Exemplo n.º 1
0
 public static void FaceGetNumInnerLoops(
     FaceRef faceRef,
     out long count)
 {
     ThrowOut(
         SUFaceGetNumInnerLoops(
             faceRef.intPtr,
             out count),
         "Could not get number of inner loops.");
 }
 public static void FaceGetOuterLoop(
     FaceRef faceRef,
     LoopRef loopRef)
 {
     ThrowOut(
         FaceGetOuterLoop(
             faceRef.intPtr,
             out loopRef.intPtr),
         "Could not get outer loop.");
 }
 public static void FaceGetNumEdges(
     FaceRef faceRef,
     out long numEdges)
 {
     ThrowOut(
         SUFaceGetNumEdges(
             faceRef.intPtr,
             out numEdges),
         "Could not get number of edges.");
 }
Exemplo n.º 4
0
 public static void FaceGetFrontMaterial(
     FaceRef faceRef,
     MaterialRef materialRef)
 {
     ThrowOut(
         SUFaceGetFrontMaterial(
             faceRef.intPtr,
             out materialRef.intPtr),
         "Could not get face front material");
 }
 public static void FaceCreate(
     FaceRef faceRef,
     Point3D[] vertices,
     LoopInputRef outerLoop)
 {
     ThrowOut(
         SUFaceCreate(
             out faceRef.intPtr,
             vertices,
             ref outerLoop.intPtr),
         "Could not create face.");
 }
Exemplo n.º 6
0
 public static void FaceGetUVHelper(
     FaceRef faceRef,
     bool front,
     bool back,
     TextureWriterRef textureWriterRef,
     UVHelperRef uvHelperRef)
 {
     ThrowOut(
         SUFaceGetUVHelper(
             faceRef.intPtr,
             front,
             back,
             textureWriterRef.intPtr,
             out uvHelperRef.intPtr),
         "Could not get UVHelper.");
 }
        public static void FaceGetEdges(
            FaceRef faceRef,
            long len,
            EdgeRef[] edgeRefs,
            out long count)
        {
            IntPtr[] intPtrs = new IntPtr[edgeRefs.Length];

            ThrowOut(
                SUFaceGetEdges(
                    faceRef.intPtr,
                    len,
                    intPtrs,
                    out count),
                "Could not get face edges.");

            for (int i = 0; i < edgeRefs.Length; ++i)
            {
                edgeRefs[i]        = new EdgeRef();
                edgeRefs[i].intPtr = intPtrs[i];
            }
        }
Exemplo n.º 8
0
        public static void EntitiesGetFaces(
            EntitiesRef entitiesRef,
            long len,
            FaceRef[] faceRefs,
            out long count)
        {
            IntPtr[] intPtrs = new IntPtr[faceRefs.Length];

            ThrowOut(
                SUEntitiesGetFaces(
                    entitiesRef.intPtr,
                    len,
                    intPtrs,
                    out count),
                "Could not get entities faces.");

            for (int i = 0; i < faceRefs.Length; ++i)
            {
                faceRefs[i]        = new FaceRef();
                faceRefs[i].intPtr = intPtrs[i];
            }
        }
Exemplo n.º 9
0
        public static void FaceGetInnerLoops(
            FaceRef faceRef,
            long len,
            LoopRef[] loopRefs,
            out long count)
        {
            IntPtr[] intPtrs = new IntPtr[loopRefs.Length];

            ThrowOut(
                SUFaceGetInnerLoops(
                    faceRef.intPtr,
                    len,
                    intPtrs,
                    out count),
                "Could not get inner loops.");

            for (int i = 0; i < loopRefs.Length; ++i)
            {
                loopRefs[i]        = new LoopRef();
                loopRefs[i].intPtr = intPtrs[i];
            }
        }
Exemplo n.º 10
0
        private void Start()
        {
            audioSource = GetComponent <AudioSource>();
            if (audioSource.clip == null)
            {
                missingClipWarning.SetActive(value: true);
            }
            ico = pb_ShapeGenerator.IcosahedronGenerator(icoRadius, icoSubdivisions);
            pb_Face[] faces = ico.faces;
            pb_Face[] array = faces;
            foreach (pb_Face pb_Face in array)
            {
                pb_Face.material = material;
            }
            ico.Extrude(faces, ExtrudeMethod.IndividualFaces, startingExtrusion);
            ico.ToMesh();
            ico.Refresh();
            outsides = new FaceRef[faces.Length];
            Dictionary <int, int> lookup = ico.sharedIndices.ToDictionary();

            for (int j = 0; j < faces.Length; j++)
            {
                outsides[j] = new FaceRef(faces[j], pb_Math.Normal(ico, faces[j]), ico.sharedIndices.AllIndicesWithValues(lookup, faces[j].distinctIndices).ToArray());
            }
            original_vertices = new Vector3[ico.vertices.Length];
            Array.Copy(ico.vertices, original_vertices, ico.vertices.Length);
            displaced_vertices     = ico.vertices;
            icoMesh                = ico.msh;
            icoTransform           = ico.transform;
            faces_length           = outsides.Length;
            icoPosition            = icoTransform.position;
            waveform.positionCount = 1024;
            if (bounceWaveform)
            {
                waveform.transform.parent = icoTransform;
            }
            audioSource.Play();
        }
Exemplo n.º 11
0
        /**
         * Creates the icosphere, and loads all the cache information.
         */
        void Start()
        {
            audioSource = GetComponent <AudioSource>();

            if (audioSource.clip == null)
            {
                missingClipWarning.SetActive(true);
            }

            // Create a new icosphere.
            ico = pb_ShapeGenerator.IcosahedronGenerator(icoRadius, icoSubdivisions);

            // Shell is all the faces on the new icosphere.
            pb_Face[] shell = ico.faces;

            // Materials are set per-face on pb_Object meshes.  pb_Objects will automatically
            // condense the mesh to the smallest set of subMeshes possible based on materials.
#if !PROTOTYPE
            foreach (pb_Face f in shell)
            {
                f.SetMaterial(material);
            }
#else
            ico.gameObject.GetComponent <MeshRenderer>().sharedMaterial = material;
#endif

            pb_Face[] connectingFaces;

            // Extrude all faces on the icosphere by a small amount.  The third boolean parameter
            // specifies that extrusion should treat each face as an individual, not try to group
            // all faces together.
            ico.Extrude(shell, startingExtrusion, false, out connectingFaces);

            // ToMesh builds the mesh positions, submesh, and triangle arrays.  Call after adding
            // or deleting vertices, or changing face properties.
            ico.ToMesh();

            // Refresh builds the normals, tangents, and UVs.
            ico.Refresh();

            outsides = new FaceRef[shell.Length];
            Dictionary <int, int> lookup = ico.sharedIndices.ToDictionary();

            // Populate the outsides[] cache.  This is a reference to the tops of each extruded column, including
            // copies of the sharedIndices.
            for (int i = 0; i < shell.Length; ++i)
            {
                outsides[i] = new FaceRef(shell[i],
                                          pb_Math.Normal(ico, shell[i]),
                                          ico.sharedIndices.AllIndicesWithValues(lookup, shell[i].distinctIndices).ToArray()
                                          );
            }

            // Store copy of positions array un-modified
            original_vertices = new Vector3[ico.vertices.Length];
            System.Array.Copy(ico.vertices, original_vertices, ico.vertices.Length);

            // displaced_vertices should mirror icosphere mesh vertices.
            displaced_vertices = ico.vertices;

            icoMesh      = ico.msh;
            icoTransform = ico.transform;

            faces_length = (float)outsides.Length;

            // Build the waveform ring.
            icoPosition = icoTransform.position;
            waveform.SetVertexCount(WAVEFORM_SAMPLES);

            if (bounceWaveform)
            {
                waveform.transform.parent = icoTransform;
            }

            audioSource.Play();
        }
Exemplo n.º 12
0
		/**
		 * Creates the icosphere, and loads all the cache information.
		 */
		void Start()
		{
			audioSource = GetComponent<AudioSource>();

			if( audioSource.clip == null )
				missingClipWarning.SetActive(true);

			// Create a new icosphere.
			ico = pb_ShapeGenerator.IcosahedronGenerator(icoRadius, icoSubdivisions);

			// Shell is all the faces on the new icosphere.
			pb_Face[] shell = ico.faces;
				
			// Materials are set per-face on pb_Object meshes.  pb_Objects will automatically
			// condense the mesh to the smallest set of subMeshes possible based on materials.
			foreach(pb_Face f in shell)
				f.SetMaterial( material );

			pb_Face[] connectingFaces;

			// Extrude all faces on the icosphere by a small amount.  The third boolean parameter
			// specifies that extrusion should treat each face as an individual, not try to group
			// all faces together.
			ico.Extrude(shell, startingExtrusion, false, out connectingFaces);

			// ToMesh builds the mesh positions, submesh, and triangle arrays.  Call after adding
			// or deleting vertices, or changing face properties.
			ico.ToMesh();

			// Refresh builds the normals, tangents, and UVs.
			ico.Refresh();

			outsides = new FaceRef[shell.Length];
			Dictionary<int, int> lookup = ico.sharedIndices.ToDictionary();

			// Populate the outsides[] cache.  This is a reference to the tops of each extruded column, including
			// copies of the sharedIndices.
			for(int i = 0; i < shell.Length; ++i)
				outsides[i] = new FaceRef( 	shell[i],
											pb_Math.Normal(ico, shell[i]),
											ico.sharedIndices.AllIndicesWithValues(lookup, shell[i].distinctIndices).ToArray()
											);

			// Store copy of positions array un-modified
			original_vertices = new Vector3[ico.vertices.Length];
			System.Array.Copy(ico.vertices, original_vertices, ico.vertices.Length);

			// displaced_vertices should mirror icosphere mesh vertices.
			displaced_vertices = ico.vertices;

			icoMesh = ico.msh;
			icoTransform = ico.transform;

			faces_length = (float)outsides.Length;

			// Build the waveform ring.
			icoPosition = icoTransform.position;
			waveform.SetVertexCount(WAVEFORM_SAMPLES);

			if( bounceWaveform )
				waveform.transform.parent = icoTransform;

			audioSource.Play();
		}