How can I export the ARMeshGeometry generated by the new SceneReconstruction API on the latest iPad Pro to an .obj file?
Here's SceneReconstruction documentation.
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Starting with Apple's Visualising Scene Scemantics sample app, you can retrieve the ARMeshGeometry object from the first anchor in the frame.
The easiest approach to exporting the data is to first convert it to an MDLMesh:
extension ARMeshGeometry {
func toMDLMesh(device: MTLDevice) -> MDLMesh {
let allocator = MTKMeshBufferAllocator(device: device);
let data = Data.init(bytes: vertices.buffer.contents(), count: vertices.stride * vertices.count);
let vertexBuffer = allocator.newBuffer(with: data, type: .vertex);
let indexData = Data.init(bytes: faces.buffer.contents(), count: faces.bytesPerIndex * faces.count * faces.indexCountPerPrimitive);
let indexBuffer = allocator.newBuffer(with: indexData, type: .index);
let submesh = MDLSubmesh(indexBuffer: indexBuffer,
indexCount: faces.count * faces.indexCountPerPrimitive,
indexType: .uInt32,
geometryType: .triangles,
material: nil);
let vertexDescriptor = MDLVertexDescriptor();
vertexDescriptor.attributes[0] = MDLVertexAttribute(name: MDLVertexAttributePosition,
format: .float3,
offset: 0,
bufferIndex: 0);
vertexDescriptor.layouts[0] = MDLVertexBufferLayout(stride: vertices.stride);
return MDLMesh(vertexBuffer: vertexBuffer,
vertexCount: vertices.count,
descriptor: vertexDescriptor,
submeshes: [submesh]);
}
}
Once you have the MDLMesh, exporting to an OBJ file is a breeze:
@IBAction func exportMesh(_ button: UIButton) {
let meshAnchors = arView.session.currentFrame?.anchors.compactMap({ $0 as? ARMeshAnchor });
DispatchQueue.global().async {
let directory = FileManager.default.urls(for: .documentDirectory, in: .userDomainMask)[0];
let filename = directory.appendingPathComponent("MyFirstMesh.obj");
guard let device = MTLCreateSystemDefaultDevice() else {
print("metal device could not be created");
return;
};
let asset = MDLAsset();
for anchor in meshAnchors! {
let mdlMesh = anchor.geometry.toMDLMesh(device: device);
asset.add(mdlMesh);
}
do {
try asset.export(to: filename);
} catch {
print("failed to write to file");
}
}
}
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Hi @swiftcoder! Thank you for you answer. It looks convincing. Have you tested it? Does
OBJexport work? I can't test it 'cause I have no iPad with a LiDAR scanner. – Andy Fedoroff Apr 11 '20 at 3:52 -
Yes, I used this code (added to the sample app), to scan objects in my apartment. Note that if you scan a large area, you will end up with multiple mesh anchors, so you need to run this code for each one, and add them all to the MDLAsset. – swiftcoder Apr 12 '20 at 4:19
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Thanks @swiftcoder! Where do I place the code let mdlMesh = anchor.geometry.toMDLMesh()... in the example? Did you used an extra ibaction for that? – Florian Thürkow Apr 24 '20 at 8:50
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Yes, I added a new IBAction (I've updated the answer to include it), and then wired that up to an "Export" button in the UI. – swiftcoder Apr 25 '20 at 14:50
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The answer of the @swiftcoder works great. But in the case of several anchors you need to convert the vertices coordinates to the world coordinate system based on the anchor transform. In the opposite case all meshes will be placed at zero position and you will have a mess.
The updated code looks like this:
extension ARMeshGeometry {
func toMDLMesh(device: MTLDevice, transform: simd_float4x4) -> MDLMesh {
let allocator = MTKMeshBufferAllocator(device: device)
let data = Data.init(bytes: transformedVertexBuffer(transform), count: vertices.stride * vertices.count)
let vertexBuffer = allocator.newBuffer(with: data, type: .vertex)
let indexData = Data.init(bytes: faces.buffer.contents(), count: faces.bytesPerIndex * faces.count * faces.indexCountPerPrimitive)
let indexBuffer = allocator.newBuffer(with: indexData, type: .index)
let submesh = MDLSubmesh(indexBuffer: indexBuffer,
indexCount: faces.count * faces.indexCountPerPrimitive,
indexType: .uInt32,
geometryType: .triangles,
material: nil)
let vertexDescriptor = MDLVertexDescriptor()
vertexDescriptor.attributes[0] = MDLVertexAttribute(name: MDLVertexAttributePosition,
format: .float3,
offset: 0,
bufferIndex: 0)
vertexDescriptor.layouts[0] = MDLVertexBufferLayout(stride: vertices.stride)
return MDLMesh(vertexBuffer: vertexBuffer,
vertexCount: vertices.count,
descriptor: vertexDescriptor,
submeshes: [submesh])
}
func transformedVertexBuffer(_ transform: simd_float4x4) -> [Float] {
var result = [Float]()
for index in 0..<vertices.count {
let vertexPointer = vertices.buffer.contents().advanced(by: vertices.offset + vertices.stride * index)
let vertex = vertexPointer.assumingMemoryBound(to: (Float, Float, Float).self).pointee
var vertextTransform = matrix_identity_float4x4
vertextTransform.columns.3 = SIMD4<Float>(vertex.0, vertex.1, vertex.2, 1)
let position = (transform * vertextTransform).position
result.append(position.x)
result.append(position.y)
result.append(position.z)
}
return result
}
}
extension simd_float4x4 {
var position: SIMD3<Float> {
return SIMD3<Float>(columns.3.x, columns.3.y, columns.3.z)
}
}
extension Array where Element == ARMeshAnchor {
func save(to fileURL: URL, device: MTLDevice) throws {
let asset = MDLAsset()
self.forEach {
let mesh = $0.geometry.toMDLMesh(device: device, transform: $0.transform)
asset.add(mesh)
}
try asset.export(to: fileURL)
}
}
I am not an expert in ModelIO and maybe there is more simple way to transform vertex buffer :) But this code works for me.
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Looks great! Can you give us an full-example of your ViewController.swift or upload your project to github? – Florian Thürkow Apr 24 '20 at 8:52
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Sure, Florian, here you are. github.com/alexander-gaidukov/LiDarDetector – Alexander Gaidukov Apr 30 '20 at 15:41
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1I was able to add texture coordinates and export a mesh. Added the method here: stackoverflow.com/a/61790146/1072825 – Pavan K May 18 '20 at 19:18
This code snippet allows you save LiDAR's geometry as USD or OBJ and send it to Mac computer via AirDrop.
You can export not only .usd but also .usda, .usdc, .obj and .stl file formats.
import RealityKit
import ARKit
import MetalKit
import ModelIO
@IBOutlet var arView: ARView!
var saveButton: UIButton!
let rect = CGRect(x: 50, y: 50, width: 100, height: 50)
override func viewDidLoad() {
super.viewDidLoad()
let tui = UIControl.Event.touchUpInside
saveButton = UIButton(frame: rect)
saveButton.setTitle("Save", for: [])
saveButton.addTarget(self, action: #selector(saveButtonTapped), for: tui)
self.view.addSubview(saveButton)
}
@objc func saveButtonTapped(sender: UIButton) {
print("Saving is executing...")
guard let frame = arView.session.currentFrame
else { fatalError("Can't get ARFrame") }
guard let device = MTLCreateSystemDefaultDevice()
else { fatalError("Can't create MTLDevice") }
let allocator = MTKMeshBufferAllocator(device: device)
let asset = MDLAsset(bufferAllocator: allocator)
let meshAnchors = frame.anchors.compactMap { $0 as? ARMeshAnchor }
for ma in meshAnchors {
let geometry = ma.geometry
let vertices = geometry.vertices
let faces = geometry.faces
let vertexPointer = vertices.buffer.contents()
let facePointer = faces.buffer.contents()
for vtxIndex in 0 ..< vertices.count {
let vertex = geometry.vertex(at: UInt32(vtxIndex))
var vertexLocalTransform = matrix_identity_float4x4
vertexLocalTransform.columns.3 = SIMD4<Float>(x: vertex.0,
y: vertex.1,
z: vertex.2,
w: 1.0)
let vertexWorldTransform = (ma.transform * vertexLocalTransform).position
let vertexOffset = vertices.offset + vertices.stride * vtxIndex
let componentStride = vertices.stride / 3
vertexPointer.storeBytes(of: vertexWorldTransform.x,
toByteOffset: vertexOffset,
as: Float.self)
vertexPointer.storeBytes(of: vertexWorldTransform.y,
toByteOffset: vertexOffset + componentStride,
as: Float.self)
vertexPointer.storeBytes(of: vertexWorldTransform.z,
toByteOffset: vertexOffset + (2 * componentStride),
as: Float.self)
}
let byteCountVertices = vertices.count * vertices.stride
let byteCountFaces = faces.count * faces.indexCountPerPrimitive * faces.bytesPerIndex
let vertexBuffer = allocator.newBuffer(with: Data(bytesNoCopy: vertexPointer,
count: byteCountVertices,
deallocator: .none), type: .vertex)
let indexBuffer = allocator.newBuffer(with: Data(bytesNoCopy: facePointer,
count: byteCountFaces,
deallocator: .none), type: .index)
let indexCount = faces.count * faces.indexCountPerPrimitive
let material = MDLMaterial(name: "material",
scatteringFunction: MDLPhysicallyPlausibleScatteringFunction())
let submesh = MDLSubmesh(indexBuffer: indexBuffer,
indexCount: indexCount,
indexType: .uInt32,
geometryType: .triangles,
material: material)
let vertexFormat = MTKModelIOVertexFormatFromMetal(vertices.format)
let vertexDescriptor = MDLVertexDescriptor()
vertexDescriptor.attributes[0] = MDLVertexAttribute(name: MDLVertexAttributePosition,
format: vertexFormat,
offset: 0,
bufferIndex: 0)
vertexDescriptor.layouts[0] = MDLVertexBufferLayout(stride: ma.geometry.vertices.stride)
let mesh = MDLMesh(vertexBuffer: vertexBuffer,
vertexCount: ma.geometry.vertices.count,
descriptor: vertexDescriptor,
submeshes: [submesh])
asset.add(mesh)
}
let filePath = FileManager.default.urls(for: .documentDirectory,
in: .userDomainMask).first!
let usd: URL = filePath.appendingPathComponent("model.usd")
if MDLAsset.canExportFileExtension("usd") {
do {
try asset.export(to: usd)
let controller = UIActivityViewController(activityItems: [usd],
applicationActivities: nil)
controller.popoverPresentationController?.sourceView = sender
self.present(controller, animated: true, completion: nil)
} catch let error {
fatalError(error.localizedDescription)
}
} else {
fatalError("Can't export USD")
}
}
After pressing Save button, in Activity View Controller just choose More and send ready model to Mac's Downloads folder via AirDrop.
P.S. And here you can find an extra info on capturing real-world texture.
answered Apr 7 '20 at 5:22
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1You can, see @swiftcoder 's answer. There is even example code in the documentation of ARMeshGeometry – pkuhar Apr 8 '20 at 18:07
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1having to write a bit of code to do it, does not mean you can't. You would say NO, if Apple would be keeping this info for themselves, which is not true in this case. – pkuhar Apr 10 '20 at 21:11
