// FixedUpdate is called on a fixed timestep
 void FixedUpdate()
 {
     if (Ready)
     {
         VxDLL.VortexUpdateApplication();
     }
 }
Exemple #2
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    // Create Vortex Studio mechanism
    void OnEnable()
    {
        Mechanism = VxDLL.VortexLoadMechanism(VxDLL.VortexContent + "/" + "Demo Scenes/Equipment/Forklift/Dynamic/Design/Forklift.vxmechanism", new double[3] {
            0.0, 0.0, 0.0
        }, new double[4] {
            0.0, 0.0, 0.0, 1.0
        });

        // Vortex node discovery
        if (Mechanism != 0)
        {
            uint    nodeHandlesCount = 128;
            ulong[] nodeHandles      = new ulong[nodeHandlesCount];
            if (VxDLL.VortexGetGraphicsNodeHandles(Mechanism, nodeHandles, ref nodeHandlesCount))
            {
                string discoveredNodes         = "";
                VortexGraphicNodeData nodeData = new VortexGraphicNodeData();
                for (uint i = 0; i < nodeHandlesCount && i < nodeHandles.Length; ++i)
                {
                    if (VxDLL.VortexGetGraphicNodeData(nodeHandles[i], ref nodeData))
                    {
                        // console output
                        if (discoveredNodes != "")
                        {
                            discoveredNodes += "\n";
                        }
                        string nodeName;
                        unsafe { nodeName = new string(nodeData.name); }
                        discoveredNodes += nodeName;

                        // mapping
                        Transform child = TransformExtension.FindRecursively(transform, nodeName);
                        if (child)
                        {
                            PartMapping[child] = nodeHandles[i];

                            // relative position
                            Vector3 newPosition = new Vector3();
                            unsafe
                            {
                                newPosition.x = (float)nodeData.position[0];
                                // swizzle Z and Y
                                newPosition.z = (float)nodeData.position[1];
                                newPosition.y = (float)nodeData.position[2];
                            }
                            transform.localPosition = newPosition;
                        }
                    }
                }

                if (nodeHandlesCount > 0)
                {
                    Debug.Log("Discovered Vortex Nodes:\n" + discoveredNodes);
                }
            }
        }
    }
    // Destroy Vortex Studio application
    void OnDisable()
    {
        if (Ready)
        {
            // switch to editing
            VxDLL.VortexPause(true);
            VxDLL.VortexSetApplicationMode(1, true);

            // unload and destroy
            VxDLL.VortexDestroyApplication();

            Ready = false;
        }
    }
    // Exactly one Vortex Studio Application must exist per project
    VortexApplication()
    {
        string previous = System.IO.Directory.GetCurrentDirectory();

        try
        {
            // this will allow the library to load
            System.IO.Directory.SetCurrentDirectory(VxDLL.VortexRoot + "/" + "bin");

            // license check
            Licensed = VxDLL.VortexHasValidLicense();
        }
        catch
        {
            // does nothing
        }

        System.IO.Directory.SetCurrentDirectory(previous);
    }
    // Create Vortex Studio application
    void OnEnable()
    {
        string previous = System.IO.Directory.GetCurrentDirectory();

        try
        {
            // this will allow the library to load
            System.IO.Directory.SetCurrentDirectory(VxDLL.VortexRoot + "/" + "bin");

            // create the application with a given setup document, optional physical materials and terrain provider
            Ready = VxDLL.VortexCreateApplication(VxDLL.VortexRoot + "/" + "resources/config/VortexIntegration.vxc", "", "", "", 0);
        }
        catch
        {
            // does nothing
        }

        System.IO.Directory.SetCurrentDirectory(previous);

        // switch to simulating
        VxDLL.VortexSetApplicationMode(0, true);
        VxDLL.VortexPause(false);
    }
Exemple #6
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 // FixedUpdate is called on a fixed timestep
 void FixedUpdate()
 {
     // Vortex node mapping
     if (Mechanism != 0)
     {
         double[] position    = new double[3];
         double[] scale       = new double[3];
         double[] rotation    = new double[4];
         Vector3  newPosition = new Vector3();
         foreach (var mapping in PartMapping)
         {
             if (mapping.Key)
             {
                 VxDLL.VortexGetParentTransform(mapping.Value, position, scale, rotation);
                 newPosition.x = (float)position[0];
                 // swizzle Z and Y
                 newPosition.z      = (float)position[1];
                 newPosition.y      = (float)position[2];
                 transform.position = newPosition;
             }
         }
     }
 }
Exemple #7
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 // Destroy Vortex Studio mechanism
 void OnDisable()
 {
     VxDLL.VortexUnloadMechanism(Mechanism);
     Mechanism = 0;
 }