internal void Merge(MyActor child) { var renderableComponent = child.GetRenderable(); var model = renderableComponent.GetModel(); var material = MyMeshes.GetMeshPart(model, 0, 0).Info.Material; bool fracture = model.Info.RuntimeGenerated || model.Info.Dynamic; if (MyMeshMaterials1.IsMergable(material) && MyBigMeshTable.Table.IsMergable(model) && !fracture) { var materialRk = MyMeshMaterials1.Table[material.Index].RepresentationKey; var mergeGroupForMaterial = m_materialGroups.Get(materialRk); if (mergeGroupForMaterial == null) { var proxyIndex = m_materialGroups.Count; mergeGroupForMaterial = new MyMaterialMergeGroup(MyBigMeshTable.Table, material, proxyIndex); m_materialGroups[MyMeshMaterials1.Table[material.Index].RepresentationKey] = mergeGroupForMaterial; m_dirtyProxy = true; } renderableComponent.IsRenderedStandAlone = false; child.GetGroupLeaf().RootGroup = this; child.GetGroupLeaf().MergeGroup = mergeGroupForMaterial; mergeGroupForMaterial.AddEntity(child, model); mergeGroupForMaterial.UpdateEntity(child); } }
static void DrawRenderableComponent(MyActor actor, MyRenderableComponent renderableComponent, List <MyHighlightDesc> highlightDescs) { var renderLod = renderableComponent.Lods[renderableComponent.CurrentLod]; var model = renderableComponent.GetModel(); LodMeshId currentModelId; if (!MyMeshes.TryGetLodMesh(model, renderableComponent.CurrentLod, out currentModelId)) { Debug.Fail("Mesh for outlining not found!"); return; } foreach (MyHighlightDesc descriptor in highlightDescs) { if (!renderableComponent.IsRenderedStandAlone) { MyGroupLeafComponent leafComponent = actor.GetGroupLeaf(); MyGroupRootComponent groupComponent = leafComponent.RootGroup; if (groupComponent != null) { RecordMeshPartCommands(model, actor, groupComponent, groupComponent.m_proxy, descriptor); } continue; } if (!string.IsNullOrEmpty(descriptor.SectionName)) { RecordMeshSectionCommands(model, renderableComponent, renderLod, descriptor); } else { RecordMeshPartCommands(model, currentModelId, renderableComponent, renderLod, descriptor); } } }
internal static void Run() { ProfilerShort.Begin("MyOutline.Run"); MyGpuProfiler.IC_BeginBlock("MyOutline.Run"); // set resolved depth/ stencil // render all with proper depth-stencil state // blur // blend to main target testing with stencil again MyOutlinePass.Instance.ViewProjection = MyEnvironment.ViewProjectionAt0; MyOutlinePass.Instance.Viewport = new MyViewport(MyRender11.ViewportResolution.X, MyRender11.ViewportResolution.Y); MyOutlinePass.Instance.PerFrame(); MyOutlinePass.Instance.Begin(); RC.Clear(); RC.DeviceContext.VertexShader.SetShaderResources(0, null, null, null, null, null, null); RC.DeviceContext.GeometryShader.SetShaderResources(0, null, null, null, null, null, null); RC.DeviceContext.PixelShader.SetShaderResources(0, null, null, null, null, null, null); RC.DeviceContext.ComputeShader.SetShaderResources(0, null, null, null, null, null, null); if (MyRender11.MultisamplingEnabled) { RC.DeviceContext.ClearRenderTargetView(MyRender11.m_rgba8_ms.m_RTV, new SharpDX.Color4(0, 0, 0, 0)); RC.DeviceContext.OutputMerger.SetTargets(MyGBuffer.Main.DepthStencil.m_DSV, MyRender11.m_rgba8_ms.m_RTV); } else { RC.DeviceContext.ClearRenderTargetView(MyRender11.m_rgba8_1.m_RTV, new SharpDX.Color4(0, 0, 0, 0)); RC.DeviceContext.OutputMerger.SetTargets(MyGBuffer.Main.DepthStencil.m_DSV, MyRender11.m_rgba8_1.m_RTV); } float maxThickness = 0f; foreach (var pair in m_outlines) { MyActor actor = MyIDTracker <MyActor> .FindByID(pair.Key); MyRenderableComponent renderableComponent; if (actor == null || (renderableComponent = actor.GetRenderable()) == null) { // If an actor has been removed without removing outlines, just remove the outlines too m_keysToRemove.Add(pair.Key); continue; } var renderLod = renderableComponent.Lods[renderableComponent.CurrentLod]; var model = renderableComponent.GetModel(); LodMeshId currentModelId; if (!MyMeshes.TryGetLodMesh(model, renderableComponent.CurrentLod, out currentModelId)) { Debug.Fail("Mesh for outlining not found!"); continue; } foreach (MyOutlineDesc descriptor in pair.Value) { if (!renderableComponent.IsRenderedStandAlone) { MyGroupLeafComponent leafComponent = actor.GetGroupLeaf(); MyGroupRootComponent groupComponent = leafComponent.RootGroup; if (groupComponent != null) { RecordMeshPartCommands(model, actor, groupComponent, groupComponent.m_proxy, descriptor, ref maxThickness); } continue; } if (descriptor.SectionIndex == -1) { RecordMeshPartCommands(model, currentModelId, renderableComponent, renderLod, descriptor, ref maxThickness); } else { RecordMeshSectionCommands(model, currentModelId, renderableComponent, renderLod, descriptor, ref maxThickness); } } } MyOutlinePass.Instance.End(); RC.SetBS(null); foreach (var outlineKey in m_keysToRemove) { m_outlines.Remove(outlineKey); } m_keysToRemove.SetSize(0); ShaderResourceView initialSourceView = MyRender11.MultisamplingEnabled ? MyRender11.m_rgba8_ms.m_SRV : MyRender11.m_rgba8_1.m_SRV; RenderTargetView renderTargetview = MyRender11.MultisamplingEnabled ? MyRender11.m_rgba8_ms.m_RTV : MyRender11.m_rgba8_1.m_RTV; if (maxThickness > 0) { MyBlur.Run(renderTargetview, MyRender11.m_rgba8_2.m_RTV, MyRender11.m_rgba8_2.m_SRV, initialSourceView, (int)Math.Round(5 * maxThickness), MyBlur.MyBlurDensityFunctionType.Exponential, 0.25f, null, MyFoliageRenderingPass.GrassStencilMask, MyRender11.Settings.BlurCopyOnDepthStencilFail); } MyGpuProfiler.IC_EndBlock(); ProfilerShort.End(); }
internal void Add(MyActor child) { child.AddComponent(MyComponentFactory <MyGroupLeafComponent> .Create()); child.GetGroupLeaf().m_parent = m_owner; m_children.Add(child); if (child.m_relativeTransform == null) { child.m_relativeTransform = (Matrix)(child.WorldMatrix * MatrixD.Invert(m_owner.WorldMatrix)); } if (!m_owner.m_localAabb.HasValue) { m_owner.m_localAabb = child.m_localAabb; } else { var localAabb = child.m_localAabb.Value; m_owner.m_localAabb = m_owner.m_localAabb.Value.Include(ref localAabb); } PropagateMatrixChange(child); if (child.GetRenderable() == null) { return; } //var mesh = child.GetRenderable().GetMesh(); var model = child.GetRenderable().GetModel(); var material = MyMeshes.GetMeshPart(model, 0, 0).Info.Material; bool fracture = model.Info.RuntimeGenerated || model.Info.Dynamic; if (MyMeshMaterials1.IsMergable(material) && MyBigMeshTable.Table.IsMergable(model) && !fracture) { child.GetGroupLeaf().m_mergable = true; MyBigMeshTable.Table.AddMesh(model); m_mergablesCounter++; if (!m_isMerged && m_mergablesCounter >= MERGE_THRESHOLD) { TurnIntoMergeInstancing(); } else if (m_isMerged) { Merge(child); } //var materialRk = MyMeshMaterials1.Table[material.Index].RepresentationKey; //var mergeGroupForMaterial = m_materialGroups.Get(materialRk); //if (mergeGroupForMaterial == null) //{ // var proxyIndex = m_materialGroups.Count; // mergeGroupForMaterial = new MyMaterialMergeGroup(MyBigMeshTable.Table, material, proxyIndex); // m_materialGroups[MyMeshMaterials1.Table[material.Index].RepresentationKey] = mergeGroupForMaterial; // m_dirtyProxy = true; //} //child.GetRenderable().SetStandaloneRendering(false); //child.GetGroupLeaf().m_mergeGroup = mergeGroupForMaterial; //mergeGroupForMaterial.AddEntity(child, model); //mergeGroupForMaterial.UpdateEntity(child); } else { //Debug.WriteLine(String.Format("Mesh {0}, material {1} is not mergable", mesh.Name, material)); } m_dirtyTree = true; }
internal void Add(MyActor child) { child.AddComponent(MyComponentFactory<MyGroupLeafComponent>.Create()); child.GetGroupLeaf().m_parent = m_owner; m_children.Add(child); if (child.m_relativeTransform == null) { child.m_relativeTransform = (Matrix)( child.WorldMatrix * MatrixD.Invert(m_owner.WorldMatrix) ); } if (!m_owner.m_localAabb.HasValue) { m_owner.m_localAabb = child.m_localAabb; } else { var localAabb = child.m_localAabb.Value; m_owner.m_localAabb = m_owner.m_localAabb.Value.Include(ref localAabb); } PropagateMatrixChange(child); if(child.GetRenderable() == null) { return; } //var mesh = child.GetRenderable().GetMesh(); var model = child.GetRenderable().GetModel(); var material = MyMeshes.GetMeshPart(model, 0, 0).Info.Material; bool fracture = model.Info.RuntimeGenerated || model.Info.Dynamic; if (MyMeshMaterials1.IsMergable(material) && MyBigMeshTable.Table.IsMergable(model) && !fracture) { child.GetGroupLeaf().m_mergable = true; MyBigMeshTable.Table.AddMesh(model); m_mergablesCounter++; if(!m_isMerged && m_mergablesCounter >= MERGE_THRESHOLD) { TurnIntoMergeInstancing(); } else if(m_isMerged) { Merge(child); } //var materialRk = MyMeshMaterials1.Table[material.Index].RepresentationKey; //var mergeGroupForMaterial = m_materialGroups.Get(materialRk); //if (mergeGroupForMaterial == null) //{ // var proxyIndex = m_materialGroups.Count; // mergeGroupForMaterial = new MyMaterialMergeGroup(MyBigMeshTable.Table, material, proxyIndex); // m_materialGroups[MyMeshMaterials1.Table[material.Index].RepresentationKey] = mergeGroupForMaterial; // m_dirtyProxy = true; //} //child.GetRenderable().SetStandaloneRendering(false); //child.GetGroupLeaf().m_mergeGroup = mergeGroupForMaterial; //mergeGroupForMaterial.AddEntity(child, model); //mergeGroupForMaterial.UpdateEntity(child); } else { //Debug.WriteLine(String.Format("Mesh {0}, material {1} is not mergable", mesh.Name, material)); } m_dirtyTree = true; }
internal void Merge(MyActor child) { var r = child.GetRenderable(); var model = r.GetModel(); var material = MyMeshes.GetMeshPart(model, 0, 0).Info.Material; bool fracture = model.Info.RuntimeGenerated || model.Info.Dynamic; if (MyMeshMaterials1.IsMergable(material) && MyBigMeshTable.Table.IsMergable(model) && !fracture) { var materialRk = MyMeshMaterials1.Table[material.Index].RepresentationKey; var mergeGroupForMaterial = m_materialGroups.Get(materialRk); if (mergeGroupForMaterial == null) { var proxyIndex = m_materialGroups.Count; mergeGroupForMaterial = new MyMaterialMergeGroup(MyBigMeshTable.Table, material, proxyIndex); m_materialGroups[MyMeshMaterials1.Table[material.Index].RepresentationKey] = mergeGroupForMaterial; m_dirtyProxy = true; } r.SetStandaloneRendering(false); child.GetGroupLeaf().m_mergeGroup = mergeGroupForMaterial; mergeGroupForMaterial.AddEntity(child, model); mergeGroupForMaterial.UpdateEntity(child); } }
internal static IBorrowedRtvTexture Run() { ProfilerShort.Begin("MyOutline.Run"); MyGpuProfiler.IC_BeginBlock("MyOutline.Run"); // set resolved depth/ stencil // render all with proper depth-stencil state // blur // blend to main target testing with stencil again MyOutlinePass.Instance.ViewProjection = MyRender11.Environment.Matrices.ViewProjectionAt0; MyOutlinePass.Instance.Viewport = new MyViewport(MyRender11.ViewportResolution.X, MyRender11.ViewportResolution.Y); MyOutlinePass.Instance.PerFrame(); MyOutlinePass.Instance.Begin(); RC.VertexShader.SetSrvs(0, null, null, null, null, null, null); RC.GeometryShader.SetSrvs(0, null, null, null, null, null, null); RC.PixelShader.SetSrvs(0, null, null, null, null, null, null); RC.ComputeShader.SetSrvs(0, null, null, null, null, null, null); int samples = MyRender11.RenderSettings.AntialiasingMode.SamplesCount(); IBorrowedRtvTexture rgba8_1 = MyManagers.RwTexturesPool.BorrowRtv("MyOutline.Rgba8_1", Format.R8G8B8A8_UNorm_SRgb, samples); RC.ClearRtv(rgba8_1, new SharpDX.Color4(0, 0, 0, 0)); RC.SetRtv(MyGBuffer.Main.DepthStencil, MyDepthStencilAccess.ReadWrite, rgba8_1); float maxThickness = 0f; foreach (var pair in m_outlines) { MyActor actor = MyIDTracker <MyActor> .FindByID(pair.Key); MyRenderableComponent renderableComponent; if (actor == null || (renderableComponent = actor.GetRenderable()) == null) { // If an actor has been removed without removing outlines, just remove the outlines too m_keysToRemove.Add(pair.Key); continue; } var renderLod = renderableComponent.Lods[renderableComponent.CurrentLod]; var model = renderableComponent.GetModel(); LodMeshId currentModelId; if (!MyMeshes.TryGetLodMesh(model, renderableComponent.CurrentLod, out currentModelId)) { Debug.Fail("Mesh for outlining not found!"); continue; } foreach (MyOutlineDesc descriptor in pair.Value) { if (!renderableComponent.IsRenderedStandAlone) { MyGroupLeafComponent leafComponent = actor.GetGroupLeaf(); MyGroupRootComponent groupComponent = leafComponent.RootGroup; if (groupComponent != null) { RecordMeshPartCommands(model, actor, groupComponent, groupComponent.m_proxy, descriptor, ref maxThickness); } continue; } if (descriptor.SectionIndex == -1) { RecordMeshPartCommands(model, currentModelId, renderableComponent, renderLod, descriptor, ref maxThickness); } else { RecordMeshSectionCommands(model, currentModelId, renderableComponent, renderLod, descriptor, ref maxThickness); } } } MyOutlinePass.Instance.End(); RC.SetBlendState(null); foreach (var outlineKey in m_keysToRemove) { m_outlines.Remove(outlineKey); } m_keysToRemove.SetSize(0); ISrvBindable initialSourceView = rgba8_1; IRtvBindable renderTargetview = rgba8_1; if (maxThickness > 0) { IBorrowedRtvTexture rgba8_2 = MyManagers.RwTexturesPool.BorrowRtv("MyOutline.Rgba8_2", Format.R8G8B8A8_UNorm_SRgb); MyBlur.Run(renderTargetview, rgba8_2, initialSourceView, (int)Math.Round(maxThickness), MyBlur.MyBlurDensityFunctionType.Exponential, 0.25f, MyDepthStencilStateManager.TestSkipGrassStencil, MyFoliageRenderingPass.GrassStencilMask); rgba8_2.Release(); } MyGpuProfiler.IC_EndBlock(); ProfilerShort.End(); return(rgba8_1); }