I've got an SCNCamera at position(30,30,30) with a SCNLookAtConstraint on an object located at position(0,0,0). I'm trying to get the camera to rotate around the object on an imaginary sphere using A UIPanGestureRecognizer, while maintaining the radius between the camera and the object. I'm assuming I should use Quaternion projections but my math knowledge in this area is abysmal. My known variables are x & y translation + the radius I am trying to keep. I've written the project in Swift but an answer in Objective-C would be equally accepted (Hopefully using a standard Cocoa Touch Framework).


private var cubeView : SCNView!;
private var cubeScene : SCNScene!;
private var cameraNode : SCNNode!;

Here's my code for setting the scene:

// setup the SCNView
cubeView = SCNView(frame: CGRectMake(0, 0, self.width(), 175));
cubeView.autoenablesDefaultLighting = YES;

// setup the scene
cubeScene = SCNScene();
cubeView.scene = cubeScene;

// setup the camera
let camera = SCNCamera();
camera.usesOrthographicProjection = YES;
camera.orthographicScale = 9;
camera.zNear = 0;
camera.zFar = 100;

cameraNode = SCNNode();
cameraNode.camera = camera;
cameraNode.position = SCNVector3Make(30, 30, 30)  

// setup a target object
let box = SCNBox(width: 10, height: 10, length: 10, chamferRadius: 0);
let boxNode = SCNNode(geometry: box)

// put a constraint on the camera
let targetNode = SCNLookAtConstraint(target: boxNode);
targetNode.gimbalLockEnabled = YES;
cameraNode.constraints = [targetNode];

// add a gesture recogniser
let gesture = UIPanGestureRecognizer(target: self, action: "panDetected:");

And here is the code for the gesture recogniser handling:

private var position: CGPoint!;

internal func panDetected(gesture:UIPanGestureRecognizer) {

    switch(gesture.state) {
    case UIGestureRecognizerState.Began:
        position = CGPointZero;
    case UIGestureRecognizerState.Changed:
        let aPosition = gesture.translationInView(cubeView);
        let delta = CGPointMake(aPosition.x-position.x, aPosition.y-position.y);

        // ??? no idea...

        position = aPosition;


6 Answers 6


It might help to break down your issue into subproblems.

Setting the Scene

First, think about how to organize your scene to enable the kind of motion you want. You talk about moving the camera as if it's attached to an invisible sphere. Use that idea! Instead of trying to work out the math to set your cameraNode.position to some point on an imaginary sphere, just think about what you would do to move the camera if it were attached to a sphere. That is, just rotate the sphere.

If you wanted to rotate a sphere separately from the rest of your scene contents, you'd attach it to a separate node. Of course, you don't actually need to insert a sphere geometry into your scene. Just make a node whose position is concentric with the object you want your camera to orbit around, then attach the camera to a child node of that node. Then you can rotate that node to move the camera. Here's a quick demo of that, absent the scroll-event handling business:

let camera = SCNCamera()
camera.usesOrthographicProjection = true
camera.orthographicScale = 9
camera.zNear = 0
camera.zFar = 100
let cameraNode = SCNNode()
cameraNode.position = SCNVector3(x: 0, y: 0, z: 50)
cameraNode.camera = camera
let cameraOrbit = SCNNode()

// rotate it (I've left out some animation code here to show just the rotation)
cameraOrbit.eulerAngles.x -= CGFloat(M_PI_4)
cameraOrbit.eulerAngles.y -= CGFloat(M_PI_4*3)

Here's what you see on the left, and a visualization of how it works on the right. The checkered sphere is cameraOrbit, and the green cone is cameraNode.

camera rotate around cubecamera rotate visualization

There's a couple of bonuses to this approach:

  • You don't have to set the initial camera position in Cartesian coordinates. Just place it at whatever distance you want along the z-axis. Since cameraNode is a child node of cameraOrbit, its own position stays constant -- the camera moves due to the rotation of cameraOrbit.
  • As long as you just want the camera pointed at the center of this imaginary sphere, you don't need a look-at constraint. The camera points in the -Z direction of the space it's in -- if you move it in the +Z direction, then rotate the parent node, the camera will always point at the center of the parent node (i.e. the center of rotation).

Handling Input

Now that you've got your scene architected for camera rotation, turning input events into rotation is pretty easy. Just how easy depends on what kind of control you're after:

  • Looking for arcball rotation? (It's great for direct manipulation, since you can feel like you're physically pushing a point on the 3D object.) There are some questions and answers about that already on SO -- most of them use GLKQuaternion. (UPDATE: GLK types are "sorta" available in Swift 1.2 / Xcode 6.3. Prior to those versions you can do your math in ObjC via a bridging header.)
  • For a simpler alternative, you can just map the x and y axes of your gesture to the yaw and pitch angles of your node. It's not as spiffy as arcball rotation, but it's pretty easy to implement -- all you need to do is work out a points-to-radians conversion that covers the amount of rotation you're after.

Either way, you can skip some of the gesture recognizer boilerplate and gain some handy interactive behaviors by using UIScrollView instead. (Not that there isn't usefulness to sticking with gesture recognizers -- this is just an easily implemented alternative.)

Drop one on top of your SCNView (without putting another view inside it to be scrolled) and set its contentSize to a multiple of its frame size... then during scrolling you can map the contentOffset to your eulerAngles:

func scrollViewDidScroll(scrollView: UIScrollView) {
    let scrollWidthRatio = Float(scrollView.contentOffset.x / scrollView.frame.size.width)
    let scrollHeightRatio = Float(scrollView.contentOffset.y / scrollView.frame.size.height)
    cameraOrbit.eulerAngles.y = Float(-2 * M_PI) * scrollWidthRatio
    cameraOrbit.eulerAngles.x = Float(-M_PI) * scrollHeightRatio

On the one hand, you have to do a bit more work for infinite scrolling if you want to spin endlessly in one or both directions. On the other, you get nice scroll-style inertia and bounce behaviors.

  • Thanks for such a great answer. I spent hours calculating coordinates, but then for some reason SceneKit has a bug with its positioning, so this just saved my day.
    – Entitize
    Aug 2, 2016 at 1:29
  • @rickster sorry to bother you... if you have time and inclination, please consider this problem with your might mental might: stackoverflow.com/questions/36190789/…
    – Confused
    Dec 11, 2016 at 23:56
  • 1
    This is a super useful post I would tick twice if I could! Just implemented it using the drag Gesture out of SwiftUI, what 8 years on! Mar 7 at 13:21

Hey I ran into the problem the other day and the solution I came up with is fairly simple but works well.

First I created my camera and added it to my scene like so:

    // create and add a camera to the scene
    cameraNode = [SCNNode node];
    cameraNode.camera = [SCNCamera camera];
    cameraNode.camera.automaticallyAdjustsZRange = YES;
    [scene.rootNode addChildNode:cameraNode];

    // place the camera
    cameraNode.position = SCNVector3Make(0, 0, 0);
    cameraNode.pivot = SCNMatrix4MakeTranslation(0, 0, -15); //the -15 here will become the rotation radius

Then I made a CGPoint slideVelocity class variable. And created a UIPanGestureRecognizer and a and in its callback I put the following:

-(void)handlePan:(UIPanGestureRecognizer *)gestureRecognize{
    slideVelocity = [gestureRecognize velocityInView:self.view];

Then I have this method that is called every frame. Note that I use GLKit for quaternion math.

-(void)renderer:(id<SCNSceneRenderer>)aRenderer didRenderScene:(SCNScene *)scenie atTime:(NSTimeInterval)time {        
    //spin the camera according the the user's swipes
    SCNQuaternion oldRot = cameraNode.rotation;  //get the current rotation of the camera as a quaternion
    GLKQuaternion rot = GLKQuaternionMakeWithAngleAndAxis(oldRot.w, oldRot.x, oldRot.y, oldRot.z);  //make a GLKQuaternion from the SCNQuaternion

    //The next function calls take these parameters: rotationAngle, xVector, yVector, zVector
    //The angle is the size of the rotation (radians) and the vectors define the axis of rotation
    GLKQuaternion rotX = GLKQuaternionMakeWithAngleAndAxis(-slideVelocity.x/viewSlideDivisor, 0, 1, 0); //For rotation when swiping with X we want to rotate *around* y axis, so if our vector is 0,1,0 that will be the y axis
    GLKQuaternion rotY = GLKQuaternionMakeWithAngleAndAxis(-slideVelocity.y/viewSlideDivisor, 1, 0, 0); //For rotation by swiping with Y we want to rotate *around* the x axis.  By the same logic, we use 1,0,0
    GLKQuaternion netRot = GLKQuaternionMultiply(rotX, rotY); //To combine rotations, you multiply the quaternions.  Here we are combining the x and y rotations
    rot = GLKQuaternionMultiply(rot, netRot); //finally, we take the current rotation of the camera and rotate it by the new modified rotation.

    //Then we have to separate the GLKQuaternion into components we can feed back into SceneKit
    GLKVector3 axis = GLKQuaternionAxis(rot);
    float angle = GLKQuaternionAngle(rot);

    //finally we replace the current rotation of the camera with the updated rotation
    cameraNode.rotation = SCNVector4Make(axis.x, axis.y, axis.z, angle);

    //This specific implementation uses velocity.  If you don't want that, use the rotation method above just replace slideVelocity.
    //decrease the slider velocity
    if (slideVelocity.x > -0.1 && slideVelocity.x < 0.1) {
        slideVelocity.x = 0;
    else {
        slideVelocity.x += (slideVelocity.x > 0) ? -1 : 1;

    if (slideVelocity.y > -0.1 && slideVelocity.y < 0.1) {
        slideVelocity.y = 0;
    else {
        slideVelocity.y += (slideVelocity.y > 0) ? -1 : 1;

This code gives infinite Arcball rotation with velocity, which I believe is what you are looking for. Also, you don't need the SCNLookAtConstraint with this method. In fact, that will probably mess it up, so don't do that.

  • still learning ... what the type and value of viewSlideDivisor? Feb 7, 2015 at 21:03
  • 2
    Ah I forgot to mention that! viewSlideDivisor is a constant float I defined based on the screen size. It's value affects how big of an effect each swipe has.
    – WolfLink
    Feb 10, 2015 at 18:06
  • how would you prevent roll in this example? I'm using this to control the camera around a spaceship but will roll (I believe - im still pretty new with 3d) in ways I don't expect.
    – Negora
    Feb 1, 2019 at 1:34
  • roll may not be the right term, basically want the ship to appear to always be in line with the horizon and the camera rotates around the ship. Seems to be some tilt going on and I'm not sure how to fix it.
    – Negora
    Feb 1, 2019 at 1:51
  • Try modifying and keeping track of EulerAngles instead. Modify the X and Y Euler angles but not the Z angle.
    – WolfLink
    Feb 2, 2019 at 21:28

If you want to implement rickster's answer using a gesture recognizer, you have to save state information as you'll only be given a translation relative to the beginning of the gesture. I added two vars to my class

var lastWidthRatio: Float = 0
var lastHeightRatio: Float = 0

And implemented his rotate code as follows:

func handlePanGesture(sender: UIPanGestureRecognizer) {
    let translation = sender.translationInView(sender.view!)
    let widthRatio = Float(translation.x) / Float(sender.view!.frame.size.width) + lastWidthRatio
    let heightRatio = Float(translation.y) / Float(sender.view!.frame.size.height) + lastHeightRatio
    self.cameraOrbit.eulerAngles.y = Float(-2 * M_PI) * widthRatio
    self.cameraOrbit.eulerAngles.x = Float(-M_PI) * heightRatio
    if (sender.state == .Ended) {
        lastWidthRatio = widthRatio % 1
        lastHeightRatio = heightRatio % 1
  • 2
    Sometimes it moves in opposite direction of panning
    – Hassy
    Apr 19, 2016 at 11:39

Maybe this could be useful for readers.

class GameViewController: UIViewController {

var cameraOrbit = SCNNode()
let cameraNode = SCNNode()
let camera = SCNCamera()

var lastWidthRatio: Float = 0
var lastHeightRatio: Float = 0.2
var fingersNeededToPan = 1
var maxWidthRatioRight: Float = 0.2
var maxWidthRatioLeft: Float = -0.2
var maxHeightRatioXDown: Float = 0.02
var maxHeightRatioXUp: Float = 0.4

var pinchAttenuation = 20.0  //1.0: very fast ---- 100.0 very slow
var lastFingersNumber = 0

override func viewDidLoad() {

    // create a new scene
    let scene = SCNScene(named: "art.scnassets/ship.scn")!

    // create and add a light to the scene
    let lightNode = SCNNode()
    lightNode.light = SCNLight()
    lightNode.light!.type = SCNLightTypeOmni
    lightNode.position = SCNVector3(x: 0, y: 10, z: 10)

    // create and add an ambient light to the scene
    let ambientLightNode = SCNNode()
    ambientLightNode.light = SCNLight()
    ambientLightNode.light!.type = SCNLightTypeAmbient
    ambientLightNode.light!.color = UIColor.darkGrayColor()

//Create a camera like Rickster said
    camera.usesOrthographicProjection = true
    camera.orthographicScale = 9
    camera.zNear = 1
    camera.zFar = 100

    cameraNode.position = SCNVector3(x: 0, y: 0, z: 50)
    cameraNode.camera = camera
    cameraOrbit = SCNNode()

    //initial camera setup
    self.cameraOrbit.eulerAngles.y = Float(-2 * M_PI) * lastWidthRatio
    self.cameraOrbit.eulerAngles.x = Float(-M_PI) * lastHeightRatio

    // retrieve the SCNView
    let scnView = self.view as! SCNView

    // set the scene to the view
    scnView.scene = scene

    //allows the user to manipulate the camera
    scnView.allowsCameraControl = false  //not needed

    // add a tap gesture recognizer
    let panGesture = UIPanGestureRecognizer(target: self, action: "handlePan:")

    // add a pinch gesture recognizer
    let pinchGesture = UIPinchGestureRecognizer(target: self, action: "handlePinch:")

func handlePan(gestureRecognize: UIPanGestureRecognizer) {

    let numberOfTouches = gestureRecognize.numberOfTouches()

    let translation = gestureRecognize.translationInView(gestureRecognize.view!)
    var widthRatio = Float(translation.x) / Float(gestureRecognize.view!.frame.size.width) + lastWidthRatio
    var heightRatio = Float(translation.y) / Float(gestureRecognize.view!.frame.size.height) + lastHeightRatio

    if (numberOfTouches==fingersNeededToPan) {

        //  HEIGHT constraints
        if (heightRatio >= maxHeightRatioXUp ) {
            heightRatio = maxHeightRatioXUp
        if (heightRatio <= maxHeightRatioXDown ) {
            heightRatio = maxHeightRatioXDown

        //  WIDTH constraints
        if(widthRatio >= maxWidthRatioRight) {
            widthRatio = maxWidthRatioRight
        if(widthRatio <= maxWidthRatioLeft) {
            widthRatio = maxWidthRatioLeft

        self.cameraOrbit.eulerAngles.y = Float(-2 * M_PI) * widthRatio
        self.cameraOrbit.eulerAngles.x = Float(-M_PI) * heightRatio

        print("Height: \(round(heightRatio*100))")
        print("Width: \(round(widthRatio*100))")

        //for final check on fingers number
        lastFingersNumber = fingersNeededToPan

    lastFingersNumber = (numberOfTouches>0 ? numberOfTouches : lastFingersNumber)

    if (gestureRecognize.state == .Ended && lastFingersNumber==fingersNeededToPan) {
        lastWidthRatio = widthRatio
        lastHeightRatio = heightRatio
        print("Pan with \(lastFingersNumber) finger\(lastFingersNumber>1 ? "s" : "")")

func handlePinch(gestureRecognize: UIPinchGestureRecognizer) {
    let pinchVelocity = Double.init(gestureRecognize.velocity)
    //print("PinchVelocity \(pinchVelocity)")

    camera.orthographicScale -= (pinchVelocity/pinchAttenuation)

    if camera.orthographicScale <= 0.5 {
        camera.orthographicScale = 0.5

    if camera.orthographicScale >= 10.0 {
        camera.orthographicScale = 10.0


override func supportedInterfaceOrientations() -> UIInterfaceOrientationMask {
    return .Landscape

override func didReceiveMemoryWarning() {
    // Release any cached data, images, etc that aren't in use.

There's no need to save the state anywhere but the node itself. The code which uses some sort of width ratio behaves weirdly when you scroll back and forth repeatedly, and other code here looks overcomplicated. I came up with a different (and I believe a better one) solution for gesture recognizers, based on @rickster's approach.


@objc func handlePan(recognizer: UIPanGestureRecognizer) {
    let translation = recognizer.velocity(in: recognizer.view)
    cameraOrbit.eulerAngles.y -= Float(translation.x/CGFloat(panModifier)).radians
    cameraOrbit.eulerAngles.x -= Float(translation.y/CGFloat(panModifier)).radians


@objc func handlePinch(recognizer: UIPinchGestureRecognizer) {
    guard let camera = cameraOrbit.childNodes.first else {
    let scale = recognizer.velocity
    let z = camera.position.z - Float(scale)/Float(pinchModifier)
    if z < MaxZoomOut, z > MaxZoomIn {
      camera.position.z = z

I used velocity, as with translation when you slow down the touch it would still be the same event, causing the camera to whirl very fast, not what you'd expect.

panModifier and pinchModifier are simple constant numbers which you can use to adjust responsiveness. I found the optimal values to be 100 and 15 respectively.

MaxZoomOut and MaxZoomIn are constants as well and are exactly what they appear to be.

I also use an extension on Float to convert degrees to radians and vice-versa.

extension Float {
  var radians: Float {
    return self * .pi / 180

  var degrees: Float {
    return self  * 180 / .pi

After trying to implement these solutions (in Objective-C) I realized that Scene Kit actually makes this a lot easier than doing all of this. SCNView has a sweet property called allowsCameraControl that puts in the appropriate gesture recognizers and moves the camera accordingly. The only problem is that it's not the arcball rotation that you're looking for, although that can be easily added by creating a child node, positioning it wherever you want, and giving it a SCNCamera. For example:

    _sceneKitView.allowsCameraControl = YES; //_sceneKitView is a SCNView

    //Setup Camera
    SCNNode *cameraNode = [[SCNNode alloc]init];
    cameraNode.position = SCNVector3Make(0, 0, 1);

    SCNCamera *camera = [SCNCamera camera];
    //setup your camera to fit your specific scene
    camera.zNear = .1;
    camera.zFar = 3;

    cameraNode.camera = camera;
    [_sceneKitView.scene.rootNode addChildNode:cameraNode];
  • I'm not clear on what allowsCameraControl will do to help if some specific camera behavior such as arcball rotation is desired; it won't, as I understand it, affect any of the cameras in your scene. Could you elaborate a little on how you're making use of this?
    – Dave Ruske
    Feb 21, 2016 at 17:14
  • my understanding is that it manipulates the current point of view of the SCNView. From the documentation, "This action does not modify camera objects already existing in the scene graph or the nodes containing them. The default value of this property is NO." When you add allowsCameraControl to a SCNView as I did above, the scene initializes and displays according to whatever Node contains your camera as it otherwise would. Scenekit automatically (and behind the scenes, the functions don't pop up in your code) adds pan/swipe gesture recognizers and moves the camera according to those gestures.
    – sts54
    Apr 11, 2016 at 22:35
  • allowsCameraControl is essentially debug functionality that precludes any sort of customization Sep 25, 2016 at 20:14
  • This is not a workable solution for what was requested. As @AlfieHanssen said, it's essentially there for debugging, and offers you absolutely no control over what the user can or cannot do.
    – PKCLsoft
    Jul 18, 2018 at 21:45

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