Exemplo n.º 1
0
        //internal static void AttachHemisphericalLightInfo(LightId light, ref MyHemisphericalLightInfo info)
        //{
        //}

        internal static void Update()
        {
            if (DirtyPointlights.Count > 0)
            {
                foreach (var id in DirtyPointlights)
                {
                    var proxy    = Pointlights[id.Index].BvhProxyId;
                    var position = Lights.Data[id.Index].Position;
                    var range    = Pointlights[id.Index].Range;

                    var aabb = new BoundingBox(position - range, position + range);
                    Pointlights[id.Index].BvhProxyId            = UpdateBvh(PointlightsBvh, id, Pointlights[id.Index].Enabled, proxy, ref aabb);
                    Pointlights[id.Index].LastBvhUpdatePosition = position;
                }

                DirtyPointlights.Clear();
            }

            if (DirtySpotlights.Count > 0)
            {
                foreach (var id in DirtySpotlights)
                {
                    var proxy    = Spotlights[id.Index].BvhProxyId;
                    var position = Lights.Data[id.Index].Position;
                    var range    = Spotlights[id.Index].Range;

                    var aabb = MakeAabbFromSpotlightCone(ref Spotlights[id.Index], position);
                    Spotlights[id.Index].BvhProxyId            = UpdateBvh(SpotlightsBvh, id, Spotlights[id.Index].Enabled, proxy, ref aabb);
                    Spotlights[id.Index].LastBvhUpdatePosition = position;
                }

                DirtySpotlights.Clear();
            }
        }
Exemplo n.º 2
0
        internal void SetAabb(BoundingBox aabb)
        {
            Aabb = aabb;

            for (int i = 0; i < m_components.Count; i++)
            {
                m_components[i].OnAabbChange();
            }
        }
Exemplo n.º 3
0
        internal void SetLocalAabb(BoundingBox localAabb)
        {
            m_localAabb = localAabb;

            Aabb = m_localAabb.Value.Transform(WorldMatrix);

            for (int i = 0; i < m_components.Count; i++)
            {
                m_components[i].OnAabbChange();
            }
        }
Exemplo n.º 4
0
        internal static BoundingBox MakeAabbFromSpotlightCone(ref MySpotlightInfo spotlight, Vector3 position)
        {
            float ratio = (float)Math.Sqrt(1 - spotlight.ApertureCos * spotlight.ApertureCos) / spotlight.ApertureCos;
            float h     = ratio * spotlight.Range;
            var   bb    = BoundingBox.CreateInvalid();

            bb.Include(new Vector3(-h, -h, 0));
            bb.Include(new Vector3(h, h, -spotlight.Range));

            return(bb.Transform(Matrix.CreateLookAtInv(position, position + spotlight.Direction, spotlight.Up)));
        }
Exemplo n.º 5
0
        public void GetTriangleBoundingBox(int triangleIndex, ref BoundingBox boundingBox)
        {
            boundingBox = BoundingBox.CreateInvalid();
            Vector3 v1, v2, v3;

            GetVertex(Triangles[triangleIndex].I0, Triangles[triangleIndex].I1, Triangles[triangleIndex].I2, out v1, out v2, out v3);

            boundingBox.Include(
                v1,
                v2,
                v3);
        }
Exemplo n.º 6
0
        internal void UpdateBeforeDraw()
        {
            if (m_dirtyProxy)
            {
                RebuildProxies();
            }

            foreach (var val in m_materialGroups.Values)
            {
                var index = val.m_index;
                val.UpdateProxyVerticesNum(ref m_proxy.Proxies[index]);
            }

            if (m_dirtyPosition)
            {
                foreach (var val in m_materialGroups.Values)
                {
                    val.UpdateAll();
                }

                m_dirtyPosition = false;
            }

            if (m_dirtyTree)
            {
                BoundingBox bb = BoundingBox.CreateInvalid();

                foreach (var child in m_children)
                {
                    if (child.m_visible && child.GetRenderable() != null && !child.GetRenderable().IsRendered)
                    {
                        bb.Include(child.Aabb);
                    }
                }

                m_owner.Aabb = bb;

                if (m_materialGroups.Count > 0)
                {
                    if (m_btreeProxy == -1)
                    {
                        m_btreeProxy = MyScene.GroupsDBVH.AddProxy(ref m_owner.Aabb, m_proxy, 0);
                    }
                    else
                    {
                        MyScene.GroupsDBVH.MoveProxy(m_btreeProxy, ref m_owner.Aabb, Vector3.Zero);
                    }
                }

                m_dirtyTree = false;
            }
        }
Exemplo n.º 7
0
        internal void Construct()
        {
            m_components.Clear();

            m_visible          = true;
            m_renderProxyDirty = true;

            m_ID                = new MyIDTracker <MyActor>();
            m_localAabb         = null;
            m_relativeTransform = null;

            Aabb = BoundingBox.CreateInvalid();
        }
Exemplo n.º 8
0
        internal void Construct()
        {
            m_components.Clear();

            m_visible = true;
            m_renderProxyDirty = true;

            m_ID = new MyIDTracker<MyActor>();
            m_localAabb = null;
            m_relativeTransform = null;

            Aabb = BoundingBox.CreateInvalid();
        }
Exemplo n.º 9
0
        //internal static void AttachHemisphericalLightInfo(LightId light, ref MyHemisphericalLightInfo info)
        //{
        //}

        internal static void Update()
        {
            // touch all lights again, because they don't get updated always when parent is
            foreach (var light in IdIndex.Values)
            {
                var position = light.LocalPosition;
                var gid      = light.ParentGID;
                if (gid != -1 && MyIDTracker <MyActor> .FindByID((uint)gid) != null)
                {
                    var matrix = MyIDTracker <MyActor> .FindByID((uint)gid).WorldMatrix;

                    Vector3.Transform(ref position, ref matrix, out position);
                }
                Lights.Data[light.Index].Position = position;
            }

            if (DirtyPointlights.Count > 0)
            {
                foreach (var id in DirtyPointlights)
                {
                    var proxy    = Pointlights[id.Index].BvhProxyId;
                    var position = Lights.Data[id.Index].Position;
                    var range    = Pointlights[id.Index].Range;

                    var aabb = new BoundingBox(position - range, position + range);
                    Pointlights[id.Index].BvhProxyId            = UpdateBvh(PointlightsBvh, id, Pointlights[id.Index].Enabled, proxy, ref aabb);
                    Pointlights[id.Index].LastBvhUpdatePosition = position;
                }

                DirtyPointlights.Clear();
            }

            if (DirtySpotlights.Count > 0)
            {
                foreach (var id in DirtySpotlights)
                {
                    var proxy    = Spotlights[id.Index].BvhProxyId;
                    var position = Lights.Data[id.Index].Position;
                    var range    = Spotlights[id.Index].Range;

                    var aabb = MakeAabbFromSpotlightCone(ref Spotlights[id.Index], position);
                    Spotlights[id.Index].BvhProxyId            = UpdateBvh(SpotlightsBvh, id, Spotlights[id.Index].Enabled, proxy, ref aabb);
                    Spotlights[id.Index].LastBvhUpdatePosition = position;
                }

                DirtySpotlights.Clear();
            }
        }
Exemplo n.º 10
0
        public void InitLazy(MyObjectBuilder_DefinitionBase baseBuilder)
        {
            MyObjectBuilder_PrefabDefinition definition = baseBuilder as MyObjectBuilder_PrefabDefinition;

            if ((definition.CubeGrid != null) || (definition.CubeGrids != null))
            {
                if (definition.CubeGrid == null)
                {
                    this.m_cubeGrids = definition.CubeGrids;
                }
                else
                {
                    this.m_cubeGrids = new MyObjectBuilder_CubeGrid[] { definition.CubeGrid };
                }
                this.m_boundingSphere = new VRageMath.BoundingSphere(Vector3.Zero, float.MinValue);
                this.m_boundingBox    = VRageMath.BoundingBox.CreateInvalid();
                MyObjectBuilder_CubeGrid[] cubeGrids = this.m_cubeGrids;
                int index = 0;
                while (index < cubeGrids.Length)
                {
                    Matrix identity;
                    MyObjectBuilder_CubeGrid grid = cubeGrids[index];
                    VRageMath.BoundingBox    box  = grid.CalculateBoundingBox();
                    if (grid.PositionAndOrientation == null)
                    {
                        identity = Matrix.Identity;
                    }
                    else
                    {
                        identity = (Matrix)grid.PositionAndOrientation.Value.GetMatrix();
                    }
                    this.m_boundingBox.Include(box.Transform(identity));
                    index++;
                }
                this.m_boundingSphere = VRageMath.BoundingSphere.CreateFromBoundingBox(this.m_boundingBox);
                cubeGrids             = this.m_cubeGrids;
                for (index = 0; index < cubeGrids.Length; index++)
                {
                    MyObjectBuilder_CubeGrid grid1 = cubeGrids[index];
                    grid1.CreatePhysics = true;
                    grid1.XMirroxPlane  = null;
                    grid1.YMirroxPlane  = null;
                    grid1.ZMirroxPlane  = null;
                }
                this.Initialized = true;
            }
        }
Exemplo n.º 11
0
        void IPrimitiveManagerBase.GetPrimitiveBox(int prim_index, out AABB primbox)
        {
            BoundingBox bbox = BoundingBox.CreateInvalid();
            Vector3     v1   = GetVertex(Triangles[prim_index].I0);
            Vector3     v2   = GetVertex(Triangles[prim_index].I1);
            Vector3     v3   = GetVertex(Triangles[prim_index].I2);

            bbox.Include(
                ref v1,
                ref v2,
                ref v3);

            primbox = new AABB()
            {
                m_min = bbox.Min.ToBullet(), m_max = bbox.Max.ToBullet()
            };
        }
Exemplo n.º 12
0
        internal void AddBoundingBox(BoundingBox bb, Color color)
        {
            var v0 = bb.Center - bb.HalfExtents;
            var v1 = v0 + new Vector3(bb.HalfExtents.X * 2, 0, 0);
            var v2 = v0 + new Vector3(bb.HalfExtents.X * 2, bb.HalfExtents.Y * 2, 0);
            var v3 = v0 + new Vector3(0, bb.HalfExtents.Y * 2, 0);

            var v4 = v0 + new Vector3(0, 0, bb.HalfExtents.Z * 2);
            var v5 = v4 + new Vector3(bb.HalfExtents.X * 2, 0, 0);
            var v6 = v4 + new Vector3(bb.HalfExtents.X * 2, bb.HalfExtents.Y * 2, 0);
            var v7 = v4 + new Vector3(0, bb.HalfExtents.Y * 2, 0);

            var bcolor = new Byte4(color.R, color.G, color.B, color.A);

            Add(new MyVertexFormatPositionColor(v0, bcolor));
            Add(new MyVertexFormatPositionColor(v1, bcolor));
            Add(new MyVertexFormatPositionColor(v1, bcolor));
            Add(new MyVertexFormatPositionColor(v2, bcolor));
            Add(new MyVertexFormatPositionColor(v2, bcolor));
            Add(new MyVertexFormatPositionColor(v3, bcolor));
            Add(new MyVertexFormatPositionColor(v0, bcolor));
            Add(new MyVertexFormatPositionColor(v3, bcolor));

            Add(new MyVertexFormatPositionColor(v4, bcolor));
            Add(new MyVertexFormatPositionColor(v5, bcolor));
            Add(new MyVertexFormatPositionColor(v5, bcolor));
            Add(new MyVertexFormatPositionColor(v6, bcolor));
            Add(new MyVertexFormatPositionColor(v6, bcolor));
            Add(new MyVertexFormatPositionColor(v7, bcolor));
            Add(new MyVertexFormatPositionColor(v4, bcolor));
            Add(new MyVertexFormatPositionColor(v7, bcolor));

            Add(new MyVertexFormatPositionColor(v0, bcolor));
            Add(new MyVertexFormatPositionColor(v4, bcolor));
            Add(new MyVertexFormatPositionColor(v1, bcolor));
            Add(new MyVertexFormatPositionColor(v5, bcolor));
            Add(new MyVertexFormatPositionColor(v2, bcolor));
            Add(new MyVertexFormatPositionColor(v6, bcolor));
            Add(new MyVertexFormatPositionColor(v3, bcolor));
            Add(new MyVertexFormatPositionColor(v7, bcolor));
        }
Exemplo n.º 13
0
        internal void SetMatrix(ref Matrix matrix)
        {
            WorldMatrix = matrix;
            if (m_localAabb.HasValue)
            {
                Aabb = m_localAabb.Value.Transform(WorldMatrix);
            }
            // figure out final matrix

            for (int i = 0; i < m_components.Count; i++)
            {
                m_components[i].OnMatrixChange();
            }

            if (m_localAabb.HasValue)
            {
                for (int i = 0; i < m_components.Count; i++)
                {
                    m_components[i].OnAabbChange();
                }
            }
        }
Exemplo n.º 14
0
        static void SendOutputMessages()
        {
            foreach (var q in m_cullQuery.FrustumQuery)
            {
                foreach (var proxy in q.List)
                {
                    // all should have same parent
                    MyRenderProxy.VisibleObjectsWrite.Add(proxy.Proxies[0].Parent.m_owner.ID);
                }
            }

            // TODO: just for now
            foreach (var h in MyComponentFactory <MyGroupRootComponent> .GetAll())
            {
                if (true)
                {
                    BoundingBox bb = BoundingBox.CreateInvalid();

                    foreach (var child in h.m_children)
                    {
                        if (child.m_visible)
                        {
                            bb.Include(child.Aabb);
                        }
                    }

                    if (MyEnvironment.ViewFrustum.Contains(bb) != VRageMath.ContainmentType.Disjoint)
                    {
                        MyRenderProxy.VisibleObjectsWrite.Add(h.m_owner.ID);
                    }
                }
            }

            foreach (var id in MyClipmapFactory.ClipmapByID.Keys)
            {
                MyRenderProxy.VisibleObjectsWrite.Add(id);
            }
        }
Exemplo n.º 15
0
        //  Sort of lazy-load, where constructor just saves information about what this model should be, but real load is done here - and only one time.
        //  This loads only vertex data, doesn't touch GPU
        //  Can be called from main and background thread
        public void LoadData()
        {
            if (m_loadedData) return;
            if (m_loadedContent) return;

            lock (this)
            {
                if (m_loadedData) return;
                if (m_loadedContent) return;

                MyRender.GetRenderProfiler().StartProfilingBlock("MyModel::LoadData");


                MyRender.Log.WriteLine("MyModel.LoadData -> START", LoggingOptions.LOADING_MODELS);
                MyRender.Log.IncreaseIndent(LoggingOptions.LOADING_MODELS);

                MyRender.Log.WriteLine("m_assetName: " + m_assetName, LoggingOptions.LOADING_MODELS);

                //  Read data from model TAG parameter. There are stored vertex positions, triangle indices, vectors, ... everything we need.
                MyRender.GetRenderProfiler().StartProfilingBlock("Model - load data - import data");

                string assetForImport = AssetName;
                var fsPath = Path.IsPathRooted(AssetName) ? AssetName : Path.Combine(MyFileSystem.ContentPath, AssetName);
                if (!MyFileSystem.FileExists(fsPath))
                {
                    MyRender.Log.WriteLine("ERROR: Asset " + AssetName + "not exists!");
                    assetForImport = @"Models\Debug\Error.mwm";
                }

                MyRender.Log.WriteLine(String.Format("Importing asset {0}, path: {1}", assetForImport, AssetName), LoggingOptions.LOADING_MODELS);
                try
                {
                    m_importer.ImportData(assetForImport);
                }
                catch
                {
                    MyRender.Log.WriteLine(String.Format("Importing asset failed {0}", m_assetName));
                    throw;
                }
                MyRender.GetRenderProfiler().EndProfilingBlock();

                MyRender.GetRenderProfiler().StartProfilingBlock("Model - load data - load tag data");
                Dictionary<string, object> tagData = m_importer.GetTagData();
                if (tagData.Count == 0)
                {
                    throw new Exception(String.Format("Uncompleted tagData for asset: {0}, path: {1}", m_assetName, AssetName));
                }
                MyRender.GetRenderProfiler().EndProfilingBlock();

                MyRender.GetRenderProfiler().StartProfilingBlock("Model - load data - vertex, normals, texture coords");

                object patternScale;
                if (tagData.TryGetValue(MyImporterConstants.TAG_PATTERN_SCALE, out patternScale))
                {
                    PatternScale = (float)patternScale;
                }

                HalfVector4[] vertices = (HalfVector4[])tagData[MyImporterConstants.TAG_VERTICES];

                //Dont assert, it can be animation
                //System.Diagnostics.Debug.Assert(vertices.Length > 0);

                Byte4[] normals = (Byte4[])tagData[MyImporterConstants.TAG_NORMALS];
                m_vertices = new MyCompressedVertexNormal[vertices.Length];
                if (normals.Length > 0)
                {
                    for (int v = 0; v < vertices.Length; v++)
                    {
                        m_vertices[v] = new MyCompressedVertexNormal()
                        {
                            Position = vertices[v],// VF_Packer.PackPosition(ref vertices[v]),
                            Normal = normals[v]//VF_Packer.PackNormalB4(ref normals[v])
                        };
                    }
                }
                else
                {
                    for (int v = 0; v < vertices.Length; v++)
                    {
                        m_vertices[v] = new MyCompressedVertexNormal()
                        {
                            Position = vertices[v],// VF_Packer.PackPosition(ref vertices[v]),
                        };
                    }
                }

                m_verticesCount = vertices.Length;

                HalfVector2[] forLoadingTexCoords0 = (HalfVector2[])tagData[MyImporterConstants.TAG_TEXCOORDS0];
                m_forLoadingTexCoords0 = new HalfVector2[forLoadingTexCoords0.Length];
                for (int t = 0; t < forLoadingTexCoords0.Length; t++)
                {
                    m_forLoadingTexCoords0[t] = forLoadingTexCoords0[t];// new HalfVector2(forLoadingTexCoords0[t]);
                    m_forLoadingTexCoords0[t] = new HalfVector2(m_forLoadingTexCoords0[t].ToVector2() / PatternScale);
                }

                MyRender.GetRenderProfiler().EndProfilingBlock();

                MyRender.GetRenderProfiler().StartProfilingBlock("Model - load data - mesh");
                m_meshContainer.Clear();

                if (tagData.ContainsKey(MyImporterConstants.TAG_MESH_PARTS))
                {
                    List<int> indices = new List<int>(GetVerticesCount()); // Default capacity estimation
                    int maxIndex = 0;

                    List<MyMeshPartInfo> meshParts = tagData[MyImporterConstants.TAG_MESH_PARTS] as List<MyMeshPartInfo>;
                    foreach (MyMeshPartInfo meshPart in meshParts)
                    {
                        if (meshPart.m_MaterialDesc != null)
                            MyRenderModels.Materials[meshPart.m_MaterialDesc.MaterialName] = meshPart.m_MaterialDesc;

                        MyRenderMesh mesh = new MyRenderMesh(meshPart, m_assetName);

                        mesh.IndexStart = indices.Count;
                        mesh.TriCount = meshPart.m_indices.Count / 3;

                        System.Diagnostics.Debug.Assert(mesh.TriCount > 0);

                        foreach (var i in meshPart.m_indices)
                        {
                            indices.Add(i);
                            if (i > maxIndex)
                            {
                                maxIndex = i;
                            }
                        }

                        m_meshContainer.Add(mesh);

                        if (meshPart.m_MaterialDesc != null && meshPart.Technique == MyMeshDrawTechnique.GLASS)
                        {
                            float minimumGlassShadow = 0.0f;

                            if (string.IsNullOrEmpty(meshPart.m_MaterialDesc.GlassCW))
                                continue;

                            if (string.IsNullOrEmpty(meshPart.m_MaterialDesc.GlassCCW))
                                continue;

                            var materialCW = MyTransparentMaterials.GetMaterial(meshPart.m_MaterialDesc.GlassCW);
                            var materialCCW = MyTransparentMaterials.GetMaterial(meshPart.m_MaterialDesc.GlassCCW);

                            mesh.GlassDithering = System.Math.Max(materialCW.Color.W, minimumGlassShadow);

                            MyRenderMesh glassMesh = new MyRenderMesh(meshPart, m_assetName);
                            glassMesh.GlassDithering = System.Math.Max(materialCCW.Color.W, minimumGlassShadow);


                            glassMesh.IndexStart = indices.Count;
                            glassMesh.TriCount = meshPart.m_indices.Count / 3;

                            System.Diagnostics.Debug.Assert(glassMesh.TriCount > 0);

                            for (int i = 0; i < meshPart.m_indices.Count; i += 3)
                            {
                                indices.Add(meshPart.m_indices[i + 0]);
                                indices.Add(meshPart.m_indices[i + 2]);
                                indices.Add(meshPart.m_indices[i + 1]);
                            }

                            m_meshContainer.Add(glassMesh);
                        }
                    }

                    if (maxIndex <= ushort.MaxValue)
                    {
                        // create 16 bit indices
                        m_Indices_16bit = new ushort[indices.Count];
                        for (int i = 0; i < indices.Count; i++)
                        {
                            m_Indices_16bit[i] = (ushort)indices[i];
                        }
                    }
                    else
                    {
                        // use 32bit indices
                        m_Indices = indices.ToArray();
                    }

                    m_trianglesCount = indices.Count / 3;
                }


                MyRender.GetRenderProfiler().EndProfilingBlock();

                MyRender.GetRenderProfiler().StartProfilingBlock("Model - load data - other data");
                if (MyRenderConstants.RenderQualityProfile.UseNormals && m_forLoadingTexCoords0.Length > 0)
                {
                    var verticesNum = vertices.Length;
                    
                    Byte4[] forLoadingTangents = (Byte4[])tagData[MyImporterConstants.TAG_TANGENTS];
                    Byte4[] forLoadingBitangents = (Byte4[])tagData[MyImporterConstants.TAG_BINORMALS];
                    m_forLoadingTangents = new Byte4[forLoadingTangents.Length];

                    for (int v = 0; v < forLoadingTangents.Length; v++)
                    {
                        var N = VF_Packer.UnpackNormal(m_vertices[v].Normal.PackedValue);
                        var T = VF_Packer.UnpackNormal(forLoadingTangents[v].PackedValue);
                        var B = VF_Packer.UnpackNormal(forLoadingBitangents[v].PackedValue);

                        var tangentSign = new Vector4(T.X, T.Y, T.Z, 0);
                        tangentSign.W = T.Cross(N).Dot(B) < 0 ? -1 : 1;

                        m_forLoadingTangents[v] = VF_Packer.PackTangentSignB4(ref tangentSign);
                    }
                }

                m_specularShininess = (float)tagData[MyImporterConstants.TAG_SPECULAR_SHININESS];
                m_specularPower = (float)tagData[MyImporterConstants.TAG_SPECULAR_POWER];
                m_rescaleFactor = (float)tagData[MyImporterConstants.TAG_RESCALE_FACTOR];

                BoneIndices = (Vector4I[])tagData[MyImporterConstants.TAG_BLENDINDICES];
                BoneWeights = (Vector4[])tagData[MyImporterConstants.TAG_BLENDWEIGHTS];

                Animations = (ModelAnimations)tagData[MyImporterConstants.TAG_ANIMATIONS];
                Bones = (MyModelBone[])tagData[MyImporterConstants.TAG_BONES];
                
                if(BoneIndices.Length > 0 && Bones.Length > MyRenderConstants.MAX_SHADER_BONES)
                {
                    List<MyMeshPartInfo> meshParts = tagData[MyImporterConstants.TAG_MESH_PARTS] as List<MyMeshPartInfo>;

                    Dictionary<int, int> vertexChanged = new Dictionary<int,int>();
                    for(int p=0; p<meshParts.Count; p++)
                    {
                        var meshPart = meshParts[p];

                        Dictionary<int, int> bonesUsed = new Dictionary<int, int>();

                        int trianglesNum = meshPart.m_indices.Count / 3;
                        for (int i = 0; i < trianglesNum; i++)
                        {
                            for (int j = 0; j < 3; j++)
                            {
                                int index = meshPart.m_indices[i * 3 + j];
                                if(BoneWeights[index].X > 0)
                                    bonesUsed[BoneIndices[index].X] = 1;
                                if (BoneWeights[index].Y > 0)
                                    bonesUsed[BoneIndices[index].Y] = 1;
                                if (BoneWeights[index].Z > 0)
                                    bonesUsed[BoneIndices[index].Z] = 1;
                                if (BoneWeights[index].W > 0)
                                    bonesUsed[BoneIndices[index].W] = 1;
                            }
                        }

                        var partBones = new List<int>(bonesUsed.Keys);
                        partBones.Sort();
                        if (partBones.Count > 0 && partBones[partBones.Count - 1] >= MyRenderConstants.MAX_SHADER_BONES)
                        {
                            for(int i=0; i<partBones.Count; i++)
                            {
                                bonesUsed[partBones[i]] = i;
                            }

                            Dictionary<int, int> vertexTouched = new Dictionary<int, int>();

                            for (int i = 0; i < trianglesNum; i++)
                            {
                                for (int j = 0; j < 3; j++)
                                {
                                    int index = meshPart.m_indices[i * 3 + j];
                                    if(!vertexTouched.ContainsKey(index))
                                    { 
                                        if (BoneWeights[index].X > 0)
                                            BoneIndices[index].X = bonesUsed[BoneIndices[index].X];
                                        if (BoneWeights[index].Y > 0)
                                            BoneIndices[index].Y = bonesUsed[BoneIndices[index].Y];
                                        if (BoneWeights[index].Z > 0)
                                            BoneIndices[index].Z = bonesUsed[BoneIndices[index].Z];
                                        if (BoneWeights[index].W > 0)
                                            BoneIndices[index].W = bonesUsed[BoneIndices[index].W];

                                        vertexTouched[index] = 1;

                                        int changes = 0;
                                        vertexChanged.TryGetValue(index, out changes);
                                        vertexChanged[index] = changes + 1;
                                    }
                                }
                            }

                            m_meshContainer[p].BonesUsed = partBones.ToArray();
                        }
                    }

                    if (vertexChanged.Values.Count > 0)
                        Debug.Assert(vertexChanged.Values.Max() < 2, "Vertex shared between model parts, will likely result in wrong skinning");
                }

                BoundingBox = (BoundingBox)tagData[MyImporterConstants.TAG_BOUNDING_BOX];
                BoundingSphere = (BoundingSphere)tagData[MyImporterConstants.TAG_BOUNDING_SPHERE];
                BoundingBoxSize = BoundingBox.Max - BoundingBox.Min;
                BoundingBoxSizeHalf = BoundingBoxSize / 2.0f;
                Dictionary<string, MyModelDummy> Dummies = tagData[MyImporterConstants.TAG_DUMMIES] as Dictionary<string, MyModelDummy>;
                MyRender.GetRenderProfiler().EndProfilingBlock();

                if (tagData.ContainsKey(MyImporterConstants.TAG_LODS))
                {
                    var tagLODs = tagData[MyImporterConstants.TAG_LODS];

                    LODs.Clear();
                    LODs.AddArray((MyLODDescriptor[])tagLODs);

                    foreach (var lodDesc in LODs)
                    {
                        if (!string.IsNullOrEmpty(lodDesc.RenderQuality))
                        {
                            lodDesc.RenderQualityList = new List<int>();
                            string[] qualityStrings = lodDesc.RenderQuality.ToUpper().Split(new char[] {','}, StringSplitOptions.RemoveEmptyEntries);
                            foreach (string qs in qualityStrings)
                            {
                                string qs2 = qs.Trim();
                                if (qs2 == "LOW")
                                    lodDesc.RenderQualityList.Add((int)MyRenderQualityEnum.LOW);
                                else
                                    if (qs2 == "NORMAL")
                                        lodDesc.RenderQualityList.Add((int)MyRenderQualityEnum.NORMAL);
                                    else
                                        if (qs2 == "HIGH")
                                            lodDesc.RenderQualityList.Add((int)MyRenderQualityEnum.HIGH);
                                        else
                                            if (qs2 == "EXTREME")
                                                lodDesc.RenderQualityList.Add((int)MyRenderQualityEnum.EXTREME);
                            }
                        }
                    }
                }


                MyRender.Log.WriteLine("Vertexes.Length: " + GetVerticesCount(), LoggingOptions.LOADING_MODELS);
                MyRender.Log.WriteLine("Centered: " + (bool)tagData[MyImporterConstants.TAG_CENTERED], LoggingOptions.LOADING_MODELS);
                MyRender.Log.WriteLine("UseChannelTextures: " + (bool)tagData[MyImporterConstants.TAG_USE_CHANNEL_TEXTURES], LoggingOptions.LOADING_MODELS);
                MyRender.Log.WriteLine("Length in meters: " + (float)tagData[MyImporterConstants.TAG_LENGTH_IN_METERS], LoggingOptions.LOADING_MODELS);
                MyRender.Log.WriteLine("Rescale to length in meters?: " + (bool)tagData[MyImporterConstants.TAG_RESCALE_TO_LENGTH_IN_METERS], LoggingOptions.LOADING_MODELS);
                MyRender.Log.WriteLine("SpecularShininess: " + m_specularShininess, LoggingOptions.LOADING_MODELS);
                MyRender.Log.WriteLine("SpecularPower: " + m_specularPower, LoggingOptions.LOADING_MODELS);
                MyRender.Log.WriteLine("RescaleFactor: " + m_rescaleFactor, LoggingOptions.LOADING_MODELS);
                MyRender.Log.WriteLine("BoundingBox: " + BoundingBox, LoggingOptions.LOADING_MODELS);
                MyRender.Log.WriteLine("BoundingSphere: " + BoundingSphere, LoggingOptions.LOADING_MODELS);

                MyPerformanceCounter.PerAppLifetime.MyModelsCount++;
                MyPerformanceCounter.PerAppLifetime.MyModelsMeshesCount += m_meshContainer.Count;
                MyPerformanceCounter.PerAppLifetime.MyModelsVertexesCount += GetVerticesCount();
                MyPerformanceCounter.PerAppLifetime.MyModelsTrianglesCount += m_trianglesCount;

                ModelInfo = new MyModelInfo(GetTrianglesCount(), GetVerticesCount(), BoundingBoxSize);

                m_loadedData = true;

                m_importer.Clear();

                MyRender.Log.DecreaseIndent(LoggingOptions.LOADING_MODELS);
                MyRender.Log.WriteLine("MyModel.LoadData -> END", LoggingOptions.LOADING_MODELS);

                MyRender.GetRenderProfiler().EndProfilingBlock();
            }
        }
Exemplo n.º 16
0
        public void LoadBuffers(MyModelData modelData, string assetName = null)
        {
            System.Diagnostics.Debug.Assert(modelData.Sections.Count > 0, "Invalid object");
            if (modelData.Sections.Count == 0)
                return;

            // create index buffer
            {
                m_trianglesCount = modelData.Indices.Count / 3;
                m_Indices_16bit = new ushort[modelData.Indices.Count];

                for (int i = 0; i < modelData.Indices.Count; ++i)
                    m_Indices_16bit[i] = (ushort)modelData.Indices[i];

                m_indexBuffer = new IndexBuffer(MyRender.GraphicsDevice, m_Indices_16bit.Length * sizeof(short), Usage.WriteOnly, Pool.Default, true);
                m_indexBuffer.SetData(m_Indices_16bit);
                m_indexBuffer.Tag = this;
                m_indexBufferSize = m_Indices_16bit.Length * sizeof(short);

                SignResource(m_indexBuffer);
            }

            // create vertex buffer
            {
                m_verticesCount = modelData.Positions.Count;
                m_vertices      = new MyCompressedVertexNormal[m_verticesCount];
                var vertexArray = new MyVertexFormatPositionNormalTextureTangent[m_verticesCount];

                for (int i = 0; i < modelData.Positions.Count; ++i)
                {
                    vertexArray[i].Position = modelData.Positions[i];
                    vertexArray[i].Normal   = modelData.Normals[i];
                    vertexArray[i].Tangent  = modelData.Tangents[i];
                    vertexArray[i].TexCoord = modelData.TexCoords[i];

                    m_vertices[i] = new MyCompressedVertexNormal()
                    {
                        Position = vertexArray[i].PositionPacked,
                        Normal   = vertexArray[i].NormalPacked
                    };
                }

                m_vertexDeclaration = MyVertexFormatPositionNormalTextureTangent.VertexDeclaration;
                m_vertexStride      = MyVertexFormatPositionNormalTextureTangent.Stride;
                m_vertexBufferSize  = vertexArray.Length * m_vertexStride;
                m_vertexBuffer      = new VertexBuffer(MyRender.GraphicsDevice, m_vertexBufferSize, Usage.WriteOnly, VertexFormat.None, Pool.Default);
                m_vertexBuffer.SetData(vertexArray);
                m_vertexBuffer.Tag = this;

                SignResource(m_vertexBuffer);
            }

            m_meshContainer.Clear();

            // apply materials here
            for (int s = 0; s < modelData.Sections.Count; ++s)
            {
                var mpi            = new MyMeshPartInfo();
                mpi.Technique      = m_drawTechnique;
                
                // Disabled, because it assert always when models are loaded before materials
                //System.Diagnostics.Debug.Assert(MyRenderModels.Materials.ContainsKey(modelData.Sections[s].MaterialName), "Mesh material not present!");
                
                if (MyRenderModels.Materials.ContainsKey(modelData.Sections[s].MaterialName))
                    mpi.m_MaterialDesc = MyRenderModels.Materials[modelData.Sections[s].MaterialName];

                var start = modelData.Sections[s].IndexStart;
                var end   = start + modelData.Sections[s].TriCount*3;

                for (int i = start; i < end; ++i)
                    mpi.m_indices.Add(modelData.Indices[i]);

                m_meshContainer.Add(new MyRenderMesh(mpi, null)
                {
                    IndexStart = modelData.Sections[s].IndexStart,
                    TriCount   = modelData.Sections[s].TriCount
                });
            }

            // store properties of this model
            {
                BoundingBox    = modelData.AABB;
                BoundingSphere = new BoundingSphere(modelData.AABB.Center, modelData.AABB.HalfExtents.Length());

                BoundingBoxSize     = BoundingBox.Size;
                BoundingBoxSizeHalf = BoundingBox.HalfExtents;

                ModelInfo = new MyModelInfo(m_trianglesCount, m_verticesCount, BoundingBoxSize);

                PreloadTextures(LoadingMode.Immediate);
                LoadState = Textures.LoadState.Loaded;

                m_loadedContent = true;
                m_loadedData    = true;
            }
        }
        public static MyOrientedBoundingBox CreateFromBoundingBox(BoundingBox box)
        {
            Vector3 center = (Vector3)((box.Min + box.Max) * 0.5f);

            return(new MyOrientedBoundingBox(center, (Vector3)((box.Max - box.Min) * 0.5f), Quaternion.Identity));
        }
Exemplo n.º 18
0
        public static void SetInstanceBuffer(uint entityId, uint instanceBufferId, int instanceStart, int instanceCount, BoundingBox entityLocalAabb)
        {
            var message = MessagePool.Get<MyRenderMessageSetInstanceBuffer>(MyRenderMessageEnum.SetInstanceBuffer);

            message.ID = entityId;
            message.InstanceBufferId = instanceBufferId;
            message.InstanceStart = instanceStart;
            message.InstanceCount = instanceCount;
            message.LocalAabb = entityLocalAabb;

            EnqueueMessage(message);
        }
Exemplo n.º 19
0
        public static void UpdateClipmapCell(
            uint clipmapId,
            MyCellCoord cell,
            List<MyClipmapCellBatch> batches,
            Vector3D positionOffset,
            Vector3 positionScale,
            BoundingBox meshAabb)
        {
            var message = MessagePool.Get<MyRenderMessageUpdateClipmapCell>(MyRenderMessageEnum.UpdateClipmapCell);

            Debug.Assert(message.Batches.Count == 0, "Message was not properly cleared");

            message.ClipmapId = clipmapId;
            message.Cell = cell;
            message.Batches.AddList(batches);
            message.PositionOffset = positionOffset;
            message.PositionScale = positionScale;
            message.MeshAabb = meshAabb;

            EnqueueMessage(message);
        }
Exemplo n.º 20
0
        //internal static void BeginQuadRendering()
        //{
        //    var context = MyRender.Context;

        //    context.InputAssembler.PrimitiveTopology = PrimitiveTopology.TriangleList;
        //    context.Rasterizer.SetViewport(0, 0, MyRender.ViewportResolution.X, MyRender.ViewportResolution.Y);
        //    context.OutputMerger.SetTargets(null as DepthStencilView, MyRender.Backbuffer.RenderTarget);
        //    context.OutputMerger.BlendState = null;
        //}

        //internal static void DrawQuad()
        //{

        //}

        internal static void DrawHierarchyDebug()
        {
            var worldToClip   = MyEnvironment.ViewProjection;
            var displayString = new StringBuilder();

            var batch = MyLinesRenderer.CreateBatch();

            if (MyRender11.Settings.DisplayIDs)
            {
                foreach (var actor in MyActorFactory.GetAll())
                {
                    var h = actor.GetGroupLeaf();
                    var r = actor.GetRenderable();

                    Vector3 position;
                    uint    ID;

                    if (r != null)
                    {
                        position = r.m_owner.WorldMatrix.Translation;
                        ID       = r.m_owner.ID;
                    }
                    else if (h != null)
                    {
                        position = h.m_owner.WorldMatrix.Translation;
                        ID       = h.m_owner.ID;
                    }
                    else
                    {
                        continue;
                    }

                    var clipPosition = Vector3.Transform(position, ref worldToClip);
                    clipPosition.X = clipPosition.X * 0.5f + 0.5f;
                    clipPosition.Y = clipPosition.Y * -0.5f + 0.5f;

                    if (clipPosition.Z > 0 && clipPosition.Z < 1)
                    {
                        displayString.AppendFormat("{0}", ID);
                        MySpritesRenderer.DrawText(new Vector2(clipPosition.X, clipPosition.Y) * MyRender11.ViewportResolution,
                                                   displayString, Color.DarkCyan, 0.5f);
                    }

                    displayString.Clear();
                }
            }

            if (MyRender11.Settings.DisplayAabbs)
            {
                //foreach (var h in MyComponentFactory<MyHierarchyComponent>.GetAll())
                //{
                //    if (h.IsParent)
                //    {
                //        batch.AddBoundingBox(h.m_owner.Aabb, Color.Red);
                //    }
                //    else
                //    {
                //        batch.AddBoundingBox(h.m_owner.Aabb, Color.Orange);
                //    }
                //}

                foreach (var actor in MyActorFactory.GetAll())
                {
                    var h = actor.GetGroupRoot();
                    var r = actor.GetRenderable();

                    if (h != null)
                    {
                        BoundingBox bb = BoundingBox.CreateInvalid();

                        foreach (var child in h.m_children)
                        {
                            if (child.m_visible)
                            {
                                bb.Include(child.Aabb);
                            }
                        }

                        batch.AddBoundingBox(bb, Color.Red);
                        MyPrimitivesRenderer.Draw6FacedConvex(bb.GetCorners(), Color.Red, 0.1f);
                    }
                    else if (r != null && actor.GetGroupLeaf() == null)
                    {
                        batch.AddBoundingBox(r.m_owner.Aabb, Color.Green);
                    }
                }
            }

            batch.Commit();
        }
Exemplo n.º 21
0
        public void GetTriangleBoundingBox(int triangleIndex, ref BoundingBox boundingBox)
        {
            boundingBox = BoundingBox.CreateInvalid();
            Vector3 v1, v2, v3;
            GetVertex(Triangles[triangleIndex].I0, Triangles[triangleIndex].I1, Triangles[triangleIndex].I2, out v1, out v2, out v3);

            boundingBox.Include(
                v1,
                v2,
                v3);
        }
Exemplo n.º 22
0
        internal static int UpdateBvh(MyDynamicAABBTree bvh, LightId lid, bool enabled, int proxy, ref BoundingBox aabb)
        {
            if(enabled && proxy == -1)
            {
                return bvh.AddProxy(ref aabb, lid, 0);
            }
            else if(enabled && proxy != -1)
            {
                bvh.MoveProxy(proxy, ref aabb, Vector3.Zero);
                return proxy;
            }
            else
            {
                bvh.RemoveProxy(proxy);
            }

            return -1;
        }
Exemplo n.º 23
0
        internal void AddBoundingBox(BoundingBox bb, Color color)
        {
            var v0 = bb.Center - bb.HalfExtents;
            var v1 = v0 + new Vector3(bb.HalfExtents.X * 2, 0, 0);
            var v2 = v0 + new Vector3(bb.HalfExtents.X * 2, bb.HalfExtents.Y * 2, 0);
            var v3 = v0 + new Vector3(0, bb.HalfExtents.Y * 2, 0);

            var v4 = v0 + new Vector3(0, 0, bb.HalfExtents.Z * 2);
            var v5 = v4 + new Vector3(bb.HalfExtents.X * 2, 0, 0);
            var v6 = v4 + new Vector3(bb.HalfExtents.X * 2, bb.HalfExtents.Y * 2, 0);
            var v7 = v4 + new Vector3(0, bb.HalfExtents.Y * 2, 0);

            var bcolor = new Byte4(color.R, color.G, color.B, color.A);

            Add(new MyVertexFormatPositionColor(v0, bcolor));
            Add(new MyVertexFormatPositionColor(v1, bcolor));
            Add(new MyVertexFormatPositionColor(v1, bcolor));
            Add(new MyVertexFormatPositionColor(v2, bcolor));
            Add(new MyVertexFormatPositionColor(v2, bcolor));
            Add(new MyVertexFormatPositionColor(v3, bcolor));
            Add(new MyVertexFormatPositionColor(v0, bcolor));
            Add(new MyVertexFormatPositionColor(v3, bcolor));

            Add(new MyVertexFormatPositionColor(v4, bcolor));
            Add(new MyVertexFormatPositionColor(v5, bcolor));
            Add(new MyVertexFormatPositionColor(v5, bcolor));
            Add(new MyVertexFormatPositionColor(v6, bcolor));
            Add(new MyVertexFormatPositionColor(v6, bcolor));
            Add(new MyVertexFormatPositionColor(v7, bcolor));
            Add(new MyVertexFormatPositionColor(v4, bcolor));
            Add(new MyVertexFormatPositionColor(v7, bcolor));

            Add(new MyVertexFormatPositionColor(v0, bcolor));
            Add(new MyVertexFormatPositionColor(v4, bcolor));
            Add(new MyVertexFormatPositionColor(v1, bcolor));
            Add(new MyVertexFormatPositionColor(v5, bcolor));
            Add(new MyVertexFormatPositionColor(v2, bcolor));
            Add(new MyVertexFormatPositionColor(v6, bcolor));
            Add(new MyVertexFormatPositionColor(v3, bcolor));
            Add(new MyVertexFormatPositionColor(v7, bcolor));
        }
Exemplo n.º 24
0
        //internal static void AttachHemisphericalLightInfo(LightId light, ref MyHemisphericalLightInfo info)
        //{
        //}

        internal static void Update()
        {
            // touch all lights again, because they don't get updated always when parent is
            foreach (var light in IdIndex.Values)
            {   
                var position = light.LocalPosition;
                var gid = light.ParentGID;
                if (gid != -1 && MyIDTracker<MyActor>.FindByID((uint)gid) != null)
                {
                    var matrix = MyIDTracker<MyActor>.FindByID((uint)gid).WorldMatrix;
                    Vector3.Transform(ref position, ref matrix, out position);
                }
                Lights.Data[light.Index].Position = position;
            }

            if(DirtyPointlights.Count > 0)
            {
                foreach(var id in DirtyPointlights)
                {
                    var proxy = Pointlights[id.Index].BvhProxyId;
                    var position = Lights.Data[id.Index].Position;
                    var range = Pointlights[id.Index].Range;

                    var aabb = new BoundingBox(position - range, position + range);
                    Pointlights[id.Index].BvhProxyId = UpdateBvh(PointlightsBvh, id, Pointlights[id.Index].Enabled, proxy, ref aabb);
                    Pointlights[id.Index].LastBvhUpdatePosition = position;
                }

                DirtyPointlights.Clear();
            }

            if (DirtySpotlights.Count > 0)
            {
                foreach (var id in DirtySpotlights)
                {
                    var proxy = Spotlights[id.Index].BvhProxyId;
                    var position = Lights.Data[id.Index].Position;
                    var range = Spotlights[id.Index].Range;

                    var aabb = MakeAabbFromSpotlightCone(ref Spotlights[id.Index], position);
                    Spotlights[id.Index].BvhProxyId = UpdateBvh(SpotlightsBvh, id, Spotlights[id.Index].Enabled, proxy, ref aabb);
                    Spotlights[id.Index].LastBvhUpdatePosition = position;
                }

                DirtySpotlights.Clear();
            }
        }
Exemplo n.º 25
0
        public void LoadAnimationData()
        {
            if (m_loadedData)
            {
                return;
            }

            lock (this)
            {
                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("MyModel::LoadAnimationData");


                MyLog.Default.WriteLine("MyModel.LoadData -> START", LoggingOptions.LOADING_MODELS);
                MyLog.Default.IncreaseIndent(LoggingOptions.LOADING_MODELS);

                MyLog.Default.WriteLine("m_assetName: " + m_assetName, LoggingOptions.LOADING_MODELS);

                //  Read data from model TAG parameter. There are stored vertex positions, triangle indices, vectors, ... everything we need.
                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - import data");

                MyLog.Default.WriteLine(String.Format("Importing asset {0}, path: {1}", m_assetName, AssetName), LoggingOptions.LOADING_MODELS);
                try
                {
                    m_importer.ImportData(AssetName);
                }
                catch
                {
                    MyLog.Default.WriteLine(String.Format("Importing asset failed {0}", m_assetName));
                    throw;
                }
                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - load tag data");
                Dictionary <string, object> tagData = m_importer.GetTagData();
                //Debug.Assert(tagData.Count != 0, String.Format("Uncompleted tagData for asset: {0}, path: {1}", m_assetName, AssetName));
                if (tagData.Count != 0)
                {
                    DataVersion = m_importer.DataVersion;

                    Animations = (ModelAnimations)tagData[MyImporterConstants.TAG_ANIMATIONS];
                    Bones      = (MyModelBone[])tagData[MyImporterConstants.TAG_BONES];

                    BoundingBox         = (BoundingBox)tagData[MyImporterConstants.TAG_BOUNDING_BOX];
                    BoundingSphere      = (BoundingSphere)tagData[MyImporterConstants.TAG_BOUNDING_SPHERE];
                    BoundingBoxSize     = BoundingBox.Max - BoundingBox.Min;
                    BoundingBoxSizeHalf = BoundingBoxSize / 2.0f;
                    Dummies             = tagData[MyImporterConstants.TAG_DUMMIES] as Dictionary <string, MyModelDummy>;
                    BoneMapping         = tagData[MyImporterConstants.TAG_BONE_MAPPING] as VRageMath.Vector3I[];
                    if (BoneMapping.Length == 0)
                    {
                        BoneMapping = null;
                    }
                }
                else
                {
                    DataVersion = 0;

                    Animations = null;
                    Bones      = null;

                    BoundingBox         = default(BoundingBox);
                    BoundingSphere      = default(BoundingSphere);
                    BoundingBoxSize     = default(Vector3);
                    BoundingBoxSizeHalf = default(Vector3);
                    Dummies             = null;
                    BoneMapping         = null;
                }

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                ModelInfo = new MyModelInfo(GetTrianglesCount(), GetVerticesCount(), BoundingBoxSize);

                if (tagData.Count != 0)
                {
                    m_loadedData = true;
                }

                MyLog.Default.DecreaseIndent(LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("MyModel.LoadAnimationData -> END", LoggingOptions.LOADING_MODELS);

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
            }
        }
Exemplo n.º 26
0
        //  Sort of lazy-load, where constructor just saves information about what this model should be, but real load is done here - and only one time.
        //  This loads only vertex data, doesn't touch GPU
        //  Can be called from main and background thread
        public void LoadData()
        {
            if (m_loadedData)
            {
                return;
            }

            lock (this)
            {
                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("MyModel::LoadData");


                MyLog.Default.WriteLine("MyModel.LoadData -> START", LoggingOptions.LOADING_MODELS);
                MyLog.Default.IncreaseIndent(LoggingOptions.LOADING_MODELS);

                MyLog.Default.WriteLine("m_assetName: " + m_assetName, LoggingOptions.LOADING_MODELS);

                //  Read data from model TAG parameter. There are stored vertex positions, triangle indices, vectors, ... everything we need.
                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - import data");

                MyLog.Default.WriteLine(String.Format("Importing asset {0}, path: {1}", m_assetName, AssetName), LoggingOptions.LOADING_MODELS);


                string assetForImport = AssetName;
                var    fsPath         = Path.IsPathRooted(AssetName) ? AssetName : Path.Combine(MyFileSystem.ContentPath, AssetName);
                if (!MyFileSystem.FileExists(fsPath))
                {
                    assetForImport = @"Models\Debug\Error.mwm";
                }

                try
                {
                    m_importer.ImportData(assetForImport);
                }
                catch
                {
                    MyLog.Default.WriteLine(String.Format("Importing asset failed {0}", m_assetName));
                    VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                    VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                    throw;
                }
                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                DataVersion = m_importer.DataVersion;

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - load tag data");
                Dictionary <string, object> tagData = m_importer.GetTagData();
                if (tagData.Count == 0)
                {
                    VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                    VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                    throw new Exception(String.Format("Uncompleted tagData for asset: {0}, path: {1}", m_assetName, AssetName));
                }
                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - vertex, normals, texture coords");


                HalfVector4[] vertices = (HalfVector4[])tagData[MyImporterConstants.TAG_VERTICES];

                System.Diagnostics.Debug.Assert(vertices.Length > 0);

                Byte4[] normals = (Byte4[])tagData[MyImporterConstants.TAG_NORMALS];
                m_vertices = new MyCompressedVertexNormal[vertices.Length];
                if (normals.Length > 0)
                {
                    for (int v = 0; v < vertices.Length; v++)
                    {
                        m_vertices[v] = new MyCompressedVertexNormal()
                        {
                            Position = vertices[v], // VF_Packer.PackPosition(ref vertices[v]),
                            Normal   = normals[v]   //VF_Packer.PackNormalB4(ref normals[v])
                        };
                    }
                }
                else
                {
                    for (int v = 0; v < vertices.Length; v++)
                    {
                        m_vertices[v] = new MyCompressedVertexNormal()
                        {
                            Position = vertices[v],// VF_Packer.PackPosition(ref vertices[v]),
                        };
                    }
                }


                m_verticesCount = vertices.Length;

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - mesh");

                var materials = new Dictionary <string, MyMeshMaterial>();
                m_meshContainer.Clear();
                if (tagData.ContainsKey(MyImporterConstants.TAG_MESH_PARTS))
                {
                    List <int> indices  = new List <int>(GetVerticesCount()); // Default capacity estimation
                    int        maxIndex = 0;

                    List <MyMeshPartInfo> meshParts = tagData[MyImporterConstants.TAG_MESH_PARTS] as List <MyMeshPartInfo>;
                    foreach (MyMeshPartInfo meshPart in meshParts)
                    {
                        MyMesh mesh = new MyMesh(meshPart, m_assetName);
                        mesh.IndexStart = indices.Count;
                        mesh.TriCount   = meshPart.m_indices.Count / 3;

                        if (mesh.Material.Name != null)
                        {
                            materials.Add(mesh.Material.Name, mesh.Material);
                        }

                        if (m_loadUV && false == m_hasUV)
                        {
                            m_texCoords = (HalfVector2[])tagData[MyImporterConstants.TAG_TEXCOORDS0];
                            m_hasUV     = true;
                            m_loadUV    = false;
                        }

                        if (meshPart.m_MaterialDesc != null && meshPart.Technique == MyMeshDrawTechnique.GLASS)
                        {
                            GlassData = mesh;

                            HalfVector2[]      forLoadingTexCoords0 = (HalfVector2[])tagData[MyImporterConstants.TAG_TEXCOORDS0];
                            List <HalfVector2> neededTexCoords      = new List <HalfVector2>();

                            for (int t = 0; t < meshPart.m_indices.Count; t++)
                            {
                                int index = meshPart.m_indices[t];
                                neededTexCoords.Add(forLoadingTexCoords0[index]);
                            }

                            GlassTexCoords = neededTexCoords.ToArray();
                        }

                        System.Diagnostics.Debug.Assert(mesh.TriCount > 0);

                        if (mesh.TriCount == 0)
                        {
                            VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                            VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                            return;
                        }

                        foreach (var i in meshPart.m_indices)
                        {
                            indices.Add(i);
                            if (i > maxIndex)
                            {
                                maxIndex = i;
                            }
                        }



                        m_meshContainer.Add(mesh);
                    }

                    if (maxIndex <= ushort.MaxValue)
                    {
                        // create 16 bit indices
                        m_Indices_16bit = new ushort[indices.Count];
                        for (int i = 0; i < indices.Count; i++)
                        {
                            m_Indices_16bit[i] = (ushort)indices[i];
                        }
                    }
                    else
                    {
                        // use 32bit indices
                        m_Indices = indices.ToArray();
                    }
                }

                m_meshSections.Clear();
                if (tagData.ContainsKey(MyImporterConstants.TAG_MESH_SECTIONS))
                {
                    List <MyMeshSectionInfo> sections = tagData[MyImporterConstants.TAG_MESH_SECTIONS] as List <MyMeshSectionInfo>;
                    int sectionindex = 0;
                    foreach (MyMeshSectionInfo sectinfo in sections)
                    {
                        MyMeshSection section = new MyMeshSection()
                        {
                            Name = sectinfo.Name, Index = sectionindex
                        };
                        m_meshSections.Add(section.Name, section);
                        sectionindex++;
                    }
                }

                if (tagData.ContainsKey(MyImporterConstants.TAG_MODEL_BVH))
                {
                    m_bvh = new MyQuantizedBvhAdapter(tagData[MyImporterConstants.TAG_MODEL_BVH] as GImpactQuantizedBvh, this);
                }

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - other data");

                Animations = (ModelAnimations)tagData[MyImporterConstants.TAG_ANIMATIONS];
                Bones      = (MyModelBone[])tagData[MyImporterConstants.TAG_BONES];

                Vector4I[] boneIndices = (Vector4I[])tagData[MyImporterConstants.TAG_BLENDINDICES];
                Vector4[]  boneWeights = (Vector4[])tagData[MyImporterConstants.TAG_BLENDWEIGHTS];
                if (boneIndices != null && boneIndices.Length != 0)
                {
                    if (boneWeights != null && boneIndices.Length == boneWeights.Length && boneIndices.Length == m_vertices.Length)
                    {
                        m_bonesIndicesWeights = new MyCompressedBoneIndicesWeights[boneIndices.Length];

                        for (int it = 0; it < boneIndices.Length; it++)
                        {
                            m_bonesIndicesWeights[it].Indices = new Byte4(boneIndices[it].X, boneIndices[it].Y, boneIndices[it].Z, boneIndices[it].W);
                            m_bonesIndicesWeights[it].Weights = new HalfVector4(boneWeights[it]);
                        }
                    }
                    else
                    {
                        Debug.Assert(false, "Bone indices/weights my be same number as vertices");
                    }
                }

                BoundingBox         = (BoundingBox)tagData[MyImporterConstants.TAG_BOUNDING_BOX];
                BoundingSphere      = (BoundingSphere)tagData[MyImporterConstants.TAG_BOUNDING_SPHERE];
                BoundingBoxSize     = BoundingBox.Max - BoundingBox.Min;
                BoundingBoxSizeHalf = BoundingBoxSize / 2.0f;
                Dummies             = tagData[MyImporterConstants.TAG_DUMMIES] as Dictionary <string, MyModelDummy>;
                BoneMapping         = tagData[MyImporterConstants.TAG_BONE_MAPPING] as VRageMath.Vector3I[];

                if (tagData.ContainsKey(MyImporterConstants.TAG_MODEL_FRACTURES))
                {
                    ModelFractures = (MyModelFractures)tagData[MyImporterConstants.TAG_MODEL_FRACTURES];
                }

                object patternScale;
                if (tagData.TryGetValue(MyImporterConstants.TAG_PATTERN_SCALE, out patternScale))
                {
                    PatternScale = (float)patternScale;
                }

                if (BoneMapping.Length == 0)
                {
                    BoneMapping = null;
                }

                if (tagData.ContainsKey(MyImporterConstants.TAG_HAVOK_COLLISION_GEOMETRY))
                {
                    HavokData = (byte[])tagData[MyImporterConstants.TAG_HAVOK_COLLISION_GEOMETRY];
                    byte[] tagCollisionData = (byte[])tagData[MyImporterConstants.TAG_HAVOK_COLLISION_GEOMETRY];
                    if (tagCollisionData.Length > 0 && HkBaseSystem.IsThreadInitialized)
                    {
                        bool           containsSceneData;
                        bool           containsDestructionData;
                        List <HkShape> shapesList = new List <HkShape>();
                        if (!HkShapeLoader.LoadShapesListFromBuffer(tagCollisionData, shapesList, out containsSceneData, out containsDestructionData))
                        {
                            MyLog.Default.WriteLine(string.Format("Model {0} - Unable to load collision geometry", AssetName), LoggingOptions.LOADING_MODELS);
                            //Debug.Fail("Collision model was exported in wrong way: " + m_assetName);
                        }

                        if (shapesList.Count > 10)
                        {
                            MyLog.Default.WriteLine(string.Format("Model {0} - Found too many collision shapes, only the first 10 will be used", AssetName), LoggingOptions.LOADING_MODELS);
                        }

                        if (HavokCollisionShapes != null)
                        {
                            Debug.Fail("Shapes already loaded");
                        }
                        if (shapesList.Count > 0)
                        {
                            HavokCollisionShapes = shapesList.ToArray();
                        }
                        else
                        {
                            MyLog.Default.WriteLine(string.Format("Model {0} - Unable to load collision geometry from file, default collision will be used !", AssetName));
                        }

                        if (containsDestructionData)
                        {
                            HavokDestructionData = tagCollisionData;
                        }

                        ExportedWrong = !containsSceneData;
                    }
                }


                if (tagData.ContainsKey(MyImporterConstants.TAG_HAVOK_DESTRUCTION))
                {
                    if (((byte[])tagData[MyImporterConstants.TAG_HAVOK_DESTRUCTION]).Length > 0)
                    {
                        HavokDestructionData = (byte[])tagData[MyImporterConstants.TAG_HAVOK_DESTRUCTION];
                    }
                }

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - copy triangle indices");
                //  Prepare data
                CopyTriangleIndices();
                m_trianglesCount = Triangles.Length;

                //  Remember this numbers as list may be cleared at the end of this method
                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                MyLog.Default.WriteLine("Triangles.Length: " + Triangles.Length, LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("Vertexes.Length: " + GetVerticesCount(), LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("UseChannelTextures: " + (bool)tagData[MyImporterConstants.TAG_USE_CHANNEL_TEXTURES], LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("BoundingBox: " + BoundingBox, LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("BoundingSphere: " + BoundingSphere, LoggingOptions.LOADING_MODELS);

                VRageRender.Utils.Stats.PerAppLifetime.MyModelsCount++;
                VRageRender.Utils.Stats.PerAppLifetime.MyModelsMeshesCount    += m_meshContainer.Count;
                VRageRender.Utils.Stats.PerAppLifetime.MyModelsVertexesCount  += GetVerticesCount();
                VRageRender.Utils.Stats.PerAppLifetime.MyModelsTrianglesCount += Triangles.Length;

                ModelInfo = new MyModelInfo(GetTrianglesCount(), GetVerticesCount(), BoundingBoxSize);

                m_loadedData            = true;
                m_loadingErrorProcessed = false;
                MyLog.Default.DecreaseIndent(LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("MyModel.LoadData -> END", LoggingOptions.LOADING_MODELS);

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
            }
        }
Exemplo n.º 27
0
        internal static int UpdateBvh(MyDynamicAABBTree bvh, LightId lid, bool enabled, int proxy, ref BoundingBox aabb)
        {
            if (enabled && proxy == -1)
            {
                return(bvh.AddProxy(ref aabb, lid, 0));
            }
            else if (enabled && proxy != -1)
            {
                bvh.MoveProxy(proxy, ref aabb, Vector3.Zero);
                return(proxy);
            }
            else
            {
                bvh.RemoveProxy(proxy);
            }

            return(-1);
        }
Exemplo n.º 28
0
        //  Sort of lazy-load, where constructor just saves information about what this model should be, but real load is done here - and only one time.
        //  This loads only vertex data, doesn't touch GPU
        //  Can be called from main and background thread
        public void LoadData()
        {
            if (m_loadedData) return;

            lock (this)
            {
                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("MyModel::LoadData");


                MyLog.Default.WriteLine("MyModel.LoadData -> START", LoggingOptions.LOADING_MODELS);
                MyLog.Default.IncreaseIndent(LoggingOptions.LOADING_MODELS);

                MyLog.Default.WriteLine("m_assetName: " + m_assetName, LoggingOptions.LOADING_MODELS);

                //  Read data from model TAG parameter. There are stored vertex positions, triangle indices, vectors, ... everything we need.
                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - import data");

                MyLog.Default.WriteLine(String.Format("Importing asset {0}, path: {1}", m_assetName, AssetName), LoggingOptions.LOADING_MODELS);


                string assetForImport = AssetName;
                var fsPath = Path.IsPathRooted(AssetName) ? AssetName : Path.Combine(MyFileSystem.ContentPath, AssetName);
                if (!MyFileSystem.FileExists(fsPath))
                {
                    assetForImport = @"Models\Debug\Error.mwm";
                }

                try
                {
                    m_importer.ImportData(assetForImport);
                }
                catch
                {
                    MyLog.Default.WriteLine(String.Format("Importing asset failed {0}", m_assetName));
                    VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                    VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                    throw;
                }
                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                DataVersion = m_importer.DataVersion;

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - load tag data");
                Dictionary<string, object> tagData = m_importer.GetTagData();
                if (tagData.Count == 0)
                {
                    VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                    VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                    throw new Exception(String.Format("Uncompleted tagData for asset: {0}, path: {1}", m_assetName, AssetName));
                }
                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - vertex, normals, texture coords");


                HalfVector4[] vertices = (HalfVector4[])tagData[MyImporterConstants.TAG_VERTICES];

                System.Diagnostics.Debug.Assert(vertices.Length > 0);

                Byte4[] normals = (Byte4[])tagData[MyImporterConstants.TAG_NORMALS];
                m_vertices = new MyCompressedVertexNormal[vertices.Length];
                if (normals.Length > 0)
                {
                    for (int v = 0; v < vertices.Length; v++)
                    {
                        m_vertices[v] = new MyCompressedVertexNormal()
                        {
                            Position = vertices[v],// VF_Packer.PackPosition(ref vertices[v]),
                            Normal = normals[v]//VF_Packer.PackNormalB4(ref normals[v])
                        };
                    }
                }
                else
                {
                    for (int v = 0; v < vertices.Length; v++)
                    {
                        m_vertices[v] = new MyCompressedVertexNormal()
                        {
                            Position = vertices[v],// VF_Packer.PackPosition(ref vertices[v]),
                        };
                    }
                }


                m_verticesCount = vertices.Length;

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - mesh");
                m_meshContainer.Clear();

                if (tagData.ContainsKey(MyImporterConstants.TAG_MESH_PARTS))
                {
                    List<int> indices = new List<int>(GetVerticesCount()); // Default capacity estimation
                    int maxIndex = 0;

                    List<MyMeshPartInfo> meshParts = tagData[MyImporterConstants.TAG_MESH_PARTS] as List<MyMeshPartInfo>;
                    foreach (MyMeshPartInfo meshPart in meshParts)
                    {
                        MyMesh mesh = new MyMesh(meshPart, m_assetName);
                        mesh.IndexStart = indices.Count;
                        mesh.TriCount = meshPart.m_indices.Count / 3;

                        if (m_loadUV && false == m_hasUV)
                        {
                            m_texCoords = (HalfVector2[])tagData[MyImporterConstants.TAG_TEXCOORDS0];
                            m_hasUV = true;
                            m_loadUV = false;
                        }

                        if (meshPart.m_MaterialDesc != null && meshPart.Technique == MyMeshDrawTechnique.GLASS)
                        {
                            GlassData = mesh;

                            HalfVector2[] forLoadingTexCoords0 = (HalfVector2[])tagData[MyImporterConstants.TAG_TEXCOORDS0];
                            List<HalfVector2> neededTexCoords = new List<HalfVector2>();

                            for (int t = 0; t < meshPart.m_indices.Count; t++)
                            {
                                int index = meshPart.m_indices[t];
                                neededTexCoords.Add(forLoadingTexCoords0[index]);
                            }

                            GlassTexCoords = neededTexCoords.ToArray();
                        }

                        System.Diagnostics.Debug.Assert(mesh.TriCount > 0);

                        if (mesh.TriCount == 0)
                        {
                            VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                            VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
                            return;
                        }

                        foreach (var i in meshPart.m_indices)
                        {
                            indices.Add(i);
                            if (i > maxIndex)
                            {
                                maxIndex = i;
                            }
                        }



                        m_meshContainer.Add(mesh);
                    }

                    if (maxIndex <= ushort.MaxValue)
                    {
                        // create 16 bit indices
                        m_Indices_16bit = new ushort[indices.Count];
                        for (int i = 0; i < indices.Count; i++)
                        {
                            m_Indices_16bit[i] = (ushort)indices[i];
                        }
                    }
                    else
                    {
                        // use 32bit indices
                        m_Indices = indices.ToArray();
                    }
                }

                if (tagData.ContainsKey(MyImporterConstants.TAG_MODEL_BVH))
                {
                    m_bvh = new MyQuantizedBvhAdapter(tagData[MyImporterConstants.TAG_MODEL_BVH] as GImpactQuantizedBvh, this);
                }

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - other data");

                Animations = (ModelAnimations)tagData[MyImporterConstants.TAG_ANIMATIONS];
                Bones = (MyModelBone[])tagData[MyImporterConstants.TAG_BONES];

                BoundingBox = (BoundingBox)tagData[MyImporterConstants.TAG_BOUNDING_BOX];
                BoundingSphere = (BoundingSphere)tagData[MyImporterConstants.TAG_BOUNDING_SPHERE];
                BoundingBoxSize = BoundingBox.Max - BoundingBox.Min;
                BoundingBoxSizeHalf = BoundingBoxSize / 2.0f;
                Dummies = tagData[MyImporterConstants.TAG_DUMMIES] as Dictionary<string, MyModelDummy>;
                BoneMapping = tagData[MyImporterConstants.TAG_BONE_MAPPING] as VRageMath.Vector3I[];

                if (tagData.ContainsKey(MyImporterConstants.TAG_MODEL_FRACTURES))
                    ModelFractures = (MyModelFractures)tagData[MyImporterConstants.TAG_MODEL_FRACTURES];

                object patternScale;
                if (tagData.TryGetValue(MyImporterConstants.TAG_PATTERN_SCALE, out patternScale))
                {
                    PatternScale = (float)patternScale;
                }

                if (BoneMapping.Length == 0)
                    BoneMapping = null;

                if (tagData.ContainsKey(MyImporterConstants.TAG_HAVOK_COLLISION_GEOMETRY))
                {
                    HavokData = (byte[])tagData[MyImporterConstants.TAG_HAVOK_COLLISION_GEOMETRY];
                    byte[] tagCollisionData = (byte[])tagData[MyImporterConstants.TAG_HAVOK_COLLISION_GEOMETRY];
                    if (tagCollisionData.Length > 0 && HkBaseSystem.IsThreadInitialized)
                    {
                        bool containsSceneData;
                        bool containsDestructionData;
                        List<HkShape> shapesList = new List<HkShape>();
                        if (!HkShapeLoader.LoadShapesListFromBuffer(tagCollisionData, shapesList, out containsSceneData, out containsDestructionData))
                        {
                            MyLog.Default.WriteLine(string.Format("Model {0} - Unable to load collision geometry", AssetName), LoggingOptions.LOADING_MODELS);
                        //Debug.Fail("Collision model was exported in wrong way: " + m_assetName);
                        }

                        if (shapesList.Count > 10)
                            MyLog.Default.WriteLine(string.Format("Model {0} - Found too many collision shapes, only the first 10 will be used", AssetName), LoggingOptions.LOADING_MODELS);

                        if (HavokCollisionShapes != null)
                        {
                            Debug.Fail("Shapes already loaded");
                        }
                        if (shapesList.Count > 0)
                        {
                            HavokCollisionShapes = shapesList.ToArray();
                        }
                        else
                        {
                            MyLog.Default.WriteLine(string.Format("Model {0} - Unable to load collision geometry from file, default collision will be used !", AssetName));
                        }

                        if (containsDestructionData)
                            HavokDestructionData = tagCollisionData;

                        ExportedWrong = !containsSceneData;
                    }
                }


                if (tagData.ContainsKey(MyImporterConstants.TAG_HAVOK_DESTRUCTION))
                {
                    if (((byte[])tagData[MyImporterConstants.TAG_HAVOK_DESTRUCTION]).Length > 0)
                        HavokDestructionData = (byte[])tagData[MyImporterConstants.TAG_HAVOK_DESTRUCTION];
                }

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - copy triangle indices");
                //  Prepare data
                CopyTriangleIndices();
                m_trianglesCount = Triangles.Count();

                //  Remember this numbers as list may be cleared at the end of this method
                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                MyLog.Default.WriteLine("Triangles.Length: " + Triangles.Length, LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("Vertexes.Length: " + GetVerticesCount(), LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("Centered: " + (bool)tagData[MyImporterConstants.TAG_CENTERED], LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("UseChannelTextures: " + (bool)tagData[MyImporterConstants.TAG_USE_CHANNEL_TEXTURES], LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("Length in meters: " + (float)tagData[MyImporterConstants.TAG_LENGTH_IN_METERS], LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("Rescale to length in meters?: " + (bool)tagData[MyImporterConstants.TAG_RESCALE_TO_LENGTH_IN_METERS], LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("BoundingBox: " + BoundingBox, LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("BoundingSphere: " + BoundingSphere, LoggingOptions.LOADING_MODELS);

                Stats.PerAppLifetime.MyModelsCount++;
                Stats.PerAppLifetime.MyModelsMeshesCount += m_meshContainer.Count;
                Stats.PerAppLifetime.MyModelsVertexesCount += GetVerticesCount();
                Stats.PerAppLifetime.MyModelsTrianglesCount += Triangles.Length;

                ModelInfo = new MyModelInfo(GetTrianglesCount(), GetVerticesCount(), BoundingBoxSize);

                m_loadedData = true;
                m_loadingErrorProcessed = false;
                MyLog.Default.DecreaseIndent(LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("MyModel.LoadData -> END", LoggingOptions.LOADING_MODELS);

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
            }
        }
Exemplo n.º 29
0
        internal void SetMatrix(ref Matrix matrix) 
        {
            WorldMatrix = matrix;
            if (m_localAabb.HasValue)
            {
                Aabb = m_localAabb.Value.Transform(WorldMatrix);
            }
            // figure out final matrix

            for (int i = 0; i < m_components.Count; i++)
                m_components[i].OnMatrixChange();

            if(m_localAabb.HasValue)
            {
                for (int i = 0; i < m_components.Count; i++)
                    m_components[i].OnAabbChange();
            }
        }
Exemplo n.º 30
0
        public void LoadAnimationData()
        {
            if (m_loadedData) return;

            lock (this)
            {
                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("MyModel::LoadAnimationData");


                MyLog.Default.WriteLine("MyModel.LoadData -> START", LoggingOptions.LOADING_MODELS);
                MyLog.Default.IncreaseIndent(LoggingOptions.LOADING_MODELS);

                MyLog.Default.WriteLine("m_assetName: " + m_assetName, LoggingOptions.LOADING_MODELS);

                //  Read data from model TAG parameter. There are stored vertex positions, triangle indices, vectors, ... everything we need.
                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - import data");

                MyLog.Default.WriteLine(String.Format("Importing asset {0}, path: {1}", m_assetName, AssetName), LoggingOptions.LOADING_MODELS);
                try
                {
                    m_importer.ImportData(AssetName);
                }
                catch
                {
                    MyLog.Default.WriteLine(String.Format("Importing asset failed {0}", m_assetName));
                    throw;
                }
                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("Model - load data - load tag data");
                Dictionary<string, object> tagData = m_importer.GetTagData();
                if (tagData.Count == 0)
                {
                    throw new Exception(String.Format("Uncompleted tagData for asset: {0}, path: {1}", m_assetName, AssetName));
                }

                DataVersion = m_importer.DataVersion;

                Animations = (ModelAnimations)tagData[MyImporterConstants.TAG_ANIMATIONS];
                Bones = (MyModelBone[])tagData[MyImporterConstants.TAG_BONES];

                BoundingBox = (BoundingBox)tagData[MyImporterConstants.TAG_BOUNDING_BOX];
                BoundingSphere = (BoundingSphere)tagData[MyImporterConstants.TAG_BOUNDING_SPHERE];
                BoundingBoxSize = BoundingBox.Max - BoundingBox.Min;
                BoundingBoxSizeHalf = BoundingBoxSize / 2.0f;
                Dummies = tagData[MyImporterConstants.TAG_DUMMIES] as Dictionary<string, MyModelDummy>;
                BoneMapping = tagData[MyImporterConstants.TAG_BONE_MAPPING] as VRageMath.Vector3I[];
                if (BoneMapping.Length == 0)
                    BoneMapping = null;

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();

                ModelInfo = new MyModelInfo(GetTrianglesCount(), GetVerticesCount(), BoundingBoxSize);

                m_loadedData = true;

                MyLog.Default.DecreaseIndent(LoggingOptions.LOADING_MODELS);
                MyLog.Default.WriteLine("MyModel.LoadAnimationData -> END", LoggingOptions.LOADING_MODELS);

                VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
            }
        }
Exemplo n.º 31
0
        internal void SetLocalAabb(BoundingBox localAabb)
        {
            m_localAabb = localAabb;

            Aabb = m_localAabb.Value.Transform(WorldMatrix);

            for (int i = 0; i < m_components.Count; i++)
                m_components[i].OnAabbChange();
        }
Exemplo n.º 32
0
        //internal static void AttachHemisphericalLightInfo(LightId light, ref MyHemisphericalLightInfo info)
        //{
        //}

        internal static void Update()
        {
            if(DirtyPointlights.Count > 0)
            {
                foreach(var id in DirtyPointlights)
                {
                    var proxy = Pointlights[id.Index].BvhProxyId;
                    var position = Lights.Data[id.Index].Position;
                    var range = Pointlights[id.Index].Range;

                    var aabb = new BoundingBox(position - range, position + range);
                    Pointlights[id.Index].BvhProxyId = UpdateBvh(PointlightsBvh, id, Pointlights[id.Index].Enabled, proxy, ref aabb);
                    Pointlights[id.Index].LastBvhUpdatePosition = position;
                }

                DirtyPointlights.Clear();
            }

            if (DirtySpotlights.Count > 0)
            {
                foreach (var id in DirtySpotlights)
                {
                    var proxy = Spotlights[id.Index].BvhProxyId;
                    var position = Lights.Data[id.Index].Position;
                    var range = Spotlights[id.Index].Range;

                    var aabb = MakeAabbFromSpotlightCone(ref Spotlights[id.Index], position);
                    Spotlights[id.Index].BvhProxyId = UpdateBvh(SpotlightsBvh, id, Spotlights[id.Index].Enabled, proxy, ref aabb);
                    Spotlights[id.Index].LastBvhUpdatePosition = position;
                }

                DirtySpotlights.Clear();
            }
        }
Exemplo n.º 33
0
        internal void SetAabb(BoundingBox aabb) 
        {
            Aabb = aabb;

            for (int i = 0; i < m_components.Count; i++)
                m_components[i].OnAabbChange();
        }