The image below shows a rotated box that should be moved horizontally on the X and Z axes. Y should stay unaffected to simplify the scenario. The box could also be the SCNNode of the camera, so I guess a projection does not make sense at this point.

So lets say we want to move the box in the direction of the red arrow. How to achieve this using SceneKit?

The red arrow indicates -Z direction of the box. It also shows us it is not parallel to the camera's projection or to the global axes that are shown as dark grey lines of the grid.

My last approach is the product of a translation matrix and a rotation matrix that results in a new transformation matrix. Do I have to add the current transform to the new transform then?

If yes, where is the SceneKit function for the addition of matrices like SCNMatrix4Mult for multiplication or do I have to write it myself using Metal?

If no, what I'm missing out with the matrix calculations?

I don't want to make use of GLKit.

enter image description here

  • Can you clarify how you want to move the node "move horizontally on the x and z axes"? 1) you want to move it in a plane parallel to the screen plane? 2) you want to move it in the plane defined by the X and Z axes? – Sulevus Apr 27 '17 at 13:01
  • Adjust x and z, but not y (vertical axis). But that is only to simplify the scenario. – Marc Apr 27 '17 at 13:02
  • Ok, so you want to move it in the plane defined by X and Z. Does it have to be parallel to the screen? Or you want for example when swiping left move towards -X, right +X and top towards -Z and down towards +Z? If I managed to explain properly? – Sulevus Apr 27 '17 at 13:05
  • Swiping is not the ideal method to move the box into the direction of the red arrow. It is not left or right or top or bottom. Maybe we should leave out any gestures and keys to simplify the scenario. – Marc Apr 27 '17 at 17:56
  • Just imagine the red arrow is the direction vector you want to move the box to. It could be the translation vector. But I don't get it calculated properly. – Marc Apr 27 '17 at 18:14

So my understanding is that you want to move the Box Node along its own X axis (not it's parents X axis). And because the Box Node is rotated, its X axis is not aligned with its parent's one, so you have the problem to convert the translation between the two coordinate systems.

The node hierarchy is

    |----boxNode // rotated around Y (vertical) axis

Using Transformation Matrices

To move boxNode along its own X axis

// First let's get the current boxNode transformation matrix
SCNMatrix4 boxTransform = boxNode.transform;

// Let's make a new matrix for translation +2 along X axis
SCNMatrix4 xTranslation = SCNMatrix4MakeTranslation(2, 0, 0);

// Combine the two matrices, THE ORDER MATTERS !
// if you swap the parameters you will move it in parent's coord system
SCNMatrix4 newTransform = SCNMatrix4Mult(xTranslation, boxTransform);

// Allply the newly generated transform
boxNode.transform = newTransform;

Please Note: The order matters when multiplying matrices

Another option:

Using SCNNode coordinate conversion functions, looks more straight forward to me

// Get the boxNode current position in parent's coord system
SCNVector3 positionInParent = boxNode.position;

// Convert that coordinate to boxNode's own coord system
SCNVector3 positionInSelf = [boxNode convertPosition:positionInParent fromNode:parentNode];

// Translate along own X axis by +2 points
positionInSelf = SCNVector3Make(positionInSelf.x + 2,

// Convert that back to parent's coord system
positionInParent = [parentNode convertPosition: positionInSelf fromNode:boxNode];

// Apply the new position
boxNode.position = positionInParent;
  • I almost got it, just swapping the multiplication parameters. Also SCNMatrix4Translate isn't helping in this case because it also changes the global position. – Marc Apr 28 '17 at 10:47
  • The second options looks understandable as well. I guess it should also work with SCNAction methods like move(). – Marc Apr 28 '17 at 10:50

Building on @Sulevus's correct answer, here's an extension to SCNNode that simplifies things by using the convertVector rather than the convertPosition transformation, in Swift.

I've done it as a var returning a unit vector, and supplied an SCNVector3 overload of multiply so you can say things like

let action = SCNAction.move(by: 2 * cameraNode.leftUnitVectorInParent, duration: 1)

public extension SCNNode {
    var leftUnitVectorInParent: SCNVector3 {
        let vectorInSelf = SCNVector3(x: 1, y: 0, z: 0)
        guard let parent = self.parent else { return vectorInSelf }
        // Convert to parent's coord system
        return parent.convertVector(vectorInSelf, from: self)
    var forwardUnitVectorInParent: SCNVector3 {
        let vectorInSelf = SCNVector3(x: 0, y: 0, z: 1)
        guard let parent = self.parent else { return vectorInSelf }
        // Convert to parent's coord system
        return parent.convertVector(vectorInSelf, from: self)

    func *(lhs: SCNVector3, rhs: CGFloat) -> SCNVector3 {
        return SCNVector3(x: lhs.x * rhs, y: lhs.y * rhs, z: lhs.z * rhs)
    func *(lhs: CGFloat, rhs: SCNVector3) -> SCNVector3 {
        return SCNVector3(x: lhs * rhs.x, y: lhs * rhs.y, z: lhs * rhs.z)

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