SceneKit – Drawing a line between two points

Question

I have two points (let's call them pointA and pointB) of type SCNVector3. I want to draw a line between them. Seems like it should be easy, but can't find a way to do it.

I see two options, both have issues:

• Use a SCNCylinder with a small radius, with length |pointA-pointB| and then position it/rotate it.

• Use a custom SCNGeometry but not sure how; would have to define two triangles to form a very thin rectangle perhaps?

It seems like there should be an easier way of doing this, but I can't seem to find one.

Edit: Using the triangle method gives me this for drawing a line between (0,0,0) and (10,10,10):

CGFloat delta = 0.1;
SCNVector3 positions[] = {  SCNVector3Make(0,0,0),
    SCNVector3Make(10, 10, 10),
    SCNVector3Make(0+delta, 0+delta, 0+delta),
    SCNVector3Make(10+delta, 10+delta, 10+delta)};
int indicies[] = {
    0,2,1,
    1,2,3
};

SCNGeometrySource *vertexSource = [SCNGeometrySource geometrySourceWithVertices:positions count:4];
NSData *indexData = [NSData dataWithBytes:indicies length:sizeof(indicies)];
SCNGeometryElement *element = [SCNGeometryElement geometryElementWithData:indexData primitiveType:SCNGeometryPrimitiveTypeTriangles primitiveCount:2 bytesPerIndex:sizeof(int)];
SCNGeometry *line = [SCNGeometry geometryWithSources:@[vertexSource] elements:@[element]];

SCNNode *lineNode = [SCNNode nodeWithGeometry:line];
[root addChildNode:lineNode];

But there are problems: due to the normals, you can only see this line from one side! It's invisible from the other side. Also, if "delta" is too small you can't see the line at all. As it is, it's technically a rectangle, rather than the line I was going for, which might result in small graphical glitches if I want to draw multiple joined up lines.

Answer 1

Here's a simple extension in Swift:

extension SCNGeometry {
    class func lineFrom(vector vector1: SCNVector3, toVector vector2: SCNVector3) -> SCNGeometry {
        let indices: [Int32] = [0, 1]

        let source = SCNGeometrySource(vertices: [vector1, vector2])
        let element = SCNGeometryElement(indices: indices, primitiveType: .Line)

        return SCNGeometry(sources: [source], elements: [element])

    }
}

Answer 2

New code for a line from (0, 0, 0) to (10, 10, 10) below. I'm not sure if it could be improved further.

SCNVector3 positions[] = {
    SCNVector3Make(0.0, 0.0, 0.0),
    SCNVector3Make(10.0, 10.0, 10.0)
};

int indices[] = {0, 1};

SCNGeometrySource *vertexSource = [SCNGeometrySource geometrySourceWithVertices:positions
                                                                          count:2];

NSData *indexData = [NSData dataWithBytes:indices
                                   length:sizeof(indices)];

SCNGeometryElement *element = [SCNGeometryElement geometryElementWithData:indexData
                                                            primitiveType:SCNGeometryPrimitiveTypeLine
                                                           primitiveCount:1
                                                            bytesPerIndex:sizeof(int)];

SCNGeometry *line = [SCNGeometry geometryWithSources:@[vertexSource]
                                            elements:@[element]];

SCNNode *lineNode = [SCNNode nodeWithGeometry:line];

[root addChildNode:lineNode];

Answer 3

Here's one solution

class func lineBetweenNodeA(nodeA: SCNNode, nodeB: SCNNode) -> SCNNode {
    let positions: [Float32] = [nodeA.position.x, nodeA.position.y, nodeA.position.z, nodeB.position.x, nodeB.position.y, nodeB.position.z]
    let positionData = NSData(bytes: positions, length: MemoryLayout<Float32>.size*positions.count)
    let indices: [Int32] = [0, 1]
    let indexData = NSData(bytes: indices, length: MemoryLayout<Int32>.size * indices.count)

    let source = SCNGeometrySource(data: positionData as Data, semantic: SCNGeometrySource.Semantic.vertex, vectorCount: indices.count, usesFloatComponents: true, componentsPerVector: 3, bytesPerComponent: MemoryLayout<Float32>.size, dataOffset: 0, dataStride: MemoryLayout<Float32>.size * 3)
    let element = SCNGeometryElement(data: indexData as Data, primitiveType: SCNGeometryPrimitiveType.line, primitiveCount: indices.count, bytesPerIndex: MemoryLayout<Int32>.size)

    let line = SCNGeometry(sources: [source], elements: [element])
    return SCNNode(geometry: line)
}

if you would like to update the line width or anything related to modifying properties of the drawn line, you'll want to use one of the openGL calls in SceneKit's rendering callback:

func renderer(aRenderer: SCNSceneRenderer, willRenderScene scene: SCNScene, atTime time: NSTimeInterval) {
    //Makes the lines thicker
    glLineWidth(20)
}

Answer 4

Here is a swift5 version:

func lineBetweenNodes(positionA: SCNVector3, positionB: SCNVector3, inScene: SCNScene) -> SCNNode {
    let vector = SCNVector3(positionA.x - positionB.x, positionA.y - positionB.y, positionA.z - positionB.z)
    let distance = sqrt(vector.x * vector.x + vector.y * vector.y + vector.z * vector.z)
    let midPosition = SCNVector3 (x:(positionA.x + positionB.x) / 2, y:(positionA.y + positionB.y) / 2, z:(positionA.z + positionB.z) / 2)

    let lineGeometry = SCNCylinder()
    lineGeometry.radius = 0.05
    lineGeometry.height = distance
    lineGeometry.radialSegmentCount = 5
    lineGeometry.firstMaterial!.diffuse.contents = GREEN

    let lineNode = SCNNode(geometry: lineGeometry)
    lineNode.position = midPosition
    lineNode.look (at: positionB, up: inScene.rootNode.worldUp, localFront: lineNode.worldUp)
    return lineNode
}

Answer 5

So inside your ViewController.cs define your vector points and call a Draw function, then on the last line there - it's just rotating it to look at point b.

       var a = someVector3;
       var b = someOtherVector3;
       nfloat cLength = (nfloat)Vector3Helper.DistanceBetweenPoints(a, b);
       var cyclinderLine = CreateGeometry.DrawCylinderBetweenPoints(a, b, cLength, 0.05f, 10);
       ARView.Scene.RootNode.Add(cyclinderLine);
       cyclinderLine.Look(b, ARView.Scene.RootNode.WorldUp, cyclinderLine.WorldUp);

Create a static CreateGeomery class and put this static method in there

        public static SCNNode DrawCylinderBetweenPoints(SCNVector3 a,SCNVector3 b, nfloat length, nfloat radius, int radialSegments){

         SCNNode cylinderNode;
         SCNCylinder cylinder = new SCNCylinder();
         cylinder.Radius = radius;
         cylinder.Height = length;
         cylinder.RadialSegmentCount = radialSegments;
         cylinderNode = SCNNode.FromGeometry(cylinder);
         cylinderNode.Position = Vector3Helper.GetMidpoint(a,b);

         return cylinderNode;
        }

you may also want these utility methods in a static helper class

        public static double DistanceBetweenPoints(SCNVector3 a, SCNVector3 b)
        {
         SCNVector3 vector = new SCNVector3(a.X - b.X, a.Y - b.Y, a.Z - b.Z);
         return Math.Sqrt(vector.X * vector.X + vector.Y * vector.Y + vector.Z * vector.Z);
        }


    public static SCNVector3 GetMidpoint(SCNVector3 a, SCNVector3 b){

        float x = (a.X + b.X) / 2;
        float y = (a.Y + b.Y) / 2;
        float z = (a.Z + b.Z) / 2;

        return new SCNVector3(x, y, z);
    }

For all my Xamarin c# homies out there.

Answer 6

Here's a solution using triangles that works independent of the direction of the line. It's constructed using the cross product to get points perpendicular to the line. So you'll need a small SCNVector3 extension, but it'll probably come in handy in other cases, too.

private func makeRect(startPoint: SCNVector3, endPoint: SCNVector3, width: Float ) -> SCNGeometry {
    let dir = (endPoint - startPoint).normalized()
    let perp = dir.cross(SCNNode.localUp) * width / 2

    let firstPoint = startPoint + perp
    let secondPoint = startPoint - perp
    let thirdPoint = endPoint + perp
    let fourthPoint = endPoint - perp
    let points = [firstPoint, secondPoint, thirdPoint, fourthPoint]

    let indices: [UInt16] = [
        1,0,2,
        1,2,3
    ]
    let geoSource = SCNGeometrySource(vertices: points)
    let geoElement = SCNGeometryElement(indices: indices, primitiveType: .triangles)

    let geo = SCNGeometry(sources: [geoSource], elements: [geoElement])
    geo.firstMaterial?.diffuse.contents = UIColor.blue.cgColor
    return geo
}

SCNVector3 extension:

import Foundation
import SceneKit

extension SCNVector3
{
    /**
     * Returns the length (magnitude) of the vector described by the SCNVector3
     */
    func length() -> Float {
        return sqrtf(x*x + y*y + z*z)
    }

    /**
     * Normalizes the vector described by the SCNVector3 to length 1.0 and returns
     * the result as a new SCNVector3.
     */
    func normalized() -> SCNVector3 {
        return self / length()
    }

    /**
      * Calculates the cross product between two SCNVector3.
      */
    func cross(_ vector: SCNVector3) -> SCNVector3 {
        return SCNVector3(y * vector.z - z * vector.y, z * vector.x - x * vector.z, x * vector.y - y * vector.x)
    }
}

Answer 7

Swift version

To generate a line in a form of cylinder with a certain position and an orientation, let's implement the SCNGeometry extension with a cylinderLine() class method inside. The toughest part here is a trigonometry (for defining cylinder's direction). Here it is:

import SceneKit

extension SCNGeometry {
    
    class func cylinderLine(from: SCNVector3, to: SCNVector3,
                                              segments: Int = 5) -> SCNNode {
        let x1 = from.x; let x2 = to.x
        let y1 = from.y; let y2 = to.y
        let z1 = from.z; let z2 = to.z
        
        let subExpr01 = Float((x2-x1) * (x2-x1))
        let subExpr02 = Float((y2-y1) * (y2-y1))
        let subExpr03 = Float((z2-z1) * (z2-z1))
        
        let distance = CGFloat(sqrtf(subExpr01 + subExpr02 + subExpr03))
        
        let cylinder = SCNCylinder(radius: 0.005, height: CGFloat(distance))
        cylinder.radialSegmentCount = segments
        cylinder.firstMaterial?.diffuse.contents = NSColor.systemYellow
        
        let lineNode = SCNNode(geometry: cylinder)
        
         lineNode.position = SCNVector3((x1+x2)/2, (y1+y2)/2, (z1+z2)/2)
        
        lineNode.eulerAngles = SCNVector3(x: CGFloat.pi / 2,
                                      y: acos((to.z-from.z)/CGFloat(distance)),
                                      z: atan2((to.y-from.y), (to.x-from.x)))
        return lineNode
    }
}

The rest is easy.

class ViewController: NSViewController {
    
    @IBOutlet var sceneView: SCNView!
    let scene = SCNScene()
    var startingPoint: SCNVector3!
    var endingPoint: SCNVector3!
    
    override func viewDidLoad() {
        super.viewDidLoad()
        sceneView.scene = scene
        sceneView.backgroundColor = NSColor.black
        sceneView.allowsCameraControl = true                
        self.startingPoint = SCNVector3Zero
        self.endingPoint = SCNVector3(1,1,1)
        self.lineInBetween()
    }   
    func lineInBetween() {
        self.addSphereDot(position: startingPoint)
        self.addSphereDot(position: endingPoint)
        self.addLine(start: startingPoint, end: endingPoint)
    }   
    func addSphereDot(position: SCNVector3) {
        let sphere = SCNSphere(radius: 0.03)
        sphere.firstMaterial?.diffuse.contents = NSColor.red
        let node = SCNNode(geometry: sphere)
        node.position = position
        scene.rootNode.addChildNode(node)
    }   
    func addLine(start: SCNVector3, end: SCNVector3) {
        let lineNode = SCNGeometry.cylinderLine(from: start, to: end)
        scene.rootNode.addChildNode(lineNode)
    }
}