(pageIndex)")
// Specify the transition type
.transition(getTransition())
.gesture(
// Either of these Gestures are allowed
SimultaneousGesture(
// Case 1, we perform a Long Press
LongPressGesture(minimumDuration: 0.1, maximumDistance: .infinity)
// Sequence this Gesture before an infinitely long press that will never trigger
.sequenced(before: LongPressGesture(minimumDuration: .infinity))
// Update the isPressingDown value
.updating($isPressingDown) { value, state, _ in
switch value {
// This means the first Gesture completed
case .second(true, nil):
// Update the GestureState
state = true
// We don't need to handle any other case
default: break
}
},
// Case 2, we perform a Drag Gesture
DragGesture(minimumDistance: 10)
.onChanged { onDragChange($0, bounds.size) }
)
)
}
// If the user releases their finger, set the slide animation direction back to forwards
.onChange(of: isPressingDown) { newValue in
if !newValue { forwards = true }
}
// When we receive a signal from the TimeLineView
.onChange(of: date) { _ in
// If the animation is not pause and there are still pages left to show
if !isPressingDown && pageIndex < pages.count - 1{
// This should always say sliding forwards, because this will only be triggered automatically
print("changing pages by sliding \(forwards ? "forwards" : "backwards")")
// Animate the change in pages
withAnimation(.easeIn(duration: animationDuration)) {
pageIndex += 1
}
}
}
}
/// Called when the Drag Gesture occurs
private func onDragChange(_ drag: DragGesture.Value, _ frame: CGSize) {
// If we've dragged across at least 15% of the screen, change the Page Index
if abs(drag.translation.width) / frame.width > 0.15 {
// If we're moving forwards and there is room
if drag.translation.width < 0 && pageIndex < pages.count - 1 {
forwards = true
withAnimation(.easeInOut(duration: animationDuration)) {
pageIndex += 1
}
}
// If we're moving backwards and there is room
else if drag.translation.width > 0 && pageIndex > 0 {
forwards = false
withAnimation(.easeInOut(duration: animationDuration)) {
pageIndex -= 1
}
DispatchQueue.main.asyncAfter(deadline: .now() + animationDuration) {
forwards = true
}
}
}
}
// Tell the view which direction to slide
private func getTransition() -> AnyTransition {
// If we are swiping left / moving forwards
if forwards {
return .asymmetric(insertion: .move(edge: .trailing), removal: .move(edge: .leading))
}
// If we are swiping right / moving backwards
else {
return .asymmetric(insertion: .move(edge: .leading), removal: .move(edge: .trailing))
}
}
}
var body: some View {
ZStack {
// Create a TimeLine that updates every five seconds automatically
TimelineView(.periodic(from: Date(), by: 5)) { timeLine in
// Create a current page struct, as we cant react to timeLine.date changes in this view
currentPage($pageIndex, pages: pages, date: timeLine.date)
}
}
}
}
// This is the view that becomes the Page in our Custom Tab View, you can make it whatever you want as long as it is reusable
struct CustomPageView: View {
var title: String
var buttonTitle: String
var buttonAction: () -> ()
var body: some View {
VStack {
Text("\(title)")
Button(action: { buttonAction() }, label: { Text("\(buttonTitle)") })
}
}
}
struct ContentView: View {
#State var currentSlideIndex: Int = 0
#GestureState var isPaused: Bool = false
var body: some View {
CustomTabView($currentSlideIndex, pages: [
{
CustomPageView(title: "slide 1", buttonTitle: "button 1", buttonAction: { print("slide 1 button tapped") })
},
{
CustomPageView(title: "slide 2", buttonTitle: "button 2", buttonAction: { print("slide 2 button tapped") })
}]
)
.tabViewStyle(PageTabViewStyle(indexDisplayMode: .never))
.frame(width: 400, height: 700, alignment: .bottom)
}
}
PlaygroundPage.current.setLiveView(ContentView())
I found the best and cleanest solution to this is just to add a clear view on top of your tabView when the slide show is active and put the gesture recognizer on that.
I haven't shown the implementation of the start stop timer which depends on your design.
private let timer = Timer.publish(every: 2, on: .main, in: .common).autoconnect()
#State var slideshowPlaying = false
#State var selection = 0
var body: some View {
ZStack {
TabView(selection: $selection) {
ForEach(modelArray.indices, id: \.self) { index in
SomeView()
.tag(index)
}
}
.tabViewStyle(PageTabViewStyle())
.background(Color(.systemGroupedBackground))
.onReceive(self.timer) { _ in
if selection < modelArray.count + 1 {
selection += 1
} else {
selection = 0
}
}
if slideshowPlaying {
Color.clear
.contentShape(Rectangle())
.gesture(DragGesture(minimumDistance: 0).onChanged { _ in
slideshowPlaying = false
})
}
}
}
When a View is pressed I know through a model button.isSelected. How do I animate the view's foreground color, similar to the IOS calculators button press animation?
Something like:
White -> Grey -> White
struct ButtonView: View {
let button: ViewModel.Button
var body: some View {
let shape = Rectangle()
ZStack {
shape.fill().foregroundColor(button.isSelected ? Color.gray : Color.white)
.animation(Animation.linear(duration: 0.01))
.border(Color.black, width: 0.33)
Text(button.content)
.font(Font.system(size:32))
}
}
}
I think there are many ways to do this.
Among them, I will write an example using DispatchQueue.main.asyncAfter()
struct ContentView: View {
#State private var isSelected: Bool = false
var body: some View {
VStack {
Button {
isSelected = true
DispatchQueue.main.asyncAfter(deadline: .now() + 0.2 ) {
// To change the time, change 0.2 seconds above
isSelected = false
}
} label: {
Text("Button")
.foregroundColor(isSelected ? Color.red : Color.blue)
}
}
}
}
While DispatchQueue.main.asyncAfter() will work as Taeeun answered, note how the calculator app doesn't use a set delay. Instead, it changes color when the finger presses down, then reverts back upon release.
So, you probably want something like ButtonStyle.
struct ContentView: View {
var body: some View {
ButtonView()
}
}
struct CalculatorButtonStyle: ButtonStyle {
func makeBody(configuration: Configuration) -> some View {
configuration.label
.padding() /// no need to use `shape` + `ZStack`, normal padding is ok
.background(configuration.isPressed ? Color.gray : Color.white) /// use `isPressed` to determine if button is currently pressed or not
.animation(Animation.linear(duration: 0.01))
.cornerRadius(10)
}
}
struct ButtonView: View {
var body: some View {
ZStack {
Color.black /// for testing purposes (see the button better)
Button {} label: {
Text("Button")
.font(.system(size: 32))
}
.buttonStyle(CalculatorButtonStyle()) /// apply the style
}
}
}
Result:
I have a simple app in SwiftUI that shows a List, and each item is a VStack with two Text elements:
var body: some View {
List(elements) { item in
NavigationLink(destination: DetailView(item: item)) {
VStack(alignment: .leading) {
Text(item.name)
Text(self.distanceString(for: item.distance))
}
}
}
.animation(.default)
}
The .animate() is in there because I want to animate changes to the list when the elements array changes. Unfortunately, SwiftUI also animates any changes to content, leading to weird behaviour. For example, the second Text in each item updates quite frequently, and an update will now shortly show the label truncated (with ... at the end) before updating to the new content.
So how can I prevent this weird behaviour when I update the list's content, but keep animations when the elements in the list change?
In case it's relevant, I'm creating a watchOS app.
The following should disable animations for row internals
VStack(alignment: .leading) {
Text(item.name)
Text(self.distanceString(for: item.distance))
}
.animation(nil)
The answer by #Asperi fixed the issue I was having also (Upvoted his answer as always).
I had an issue where I was animating the whole screen in using the below: AnyTransition.asymmetric(insertion: .move(edge: .bottom), removal: .move(edge: .top))
And all the Text() and Button() sub views where also animating in weird and not so wonderful ways. I used animation(nil) to fix the issue after seeing Asperi's answer. However the issue was that my Buttons no longer animated on selection, along with other animations I wanted.
So I added a new State variable to turn on and off the animations of the VStack. They are off by default and after the view has been animated on screen I enable them after a small delay:
struct QuestionView : View {
#State private var allowAnimations : Bool = false
var body : some View {
VStack(alignment: .leading, spacing: 6.0) {
Text("Some Text")
Button(action: {}, label:Text("A Button")
}
.animation(self.allowAnimations ? .default : nil)
.onAppear() {
DispatchQueue.main.asyncAfter(deadline: .now() + 0.4) {
self.allowAnimations = true
}
}
}
}
Just adding this for anyone who has a similar issue to me and needed to build on Asperi's excellent answer.
Thanks to #Brett for the delay solution. My code needed it in several places, so I wrapped it up in a ViewModifier.
Just add .delayedAnimation() to your view.
You can pass parameters for defaults other than one second and the default animation.
import SwiftUI
struct DelayedAnimation: ViewModifier {
var delay: Double
var animation: Animation
#State private var animating = false
func delayAnimation() {
DispatchQueue.main.asyncAfter(deadline: .now() + delay) {
self.animating = true
}
}
func body(content: Content) -> some View {
content
.animation(animating ? animation : nil)
.onAppear(perform: delayAnimation)
}
}
extension View {
func delayedAnimation(delay: Double = 1.0, animation: Animation = .default) -> some View {
self.modifier(DelayedAnimation(delay: delay, animation: animation))
}
}
In my case any of the above resulted in strange behaviours. The solution was to animate the action that triggered the change in the elements array instead of the list. For example:
#State private var sortOrderAscending = true
// Your list of elements with some sorting/filtering that depends on a state
// In this case depends on sortOrderAscending
var elements: [ElementType] {
let sortedElements = Model.elements
if (sortOrderAscending) {
return sortedElements.sorted { $0.name < $1.name }
} else {
return sortedElements.sorted { $0.name > $1.name }
}
}
var body: some View {
// Your button or whatever that triggers the sorting/filtering
// Here is where we use withAnimation
Button("Sort by name") {
withAnimation {
sortOrderAscending.toggle()
}
}
List(elements) { item in
NavigationLink(destination: DetailView(item: item)) {
VStack(alignment: .leading) {
Text(item.name)
}
}
}
}
Short version: How do I get the coordinates of a clicked Button in SwiftUI?
I'm looking for something like this (pseudo code) where geometry.x is the position of the clicked button in the current view:
GeometryReader { geometry in
return Button(action: { self.xPos = geometry.x}) {
HStack {
Text("Sausages")
}
}
}
Long version: I'm beginning SwiftUI and Swift so wondering how best to achieve this conceptually.
To give the concrete example I am playing with:
Imagine a tab system where I want to move an underline indicator to the position of a clicked button.
[aside]
There is a answer in this post that visually does what I am going for but it seems rather complicated: How to make view the size of another view in SwiftUI
[/aside]
Here is my outer struct which builds the tab bar and the rectangle (the current indicator) I am trying to size and position:
import SwiftUI
import UIKit
struct TabBar: View {
var tabs:ITabGroup
#State private var selected = "Popular"
#State private var indicatorX: CGFloat = 0
#State private var indicatorWidth: CGFloat = 10
#State private var selectedIndex: Int = 0
var body: some View {
ScrollView(.horizontal) {
HStack(spacing: 0) {
ForEach(tabs.tabs) { tab in
EachTab(tab: tab, choice: self.$selected, tabs: self.tabs, x: self.$indicatorX, wid: self.$indicatorWidth)
}
}.frame(minWidth: 0, maxWidth: .infinity, minHeight: 40, maxHeight: 40).padding(.leading, 10)
.background(Color(UIColor(hex: "#333333")!))
Rectangle()
.frame(width: indicatorWidth, height: 3 )
.foregroundColor(Color(UIColor(hex: "#1fcf9a")!))
.animation(Animation.spring())
}.frame(height: 43, alignment: .leading)
}
}
Here is my struct that creates each tab item and includes a nested func to get the width of the clicked item:
struct EachTab: View {
// INCOMING!
var tab: ITab
#Binding var choice: String
var tabs: ITabGroup
#Binding var x: CGFloat
#Binding var wid: CGFloat
#State private var labelWidth: CGRect = CGRect()
private func tabWidth(labelText: String, size: CGFloat) -> CGFloat {
let label = UILabel()
label.text = labelText
label.font = label.font.withSize(size)
let labelWidth = label.intrinsicContentSize.width
return labelWidth
}
var body: some View {
Button(action: { self.choice = self.tab.title; self.x = HERE; self.wid = self.tabWidth(labelText: self.choice, size: 13)}) {
HStack {
// Determine Tab colour based on whether selected or default within black or green rab set
if self.choice == self.tab.title {
Text(self.tab.title).foregroundColor(Color(UIColor(hex: "#FFFFFF")!)).font(.system(size: 13)).padding(.trailing, 10).animation(nil)
} else {
Text(self.tab.title).foregroundColor(Color(UIColor(hex: "#dddddd")!)).font(.system(size: 13)).padding(.trailing, 10).animation(nil)
}
}
}
// TODO: remove default transition fade on button click
}
}
Creating a non SwiftUI UILabel to get the width of the Button seems a bit wonky. Is there a better way?
Is there a simple way to get the coordinates of the clicked SwiftUI Button?
You can use a DragGesture recogniser with a minimum drag distance of 0, which provides you the location info. However, if you combine the DragGesture with your button, the drag gesture won't be triggered on normal clicks of the button. It will only be triggered when the drag ends outside of the button.
You can get rid of the button completely, but of course then you lose the default button styling.
The view would look like this in that case:
struct MyView: View {
#State var xPos: CGFloat = 0
var body: some View {
GeometryReader { geometry in
HStack {
Text("Sausages: \(self.xPos)")
}
}.gesture(DragGesture(minimumDistance: 0, coordinateSpace: .global).onEnded { dragGesture in
self.xPos = dragGesture.location.x
})
}
}
The coordinateSpace parameter specifies if you want the touch position in .local or .global space. In the local space, the position is relative to the view that you've attached the gesture to. For example, if I had a Text view in the middle of the screen, my local y position would be almost 0, whereas my global y would be half of the screen height.
This tripped me up a bit, but this example shows the idea:
struct MyView2: View {
#State var localY: CGFloat = 0
#State var globalY: CGFloat = 0
var body: some View {
VStack {
Text("local y: \(self.localY)")
.gesture(DragGesture(minimumDistance: 0, coordinateSpace: .local).onEnded { dragGesture in
self.localY = dragGesture.location.y
})
Text("global y: \(self.globalY)")
.gesture(DragGesture(minimumDistance: 0, coordinateSpace: .global).onEnded { dragGesture in
self.globalY = dragGesture.location.y
})
}
}
}
struct ContentView: View {
var body: some View {
VStack {
Button(action: { print("Button pressed")}) { Text("Button") }
}.simultaneousGesture(DragGesture(minimumDistance: 0, coordinateSpace: .global)
.onEnded { print("Changed \($0.location)") })
}
}
This solution seems to work, add a simultaneous gesture on Button, unfortunatelly it does not work if the Button is places in a Form
Turns out I solved this problem by adapting the example on https://swiftui-lab.com/communicating-with-the-view-tree-part-2/
The essence of the technique is using anchorPreference which is a means of sending data about one view back up the chain to ancestral views. I couldn't find any docs on this in the Apple world but I can attest that it works.
I'm not adding code here as the reference link also includes explanation that I don't feel qualified to re-iterate here!
I am trying to make a navigation UI similar to the Slack app where I have the Home Screen which Overlays the Menu Navigation screen. I created a ViewModifier which makes the Home Screen Draggable. Now I need to add functionality such that when the "Home" is tapped on the blue Menu screen, the white Home View animates back to the center. My idea was to keep track of the NavigationState in a global AppState:
enum NavigationSelection {
case menu
case home
}
final class AppState: ObservableObject {
let objectWillChange = PassthroughSubject<Void, Never>()
#Published var currentNavigationSelection: NavigationSelection = .home
}
Then when the user taps "Home", have it update the AppState's currentNavigationSelection, and have the Draggable view determine its offset based on the currentNavigationSelection. I'm really not sure about this approach and I'm having a tough time thinking about it in the new SwiftUI style. Any suggestions would be much appreciated.
The view hierarchy looks like this:
var body: some View {
ZStack {
Menu()
HomeTabView()
}
}
And the HomeTabView has a draggable ViewModifier applied:
struct Slidable: ViewModifier {
#EnvironmentObject var app: AppState
#State private var viewState = SlidableViewDragState.normal.defaultPosition
#State private var currentPosition: SlidableViewDragState = .normal {
didSet {
self.viewState = self.currentPosition.defaultPosition
}
}
func body(content: Content) -> some View {
return content
.frame(minWidth: 0, maxWidth: .infinity, minHeight: 0, maxHeight:
.infinity, alignment: Alignment.topLeading)
.offset(self.viewState)
.animation(.interactiveSpring())
.gesture(
DragGesture()
.onChanged({ (value) in
self.viewState = self.currentPosition.applyXTranslation(x: value.translation.width)
})
.onEnded({ (value) in
if value.translation.width < 0 && self.currentPosition == .normal {
return
}
if abs(value.translation.width) > self.currentPosition.switchThreshold {
self.currentPosition = self.currentPosition.oppositePosition
if self.currentPosition == .menuVisible {
self.app.currentNavigationSelection = .menu
}
} else {
self.viewState = self.currentPosition.defaultPosition
}
})
)
}
}
Moving both views
How do you currently define the positions of both? With my limited experience I would use a ZStack embedding HomeView and MenuView. This way you can move the views around independently.
Then you use a point variable as state, and make the DragGesture set point. Then you determine at the end of the drag what end position point is set to.
point is part of the offset-calculation. You can calculate the menu-offset with .offset(x: point.x) and the home-offset with .offset(x: -Self.maxOffset - Self.minusHomeWidth / 2 + point.x).
minusHomeWidth is the width the menu still shows when you are on the home screen.
Variables defining min and max of the point:
static let minOffset: CGFloat = 0
static let maxOffset: CGFloat = UIScreen.main.bounds.width - Self.minusHomeWidth
static let minusHomeWidth: CGFloat = UIScreen.main.bounds.width / 10
Then you can make it move to the home-view width
Button(action: {
self.point = CGPoint(x: Self.maxOffset, y: 0)
}) { Text("Go to Home") }