I want to create a scroll view/slider for images. See my example code:
ScrollView(.horizontal, showsIndicators: true) {
HStack {
Image(shelter.background)
.resizable()
.frame(width: UIScreen.main.bounds.width, height: 300)
Image("pacific")
.resizable()
.frame(width: UIScreen.main.bounds.width, height: 300)
}
}
Though this enables the user to slide, I want it a little different (similar to a PageViewController in UIKit). I want it to behave like the typical image slider we know from a lot of apps with dots as indicators:
It shall always show a full image, no in between - hence if the user drags and stops in the middle, it shall automatically jump to the full image.
I want dots as indicators.
Since I've seen a lot of apps use such a slider, there must be known method, right?
There is no built-in method for this in SwiftUI this year. I'm sure a system-standard implementation will come along in the future.
In the short term, you have two options. As Asperi noted, Apple's own tutorials have a section on wrapping the PageViewController from UIKit for use in SwiftUI (see Interfacing with UIKit).
The second option is to roll your own. It's entirely possible to make something similar in SwiftUI. Here's a proof of concept, where the index can be changed by swipe or by binding:
struct PagingView<Content>: View where Content: View {
#Binding var index: Int
let maxIndex: Int
let content: () -> Content
#State private var offset = CGFloat.zero
#State private var dragging = false
init(index: Binding<Int>, maxIndex: Int, #ViewBuilder content: #escaping () -> Content) {
self._index = index
self.maxIndex = maxIndex
self.content = content
}
var body: some View {
ZStack(alignment: .bottomTrailing) {
GeometryReader { geometry in
ScrollView(.horizontal, showsIndicators: false) {
HStack(spacing: 0) {
self.content()
.frame(width: geometry.size.width, height: geometry.size.height)
.clipped()
}
}
.content.offset(x: self.offset(in: geometry), y: 0)
.frame(width: geometry.size.width, alignment: .leading)
.gesture(
DragGesture().onChanged { value in
self.dragging = true
self.offset = -CGFloat(self.index) * geometry.size.width + value.translation.width
}
.onEnded { value in
let predictedEndOffset = -CGFloat(self.index) * geometry.size.width + value.predictedEndTranslation.width
let predictedIndex = Int(round(predictedEndOffset / -geometry.size.width))
self.index = self.clampedIndex(from: predictedIndex)
withAnimation(.easeOut) {
self.dragging = false
}
}
)
}
.clipped()
PageControl(index: $index, maxIndex: maxIndex)
}
}
func offset(in geometry: GeometryProxy) -> CGFloat {
if self.dragging {
return max(min(self.offset, 0), -CGFloat(self.maxIndex) * geometry.size.width)
} else {
return -CGFloat(self.index) * geometry.size.width
}
}
func clampedIndex(from predictedIndex: Int) -> Int {
let newIndex = min(max(predictedIndex, self.index - 1), self.index + 1)
guard newIndex >= 0 else { return 0 }
guard newIndex <= maxIndex else { return maxIndex }
return newIndex
}
}
struct PageControl: View {
#Binding var index: Int
let maxIndex: Int
var body: some View {
HStack(spacing: 8) {
ForEach(0...maxIndex, id: \.self) { index in
Circle()
.fill(index == self.index ? Color.white : Color.gray)
.frame(width: 8, height: 8)
}
}
.padding(15)
}
}
and a demo
struct ContentView: View {
#State var index = 0
var images = ["10-12", "10-13", "10-14", "10-15"]
var body: some View {
VStack(spacing: 20) {
PagingView(index: $index.animation(), maxIndex: images.count - 1) {
ForEach(self.images, id: \.self) { imageName in
Image(imageName)
.resizable()
.scaledToFill()
}
}
.aspectRatio(4/3, contentMode: .fit)
.clipShape(RoundedRectangle(cornerRadius: 15))
PagingView(index: $index.animation(), maxIndex: images.count - 1) {
ForEach(self.images, id: \.self) { imageName in
Image(imageName)
.resizable()
.scaledToFill()
}
}
.aspectRatio(3/4, contentMode: .fit)
.clipShape(RoundedRectangle(cornerRadius: 15))
Stepper("Index: \(index)", value: $index.animation(.easeInOut), in: 0...images.count-1)
.font(Font.body.monospacedDigit())
}
.padding()
}
}
Two notes:
The GIF animation does a really poor job of showing how smooth the animation is, as I had to drop the framerate and compress heavily due to file size limits. It looks great on simulator or a real device
The drag gesture in the simulator feels clunky, but it works really well on a physical device.
You can easily achieve this by below code
struct ContentView: View {
public let timer = Timer.publish(every: 3, on: .main, in: .common).autoconnect()
#State private var selection = 0
/// images with these names are placed in my assets
let images = ["1","2","3","4","5"]
var body: some View {
ZStack{
Color.black
TabView(selection : $selection){
ForEach(0..<5){ i in
Image("\(images[i])")
.resizable()
.aspectRatio(contentMode: .fit)
}
}.tabViewStyle(PageTabViewStyle())
.indexViewStyle(PageIndexViewStyle(backgroundDisplayMode: .always))
.onReceive(timer, perform: { _ in
withAnimation{
print("selection is",selection)
selection = selection < 5 ? selection + 1 : 0
}
})
}
}
}
Related
When I scroll from one page to the other the horizontal indicator bar doesn't move, what would be the appropriate way to move it (with animation if possible)?
The green area below doesn't move to the right once I switch to the analytics area.
Here's the full code:
enum PortfolioTabBarOptions: Hashable, CaseIterable {
case balance, analytics
var menuString: String { String(describing: self) }
}
struct CustomPagerTabView: View {
#Binding var selectedTab: PortfolioTabBarOptions
#State var tabOffset: CGFloat = 0
var body: some View {
VStack {
HStack(alignment: .center) {
HStack(spacing: 100) {
ForEach(Array(PortfolioTabBarOptions.allCases.enumerated()), id: \.element) { index, element in
// Current Tab
if(selectedTab.menuString == element.menuString) {
Text(element.menuString.capitalizeFirstLetter())
.font(.system(size: 15.0))
.bold()
.onTapGesture() {
selectedTab = element.self
}
.onAppear {
self.tabOffset = CGFloat(index)
}
}
// Innactive Tabs
else {
Text(element.menuString.capitalizeFirstLetter())
.foregroundColor(.gray)
.font(.system(size: 15.0))
.bold()
.onTapGesture() {
selectedTab = element.self
}
}
}
}
.padding(.horizontal)
}
// Indicator...
Capsule()
.fill(.gray)
// Width of the indicator bar
.frame(width: PortfolioTabBarOptions.allCases.count == 0 ? 0 : (getScreenBounds().width / CGFloat(PortfolioTabBarOptions.allCases.count)), height: 1.2)
.padding(.top,10)
.frame(maxWidth: .infinity,alignment: .leading)
.offset(x: tabOffset)
}
.padding(.top)
}
}
The green area below does move to the right, but only 1 pixel. Try something like this example code, choose the value (200) most suited for your purpose:
.onAppear {
self.tabOffset = CGFloat(index*200) // <-- here
}
I want to allow users to change the order of photos in the list. Tinder has something like that. I'm trying to add a drag gesture to the item but nothing happened.
import SwiftUI
struct Row: Identifiable {
let id = UUID()
let cells: [Cell]
}
struct Cell: Identifiable {
let id = UUID()
let imageURL: String
#State var offset = CGSize.zero
}
struct PhotosView: View {
#State var rows = [Row(cells: [Cell(imageURL: "gigi"), Cell(imageURL: "hadid"), Cell(imageURL: "gigihadid")]), Row(cells: [Cell(imageURL: "gigi"), Cell(imageURL: "hadid")])]
var body: some View {
List {
ForEach(rows) { row in
HStack(alignment: .center, spacing:15) {
ForEach(row.cells) { cell in
Image(cell.imageURL)
.resizable()
.scaledToFill()
.frame(maxWidth: UIScreen.main.bounds.width / 3.6)
.clipped()
.cornerRadius(10)
.offset(x: cell.offset.width, y: cell.offset.height)
.gesture(
DragGesture()
.onChanged { gesture in
cell.offset = gesture.translation
}
.onEnded { _ in
if abs(cell.offset.width) > 100 {
// remove the card
} else {
cell.offset = .zero
}
}
)
}
if row.cells.count < 3 {
ZStack{
RoundedRectangle(cornerRadius: 10)
.fill(Color(UIColor.systemGray6))
Button(action: {}, label: {
Image(systemName: "person.crop.circle.fill.badge.plus")
.font(.title)
.foregroundColor(Color(UIColor.systemGray3))
})
}
}
}.padding(.vertical)
}.buttonStyle(PlainButtonStyle())
}.padding(.top, UIScreen.main.bounds.height / 8)
.navigationBarHidden(true)
}
}
What view looks like:
I only want users can change the order of photos via drag gesture.
There are a lot of examples of bottom sheet out there for SwiftUI, however they all specify some type of maximum height the sheet can grow to using a GeometryReader. What I would like is to create a bottom sheet that becomes only as tall as the content within it. I've come up with the solution below using preference keys, but there must be a better solution. Perhaps using some type of dynamic scrollView is the solution?
struct ContentView: View{
#State private var offset: CGFloat = 0
#State private var size: CGSize = .zero
var body: some View{
ZStack(alignment:.bottom){
VStack{
Button(offset == 0 ? "Hide" : "Show"){
withAnimation(.linear(duration: 0.2)){
if offset == 0{
offset = size.height
} else {
offset = 0
}
}
}
.animation(nil)
.padding()
.font(.largeTitle)
Spacer()
}
BottomView(offset: $offset, size: $size)
}.edgesIgnoringSafeArea(.all)
}
}
struct BottomView: View{
#Binding var offset: CGFloat
#Binding var size: CGSize
var body: some View{
VStack(spacing: 0){
ForEach(0..<5){ value in
Rectangle()
.fill(value.isMultiple(of: 2) ? Color.blue : Color.red)
.frame(height: 100)
}
}
.offset(x: 0, y: offset)
.getSize{
size = $0
offset = $0.height
}
}
}
struct SizePreferenceKey: PreferenceKey {
struct SizePreferenceData {
let bounds: Anchor<CGRect>
}
static var defaultValue: [SizePreferenceData] = []
static func reduce(value: inout [SizePreferenceData], nextValue: () -> [SizePreferenceData]) {
value.append(contentsOf: nextValue())
}
}
struct SizePreferenceModifier: ViewModifier {
let onAppear: (CGSize)->Void
func body(content: Content) -> some View {
content
.anchorPreference(key: SizePreferenceKey.self, value: .bounds, transform: { [SizePreferenceKey.SizePreferenceData( bounds: $0)] })
.backgroundPreferenceValue(SizePreferenceKey.self) { preferences in
GeometryReader { geo in
Color.clear
.onAppear{
let size = CGSize(width: geo.size.width, height: geo.size.height)
onAppear(size)
}
}
}
}
}
extension View{
func getSize(_ onAppear: #escaping (CGSize)->Void) -> some View {
return self.modifier(SizePreferenceModifier(onAppear: onAppear))
}
}
Talk about over engineering the problem. All you have to do is specify a height of 0 if you want the sheet to be hidden, and not specify a height when it's shown. Additionally set the frame alignment to be top.
struct ContentView: View{
#State private var hide = false
var body: some View{
ZStack(alignment: .bottom){
Color.blue
.overlay(
Text("Is hidden : \(hide.description)").foregroundColor(.white)
.padding(.bottom, 200)
)
.onTapGesture{
hide.toggle()
}
VStack(spacing: 0){
ForEach(0..<5){ index in
Rectangle()
.foregroundColor(index.isMultiple(of: 2) ? Color.gray : .orange)
.frame(height: 50)
.layoutPriority(2)
}
}
.layoutPriority(1)
.frame(height: hide ? 0 : nil, alignment: .top)
.animation(.linear(duration: 0.2))
}.edgesIgnoringSafeArea(.all)
}
}
My approach is SwiftUI Sheet based solution feel free to check the gist
you just need to add the modifier to the view and let iOS do the rest for you, no need to re-do the math ;)
Plus you will have the sheet native behavior (swipe to dismiss) and i added "tap elsewhere" to dismiss.
struct ContentView: View {
#State var activeSheet: Bool = false
#State var activeBottomSheet: Bool = false
var body: some View {
VStack(spacing: 16){
Button {
activeSheet.toggle()
} label: {
HStack {
Text("Activate Normal sheet")
.padding()
}.background(
RoundedRectangle(cornerRadius: 5)
.stroke(lineWidth: 2)
.foregroundColor(.yellow)
)
}
Button {
activeBottomSheet.toggle()
} label: {
HStack {
Text("Activate Bottom sheet")
.padding()
}.background(
RoundedRectangle(cornerRadius: 5)
.stroke(lineWidth: 2)
.foregroundColor(.yellow)
)
}
}
.sheet(isPresented: $activeSheet) {
// Regular sheet
sheetView
}
.sheet(isPresented: $activeBottomSheet) {
// Responsive sheet
sheetView
.asResponsiveSheet()
}
}
var sheetView: some View {
VStack(spacing: 0){
ForEach(0..<5){ index in
Rectangle()
.foregroundColor(index.isMultiple(of: 2) ? Color.gray : .orange)
.frame(height: 50)
}
}
}
iPhone:
iPad :
This is my first time trying out SwiftUI, and I am trying to create a SwiftUI view that acts as a split view, with an adjustable handle in the center of the two views.
Here's my current code implementation example:
struct ContentView: View {
#State private var gestureTranslation = CGSize.zero
#State private var prevTranslation = CGSize.zero
var body: some View {
VStack {
Rectangle()
.fill(Color.red)
.frame(height: (UIScreen.main.bounds.height / 2) + self.gestureTranslation.height)
RoundedRectangle(cornerRadius: 5)
.frame(width: 40, height: 3)
.foregroundColor(Color.gray)
.padding(2)
.gesture(DragGesture()
.onChanged({ value in
self.gestureTranslation = CGSize(width: value.translation.width + self.prevTranslation.width, height: value.translation.height + self.prevTranslation.height)
})
.onEnded({ value in
self.gestureTranslation = CGSize(width: value.translation.width + self.prevTranslation.width, height: value.translation.height + self.prevTranslation.height)
self.prevTranslation = self.gestureTranslation
})
)
Rectangle()
.fill(Color.green)
.frame(height: (UIScreen.main.bounds.height / 2) - self.gestureTranslation.height)
}
}
}
How it looks like now:
[
This kinda works, but when dragging the handle, it is very glitchy, and that it seems to require a lot of dragging to reach a certain point.
Please advice me what went wrong. Thank you.
See How to change the height of the object by using DragGesture in SwiftUI? for a simpler solution.
My version of that:
let MIN_HEIGHT = CGFloat(50)
struct DragViewSizeView: View {
#State var height: CGFloat = MIN_HEIGHT
var body: some View {
VStack {
Rectangle()
.fill(Color.red)
.frame(width: .infinity, height: height)
HStack {
Spacer()
Rectangle()
.fill(Color.gray)
.frame(width: 100, height: 10)
.cornerRadius(10)
.gesture(
DragGesture()
.onChanged { value in
height = max(MIN_HEIGHT, height + value.translation.height)
}
)
Spacer()
}
VStack {
Text("my o my")
Spacer()
Text("hoo hah")
}
}
}
}
struct DragTestView: View {
var body: some View {
VStack {
DragViewSizeView()
Spacer() // If comment this line the result will be as on the bottom GIF example
}
}
}
struct DragTestView_Previews: PreviewProvider {
static var previews: some View {
DragTestView()
}
}
From what I have observed, the issue seems to be coming from the handle being repositioned while being dragged along. To counteract that I have set an inverse offset on the handle, so it stays in place. I have tried to cover up the persistent handle position as best as I can, by hiding it beneath the other views (zIndex).
I hope somebody else got a better solution to this question. For now, this is all that I have got:
import PlaygroundSupport
import SwiftUI
struct SplitView<PrimaryView: View, SecondaryView: View>: View {
// MARK: Props
#GestureState private var offset: CGFloat = 0
#State private var storedOffset: CGFloat = 0
let primaryView: PrimaryView
let secondaryView: SecondaryView
// MARK: Initilization
init(
#ViewBuilder top: #escaping () -> PrimaryView,
#ViewBuilder bottom: #escaping () -> SecondaryView)
{
self.primaryView = top()
self.secondaryView = bottom()
}
// MARK: Body
var body: some View {
GeometryReader { proxy in
VStack(spacing: 0) {
self.primaryView
.frame(height: (proxy.size.height / 2) + self.totalOffset)
.zIndex(1)
self.handle
.gesture(
DragGesture()
.updating(self.$offset, body: { value, state, _ in
state = value.translation.height
})
.onEnded { value in
self.storedOffset += value.translation.height
}
)
.offset(y: -self.offset)
.zIndex(0)
self.secondaryView.zIndex(1)
}
}
}
// MARK: Computed Props
var handle: some View {
RoundedRectangle(cornerRadius: 5)
.frame(width: 40, height: 3)
.foregroundColor(Color.gray)
.padding(2)
}
var totalOffset: CGFloat {
storedOffset + offset
}
}
// MARK: - Playground
let splitView = SplitView(top: {
Rectangle().foregroundColor(.red)
}, bottom: {
Rectangle().foregroundColor(.green)
})
PlaygroundPage.current.setLiveView(splitView)
Just paste the code inside XCode Playground / Swift Playgrounds
If you found a way to improve my code please let me know.
I have two different views, one red rect and one black rect that is always positioned on the bottom of the screen. When I click the red rect it should position itself inside the other rect.
Currently the red rect is positioned statically: .position(x: self.tap ? 210 : 50, y: self.tap ? 777 : 50). Is there a way to replace the 210 and 777 dynamically to the position of the black rects center position?
I know that I can use the GeometryReader to get the views size, but how do I use that size to position a different view? Would this even be the right way?
struct ContentView: View {
#State private var tap = false
var body: some View {
ZStack {
VStack {
Spacer()
RoundedRectangle(cornerRadius: 10)
.frame(maxWidth: .infinity, maxHeight: 50, alignment: .center)
}
.padding()
VStack {
ZStack {
Rectangle()
.foregroundColor(.red)
Text("Click me")
.fontWeight(.light)
.foregroundColor(.white)
}
.frame(width: 50, height: 50)
.position(x: self.tap ? 210 : 50, y: self.tap ? 777 : 50)
.onTapGesture {
withAnimation {
self.tap.toggle()
}
}
}
}
}
}
First define some structure where to store .center position of some View
struct PositionData: Identifiable {
let id: Int
let center: Anchor<CGPoint>
}
The build-in mechanism to save such data and expose them to parent View is to set / read (or react) on values which conforms to PreferenceKey protocol.
struct Positions: PreferenceKey {
static var defaultValue: [PositionData] = []
static func reduce(value: inout [PositionData], nextValue: () -> [PositionData]) {
value.append(contentsOf: nextValue())
}
}
To be able to read the center positions of View we can use well known and widely discussed GeometryReader. I define my PositionReader as a View and here we can simply save its center position in our preferences for further usage. There is no need to translate the center to different coordinate system. To identify the View its tag value must be saved as well
struct PositionReader: View {
let tag: Int
var body: some View {
// we don't need geometry reader at all
//GeometryReader { proxy in
Color.clear.anchorPreference(key: Positions.self, value: .center) { (anchor) in
[PositionData(id: self.tag, center: anchor)]
}
//}
}
}
To demonstrate how to use all this together see next simple application (copy - paste - run)
import SwiftUI
struct PositionData: Identifiable {
let id: Int
let center: Anchor<CGPoint>
}
struct Positions: PreferenceKey {
static var defaultValue: [PositionData] = []
static func reduce(value: inout [PositionData], nextValue: () -> [PositionData]) {
value.append(contentsOf: nextValue())
}
}
struct PositionReader: View {
let tag: Int
var body: some View {
Color.clear.anchorPreference(key: Positions.self, value: .center) { (anchor) in
[PositionData(id: self.tag, center: anchor)]
}
}
}
struct ContentView: View {
#State var tag = 0
var body: some View {
ZStack {
VStack {
Color.green.background(PositionReader(tag: 0))
.onTapGesture {
self.tag = 0
}
HStack {
Rectangle()
.foregroundColor(Color.red)
.aspectRatio(1, contentMode: .fit)
.background(PositionReader(tag: 1))
.onTapGesture {
self.tag = 1
}
Rectangle()
.foregroundColor(Color.red)
.aspectRatio(1, contentMode: .fit)
.background(PositionReader(tag: 2))
.onTapGesture {
self.tag = 2
}
Rectangle()
.foregroundColor(Color.red)
.aspectRatio(1, contentMode: .fit)
.background(PositionReader(tag: 3))
.onTapGesture {
self.tag = 3
}
}
}
}.overlayPreferenceValue(Positions.self) { preferences in
GeometryReader { proxy in
Rectangle().frame(width: 50, height: 50).position( self.getPosition(proxy: proxy, tag: self.tag, preferences: preferences))
}
}
}
func getPosition(proxy: GeometryProxy, tag: Int, preferences: [PositionData])->CGPoint {
let p = preferences.filter({ (p) -> Bool in
p.id == tag
})[0]
return proxy[p.center]
}
}
struct ContentView_Previews: PreviewProvider {
static var previews: some View {
ContentView()
}
}
The code is almost self explanatory, we use .background(PositionReader(tag:)) to save the center position of View (this could be avoided by applying .anchorPreference directly on the View) and
.overlayPreferenceValue(Positions.self) { preferences in
GeometryReader { proxy in
Rectangle().frame(width: 50, height: 50).position( self.getPosition(proxy: proxy, tag: self.tag, preferences: preferences))
}
}
is used to create small black rectangle which will position itself at center of other Views. Just tap anywhere in green or red rectangles, and the black one will move immediately :-)
Here is view of this sample application running.
Here is possible approach (with a bit simplified your initial snapshot and added some convenient View extension).
Tested with Xcode 11.2 / iOS 13.2
extension View {
func rectReader(_ binding: Binding<CGRect>, in space: CoordinateSpace) -> some View {
self.background(GeometryReader { (geometry) -> AnyView in
let rect = geometry.frame(in: space)
DispatchQueue.main.async {
binding.wrappedValue = rect
}
return AnyView(Rectangle().fill(Color.clear))
})
}
}
struct ContentView: View {
#State private var tap = false
#State private var bottomRect: CGRect = .zero
var body: some View {
ZStack(alignment: .bottom) {
RoundedRectangle(cornerRadius: 10)
.frame(maxWidth: .infinity, maxHeight: 50, alignment: .center)
.padding()
.rectReader($bottomRect, in: .named("board"))
Rectangle()
.foregroundColor(.red)
.overlay(Text("Click me")
.fontWeight(.light)
.foregroundColor(.white)
)
.frame(width: 50, height: 50)
.position(x: self.tap ? bottomRect.midX : 50,
y: self.tap ? bottomRect.midY : 50)
.onTapGesture {
withAnimation {
self.tap.toggle()
}
}
}.coordinateSpace(name: "board")
}
}