3

I am using ARKit to detect walls at runtime, I use a hit test of type .estimatedVerticalPlane when some point of the screen is touched. I am trying to apply Y rotation to node corresponding to the detected plane orientation.

I want to compute the rotation in :

private func computeYRotationForHitLocation(hitTestResult: ARHitTestResult) -> Float {
    guard hitTestResult.type == .estimatedVerticalPlane else { return 0.0 }
//        guard let planeAnchor = hitTestResult.anchor as? ARPlaneAnchor else { return 0.0 }
//        guard let anchoredNode = sceneView.node(for: planeAnchor) else { return 0.0 }

    let worldTransform = hitTestResult.worldTransform
    let anchorNodeOrientation = ???

    return .pi * anchorNodeOrientation.y
}

How to deduce the anchorNodeOrientation to apply given the wall orientation, this post explains it well for a hit test type that provide an ARAnchor but for estimatedVerticalPlane it is nil. (ARKit 1.5 how to get the rotation of a vertical plane).

Also when I do : po hitTestResult.worldTransform on the debugger it prints a rotation for worldTransform 91 degrees etc but I cannot retrieve it from the transform.

3

I finally managed to get the Euler Angles from the transform through the following transformation, still have to check the results correctness :

import SceneKit
import ARKit

public extension matrix_float4x4 {

/// Retrieve translation from a quaternion matrix
public var translation: SCNVector3 {
    get {
        return SCNVector3Make(columns.3.x, columns.3.y, columns.3.z)
    }
}

/// Retrieve euler angles from a quaternion matrix
public var eulerAngles: SCNVector3 {
    get {
        //first we get the quaternion from m00...m22
        //see http://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToQuaternion/index.htm
        let qw = sqrt(1 + self.columns.0.x + self.columns.1.y + self.columns.2.z) / 2.0
        let qx = (self.columns.2.y - self.columns.1.z) / (qw * 4.0)
        let qy = (self.columns.0.z - self.columns.2.x) / (qw * 4.0)
        let qz = (self.columns.1.x - self.columns.0.y) / (qw * 4.0)

        //then we deduce euler angles with some cosines
        //see https://en.wikipedia.org/wiki/Conversion_between_quaternions_and_Euler_angles
        // roll (x-axis rotation)
        let sinr = +2.0 * (qw * qx + qy * qz)
        let cosr = +1.0 - 2.0 * (qx * qx + qy * qy)
        let roll = atan2(sinr, cosr)

        // pitch (y-axis rotation)
        let sinp = +2.0 * (qw * qy - qz * qx)
        var pitch: Float
        if fabs(sinp) >= 1 {
            pitch = copysign(Float.pi / 2, sinp)
        } else {
            pitch = asin(sinp)
        }

        // yaw (z-axis rotation)
        let siny = +2.0 * (qw * qz + qx * qy)
        let cosy = +1.0 - 2.0 * (qy * qy + qz * qz)
        let yaw = atan2(siny, cosy)

        return SCNVector3(roll, pitch, yaw)
    }
}
}
| improve this answer | |
  • Shouldn’t the vector at the end be roll, pitch, yaw ? – BlackMirrorz May 16 '18 at 14:17
  • Probably, we should mimic the order it is set in eulerAngles, I haven't time to check it now, could you confirm so I update the return value ? – michael-martinez May 16 '18 at 14:28
  • I will take a look. I had a quick look and the rotations given matched the anchor ones but not in the correct order unless I did something wr’ong :) – BlackMirrorz May 16 '18 at 14:29
  • Ok I think it looks ok then :) – michael-martinez May 16 '18 at 14:30
  • It’s a great bit of code :) as you’d laid just need to double check the structure of the vector at the end :) – BlackMirrorz May 16 '18 at 14:35

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