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3D Printing from Unity sample

This sample demonstrates loading a Unity 3D asset into the Windows 10 3D print dialog. From there, the user can repair the model, make simple modifications, and send it to a local 3D printer or an online 3D print service.

Note that this is not a traditional sample that you can simply load into Visual Studio. Follow the instructions below to create and run the sample.

Prerequisites

In addition to Visual Studio and the Windows SDK, you need the following:

  • Unity version 5.2.1p2 or later.

  • The Unity plugin for Visual Studio. This can be installed as part of installing Unity, or you can download it manually.

  • The 3D Builder app. This application comes preinstalled with Windows 10. If you have uninstalled it, you can reinstall it from the Store.

A basic understanding of Unity is assumed. Learn how to get started with Unity here

Create the sample

We provide only the scripts Print.cs and Turn.cs. You will create the scene and the model (fbx model, material, and texture) yourself.

  1. Start Unity and create a new 3D project.

  2. Import an asset from the Unity store. For this sample, we will use Cartoon crucian carp.

  3. Create an empty GameObject and drag the FBX asset from the All Models folder into the newly-created GameObject.

  4. In the Assets\nnj3de_cruscarp folder of the project, click cruscarp.png. This will show "cruscarp Import Settings" in the Inspector pane.

  5. In the Inspector pane for "cruscarp Import Settings", set the Texture Type to Advanced, and then check the Read/Write Enabled checkbox, and then set the Format to RGBA 32 bit.

  6. Click Apply at the bottom of the Inspector pane to apply the changes.

  7. Go to the All Scripts folder, right-click an empty space, and select Import New Asset. Select the Print.js and (optionally) Turn.js files from this sample. The Turn.js script lets the user rotate the object and inspect it within the Unity editor.

  8. Expand the GameObject you created in step 3 to reveal the cruscarp node. Expand the cruscarp node to reveal a second cruscarp node. This is the rendering mesh.

  9. Drag the Print.js file (and optionally Turn.js file) from the All Scripts folder onto the rendering mesh node you revealed in step 8.

  10. From the File menu, select Build Settings, and set the Platform to Windows Store, SDK to Universal 10, and Build Type to XAML. Click Build and choose a folder that will receive the generated C# project.

  11. Open the generated csproj file in a text editor to fix an error in Unity's code generation: Search for the lines

    10.0.N.0.0

and

<SDKReference Include="WindowsMobile, Version=10.0.N.0.0">

(The value of N will depend on the SDK you are using.)
Delete the extra `.0`:

<TargetPlatformVersion>10.0.N.0</TargetPlatformVersion>

<SDKReference Include="WindowsMobile, Version=10.0.N.0">

Build and run the sample

You can now open the .sln file in Visual Studio and build the sample. When you run the sample, click the 3D Print button to launch the Windows 10 3D Print dialog. From this dialog, you can order your model online or send it to a local printer.

Debugging the sample

From the Modules window, choose Assembly-CSharp.dll. Find the symbol from your solution folder and load it. Within your script, set your breakpoints.

Additionally, you can inspect the 3MF file that has been generated using the commented function in Print.cs.

Related topics

Reference

System requirements

Client: Windows 10 Version 1511

Phone: Windows 10 Version 1511