internal void BindProxyGeometry(MyRenderableProxy proxy)
{
var buffers = proxy.Mesh.Buffers;
bool firstChanged = RC.UpdateVB(0, buffers.VB0.Buffer, buffers.VB0.Stride);
bool secondChanged = RC.UpdateVB(1, buffers.VB1.Buffer, buffers.VB1.Stride);
if (firstChanged && secondChanged)
{
Context.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(buffers.VB0.Buffer, buffers.VB0.Stride, 0), new VertexBufferBinding(buffers.VB1.Buffer, buffers.VB1.Stride, 0));
RC.Stats.SetVB++;
}
else if (firstChanged)
{
Context.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(buffers.VB0.Buffer, buffers.VB0.Stride, 0));
RC.Stats.SetVB++;
}
else if (secondChanged)
{
Context.InputAssembler.SetVertexBuffers(1, new VertexBufferBinding(buffers.VB1.Buffer, buffers.VB1.Stride, 0));
RC.Stats.SetVB++;
}
if (proxy.InstancingEnabled && proxy.Instancing.VB.Index != -1)
{
Context.InputAssembler.SetVertexBuffers(2, new VertexBufferBinding(proxy.Instancing.VB.Buffer, proxy.Instancing.VB.Stride, 0));
RC.Stats.SetVB++;
}
RC.SetIB(buffers.IB.Buffer, buffers.IB.Format);
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, VertexBufferId stream, int voxelMatId)
{
if (stream == VertexBufferId.NULL)
{
return;
}
var foliageType = MyVoxelMaterials1.Table[voxelMatId].FoliageType;
MyMapping mapping = MyMapping.MapDiscard(RC.DeviceContext, proxy.ObjectBuffer);
mapping.WriteAndPosition(ref proxy.NonVoxelObjectData);
mapping.WriteAndPosition(ref proxy.CommonObjectData);
mapping.Unmap();
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
RC.SetGS(m_GS[foliageType]);
RC.SetPS(m_PS[foliageType]);
if (MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray != null)
{
RC.BindRawSRV(0, MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray.ShaderView);
RC.BindRawSRV(1, MyVoxelMaterials1.Table[voxelMatId].FoliageNormalTextureArray.ShaderView);
}
else
{
RC.BindRawSRV(0, MyTextures.GetView(MyTextures.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_Texture, MyTextureEnum.COLOR_METAL, true)));
RC.BindRawSRV(1, MyTextures.GetView(MyTextures.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_NormalTexture, MyTextureEnum.NORMALMAP_GLOSS, true)));
}
RC.SetVB(0, stream.Buffer, stream.Stride);
Context.DrawAuto();
RC.Stats.DrawAuto++;
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, VertexBufferId stream, int voxelMatId)
{
MyObjectData objectData = proxy.ObjectData;
var foliageType = MyVoxelMaterials1.Table[voxelMatId].FoliageType;
MyMapping mapping;
mapping = MyMapping.MapDiscard(RC.Context, proxy.ObjectBuffer);
void *ptr = &objectData;
mapping.stream.Write(new IntPtr(ptr), 0, sizeof(MyObjectData));
mapping.Unmap();
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
RC.SetGS(m_GS[foliageType]);
RC.SetPS(m_PS[foliageType]);
if (MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray != null)
{
RC.BindRawSRV(0, MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray.ShaderView);
RC.BindRawSRV(1, MyVoxelMaterials1.Table[voxelMatId].FoliageNormalTextureArray.ShaderView);
}
else
{
RC.BindRawSRV(0, MyTextures.GetView(MyTextures.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_Texture, MyTextureEnum.COLOR_METAL, true)));
RC.BindRawSRV(1, MyTextures.GetView(MyTextures.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_NormalTexture, MyTextureEnum.NORMALMAP_GLOSS, true)));
}
RC.SetVB(0, stream.Buffer, stream.Stride);
Context.DrawAuto();
RC.Stats.DrawAuto++;
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, VertexBufferId stream, int voxelMatId)
{
if (stream == VertexBufferId.NULL) return;
var foliageType = MyVoxelMaterials1.Table[voxelMatId].FoliageType;
MyMapping mapping = MyMapping.MapDiscard(RC.DeviceContext, proxy.ObjectBuffer);
mapping.WriteAndPosition(ref proxy.NonVoxelObjectData);
mapping.WriteAndPosition(ref proxy.CommonObjectData);
mapping.Unmap();
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
RC.SetGS(m_GS[foliageType]);
RC.SetPS(m_PS[foliageType]);
if (MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray != null)
{
RC.BindRawSRV(0, MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray);
RC.BindRawSRV(1, MyVoxelMaterials1.Table[voxelMatId].FoliageNormalTextureArray);
}
else
{
RC.BindRawSRV(0, MyTextures.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_Texture, MyTextureEnum.COLOR_METAL, true));
RC.BindRawSRV(1, MyTextures.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_NormalTexture, MyTextureEnum.NORMALMAP_GLOSS, true));
}
RC.SetVB(0, stream.Buffer, stream.Stride);
Context.DrawAuto();
RC.Stats.DrawAuto++;
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, VertexBufferId stream, int voxelMatId)
{
//var worldMat = proxy.WorldMatrix;
//worldMat.Translation -= MyEnvironment.CameraPosition;
//proxy.ObjectData.LocalMatrix = worldMat;
//var worldMatrix = Matrix.CreateTranslation(-MyEnvironment.CameraPosition);
MyObjectData objectData = proxy.ObjectData;
//objectData.LocalMatrix = worldMat;
MyMapping mapping;
mapping = MyMapping.MapDiscard(RC.Context, proxy.objectBuffer);
void *ptr = &objectData;
mapping.stream.Write(new IntPtr(ptr), 0, sizeof(MyObjectData));
mapping.Unmap();
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.objectBuffer);
RC.BindRawSRV(0, MyTextures.GetView(MyTextures.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_Texture, MyTextureEnum.COLOR_METAL, true)));
RC.SetVB(0, stream.Buffer, stream.Stride);
Context.DrawAuto();
RC.Stats.DrawAuto++;
}
/// <returns>True if the section was found</returns>
static void RecordMeshSectionCommands(MeshId model,
MyRenderableComponent rendercomp, MyRenderLod renderLod,
MyHighlightDesc desc)
{
MeshSectionId sectionId;
bool found = MyMeshes.TryGetMeshSection(model, rendercomp.CurrentLod, desc.SectionName, out sectionId);
if (!found)
{
return;
}
WriteHighlightConstants(ref desc);
MyMeshSectionInfo1 section = sectionId.Info;
MyMeshSectionPartInfo1[] meshes = section.Meshes;
for (int idx = 0; idx < meshes.Length; idx++)
{
MyMeshSectionPartInfo1 sectionInfo = meshes[idx];
if (renderLod.RenderableProxies.Length <= sectionInfo.PartIndex)
{
DebugRecordMeshPartCommands(model, desc.SectionName, rendercomp, renderLod, meshes, idx);
return;
}
MyRenderableProxy proxy = renderLod.RenderableProxies[sectionInfo.PartIndex];
MyHighlightPass.Instance.RecordCommands(proxy, sectionInfo.PartSubmeshIndex, desc.InstanceId);
}
}
internal static unsafe void FillBuffers(MyRenderableProxy proxy, MyRenderContext rc)
{
MyMapping mapping;
mapping = MyMapping.MapDiscard(rc, proxy.ObjectBuffer);
if (proxy.NonVoxelObjectData.IsValid)
{
mapping.WriteAndPosition(ref proxy.NonVoxelObjectData);
}
else if (proxy.VoxelCommonObjectData.IsValid)
{
mapping.WriteAndPosition(ref proxy.VoxelCommonObjectData);
}
mapping.WriteAndPosition(ref proxy.CommonObjectData);
if (proxy.SkinningMatrices != null)
{
if (proxy.DrawSubmesh.BonesMapping == null)
{
mapping.WriteAndPosition(proxy.SkinningMatrices, Math.Min(MyRender11Constants.SHADER_MAX_BONES, proxy.SkinningMatrices.Length));
}
else
{
for (int j = 0; j < proxy.DrawSubmesh.BonesMapping.Length; j++)
{
mapping.WriteAndPosition(ref proxy.SkinningMatrices[proxy.DrawSubmesh.BonesMapping[j]]);
}
}
}
mapping.Unmap();
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, IVertexBuffer stream, int voxelMatId)
{
if (stream == null)
{
return;
}
var foliageType = MyVoxelMaterials1.Table[voxelMatId].FoliageType;
MyMapping mapping = MyMapping.MapDiscard(RC, proxy.ObjectBuffer);
mapping.WriteAndPosition(ref proxy.NonVoxelObjectData);
mapping.WriteAndPosition(ref proxy.CommonObjectData);
mapping.Unmap();
RC.AllShaderStages.SetConstantBuffer(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
RC.GeometryShader.Set(m_GS[foliageType]);
RC.PixelShader.Set(m_PS[foliageType]);
if (MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray != null)
{
RC.AllShaderStages.SetSrv(0, MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray);
RC.AllShaderStages.SetSrv(1, MyVoxelMaterials1.Table[voxelMatId].FoliageNormalTextureArray);
}
else
{
MyFileTextureManager texManager = MyManagers.FileTextures;
RC.AllShaderStages.SetSrv(0, texManager.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_Texture, MyFileTextureEnum.COLOR_METAL, true));
RC.AllShaderStages.SetSrv(1, texManager.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_NormalTexture, MyFileTextureEnum.NORMALMAP_GLOSS, true));
}
RC.SetVertexBuffer(0, stream);
RC.DrawAuto();
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, IVertexBuffer stream, int voxelMatId)
{
if (stream == null) return;
var foliageType = MyVoxelMaterials1.Table[voxelMatId].FoliageType;
MyMapping mapping = MyMapping.MapDiscard(RC, proxy.ObjectBuffer);
mapping.WriteAndPosition(ref proxy.NonVoxelObjectData);
mapping.WriteAndPosition(ref proxy.CommonObjectData);
mapping.Unmap();
RC.AllShaderStages.SetConstantBuffer(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
RC.GeometryShader.Set(m_GS[foliageType]);
RC.PixelShader.Set(m_PS[foliageType]);
if (MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray != null)
{
RC.AllShaderStages.SetSrv(0, MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray);
RC.AllShaderStages.SetSrv(1, MyVoxelMaterials1.Table[voxelMatId].FoliageNormalTextureArray);
}
else
{
MyFileTextureManager texManager = MyManagers.FileTextures;
RC.AllShaderStages.SetSrv(0, texManager.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_Texture, MyFileTextureEnum.COLOR_METAL, true));
RC.AllShaderStages.SetSrv(1, texManager.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_NormalTexture, MyFileTextureEnum.NORMALMAP_GLOSS, true));
}
RC.SetVertexBuffer(0, stream);
RC.DrawAuto();
}
/// <returns>True if the section was found</returns>
private static bool RecordMeshSectionCommands(MeshId model, LodMeshId lodModelId,
MyRenderableComponent rendercomp, MyRenderLod renderLod,
MyOutlineDesc desc, ref OutlineConstantsLayout constants, ref float maxThickness)
{
MeshSectionId sectionId;
bool found = MyMeshes.TryGetMeshSection(model, rendercomp.CurrentLod, desc.SectionIndex, out sectionId);
if (!found)
{
return(false);
}
MyMeshSectionInfo1 section = sectionId.Info;
MyMeshSectionPartInfo1[] meshes = section.Meshes;
for (int idx = 0; idx < meshes.Length; idx++)
{
maxThickness = Math.Max(desc.Thickness, maxThickness);
constants.Color = desc.Color.ToVector4();
var mapping = MyMapping.MapDiscard(MyCommon.OutlineConstants);
mapping.WriteAndPosition(ref constants);
mapping.Unmap();
RC.BindShaders(renderLod.HighlightShaders[meshes[idx].PartIndex]);
MyRenderableProxy proxy = renderLod.RenderableProxies[meshes[idx].PartIndex];
MyOutlinePass.Instance.RecordCommands(proxy, meshes[idx].PartSubmeshIndex);
}
return(true);
}
protected unsafe override sealed void RecordCommandsInternal(MyRenderableProxy proxy, int section)
{
if ((proxy.Mesh.Buffers.IB == IndexBufferId.NULL && proxy.MergedMesh.Buffers.IB == IndexBufferId.NULL)
|| proxy.DrawSubmesh.IndexCount == 0
|| proxy.Flags.HasFlags(MyRenderableProxyFlags.SkipInMainView))
return;
++Stats.Meshes;
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
Debug.Assert(proxy.Shaders.VS != null);
RC.BindShaders(proxy.Shaders);
//#if DEBUG
if (MyRender11.Settings.Wireframe)
{
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
RC.SetRS(MyRender11.m_nocullWireframeRasterizerState);
else
RC.SetRS(MyRender11.m_wireframeRasterizerState);
}
else
{
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
RC.SetRS(MyRender11.m_nocullRasterizerState);
else
RC.SetRS(null);
}
//#endif
++Stats.Submeshes;
var submesh = proxy.DrawSubmesh;
if (submesh.MaterialId != Locals.matTexturesID)
{
++Stats.MaterialConstantsChanges;
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
RC.MoveConstants(ref material.MaterialConstants);
RC.SetConstants(ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
RC.SetSRVs(ref material.MaterialSRVs);
}
if (proxy.InstanceCount == 0)
{
RC.DeviceContext.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
++RC.Stats.DrawIndexed;
++Stats.Instances;
Stats.Triangles += submesh.IndexCount / 3;
}
else
{
//MyRender11.AddDebugQueueMessage("GbufferPass DrawIndexedInstanced " + proxy.Material.ToString());
RC.DeviceContext.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
++RC.Stats.DrawIndexedInstanced;
Stats.Instances += proxy.InstanceCount;
Stats.Triangles += proxy.InstanceCount * submesh.IndexCount / 3;
}
}
protected sealed override void RecordCommandsInternal(MyRenderableProxy proxy)
{
if (proxy.Mesh.Buffers == MyMeshBuffers.Empty)
{
return;
}
if (!IsProxyValidForDraw(proxy))
{
return;
}
Stats.Draws++;
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
Debug.Assert(proxy.DepthShaders.VS != null);
MyRenderUtils.BindShaderBundle(RC, proxy.DepthShaders);
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
{
RC.SetRasterizerState(MyRasterizerStateManager.NocullRasterizerState);
}
else
{
RC.SetRasterizerState(DefaultRasterizer);
}
var submesh = proxy.DrawSubmesh;
if (submesh.MaterialId != Locals.matTexturesID && (!((proxy.Flags & MyRenderableProxyFlags.DepthSkipTextures) > 0)))
{
Stats.MaterialConstantsChanges++;
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
MyRenderUtils.MoveConstants(RC, ref material.MaterialConstants);
MyRenderUtils.SetConstants(RC, ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
MyRenderUtils.SetSrvs(RC, ref material.MaterialSrvs);
}
if (proxy.InstanceCount == 0)
{
RC.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
++Stats.Instances;
Stats.Triangles += submesh.IndexCount / 3;
++MyStatsUpdater.Passes.DrawShadows;
}
else
{
//MyRender11.AddDebugQueueMessage("DepthPass DrawIndexedInstanced " + proxy.Material.ToString());
RC.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
Stats.Instances += proxy.InstanceCount;
Stats.Triangles += proxy.InstanceCount * submesh.IndexCount / 3;
MyStatsUpdater.Passes.DrawShadows++;
}
}
protected unsafe override sealed void RecordCommandsInternal(MyRenderableProxy proxy, int sectionmesh)
{
if ((proxy.Mesh.Buffers.IB == IndexBufferId.NULL && proxy.MergedMesh.Buffers.IB == IndexBufferId.NULL) ||
proxy.DrawSubmesh.IndexCount == 0)
{
return;
}
Stats.Meshes++;
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
{
RC.SetRS(MyRender11.m_nocullRasterizerState);
}
else
{
RC.SetRS(null);
}
Stats.Submeshes++;
MyDrawSubmesh submesh;
if (sectionmesh == -1)
{
submesh = proxy.DrawSubmesh;
}
else
{
submesh = proxy.SectionSubmeshes[sectionmesh];
}
if (submesh.MaterialId != Locals.matTexturesID)
{
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
RC.MoveConstants(ref material.MaterialConstants);
RC.SetConstants(ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
RC.SetSRVs(ref material.MaterialSRVs);
}
if (proxy.InstanceCount == 0 && submesh.IndexCount > 0)
{
RC.DeviceContext.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
RC.Stats.DrawIndexed++;
Stats.Instances++;
Stats.Triangles += submesh.IndexCount / 3;
}
else if (submesh.IndexCount > 0)
{
RC.DeviceContext.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
RC.Stats.DrawIndexedInstanced++;
Stats.Instances += proxy.InstanceCount;
Stats.Triangles += proxy.InstanceCount * submesh.IndexCount / 3;
}
}
protected void SetProxyConstants(MyRenderableProxy proxy)
{
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
FillBuffers(proxy, RC.DeviceContext);
++Stats.ObjectConstantsChanges;
}
protected void SetProxyConstants(MyRenderableProxy proxy)
{
RC.AllShaderStages.SetConstantBuffer(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
FillBuffers(proxy, RC);
++Stats.ObjectConstantsChanges;
}
internal static void AssignLodMeshToProxy(this MeshId meshId, MyRenderableProxy proxy)
{
Debug.Assert(proxy != null, "Proxy cannot be null!");
if (MyMeshes.IsMergedVoxelMesh(meshId))
proxy.MergedMesh = MyMeshes.GetMergedLodMesh(meshId, 0);
else
proxy.Mesh = MyMeshes.GetLodMesh(meshId, 0);
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, MyFoliageStream stream, int voxelMatId,
VertexShader vertexShader, InputLayout inputLayout,
int materialIndex, int indexCount, int startIndex, int baseVertex)
{
if (stream.m_stream == null)
{
return;
}
//var worldMatrix = proxy.WorldMatrix;
//worldMatrix.Translation = Vector3D.Zero;
//MyObjectData objectData = proxy.ObjectData;
//objectData.LocalMatrix = Matrix.Identity;
var worldMat = proxy.WorldMatrix;
//worldMat.Translation -= MyRender11.Environment.CameraPosition;
MyObjectDataCommon objectData = proxy.CommonObjectData;
objectData.LocalMatrix = worldMat;
MyMapping mapping = MyMapping.MapDiscard(RC, proxy.ObjectBuffer);
mapping.WriteAndPosition(ref proxy.VoxelCommonObjectData);
mapping.WriteAndPosition(ref objectData);
mapping.Unmap();
RC.AllShaderStages.SetConstantBuffer(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
BindProxyGeometry(proxy, RC);
RC.VertexShader.Set(vertexShader);
RC.SetInputLayout(inputLayout);
int offset = -1;
if (!stream.Append)
{
offset = 0;
stream.Append = true;
}
RC.SetTarget(stream.m_stream, offset);
RC.AllShaderStages.SetConstantBuffer(MyCommon.FOLIAGE_SLOT, MyCommon.FoliageConstants);
float densityFactor = MyVoxelMaterials1.Table[voxelMatId].FoliageDensity * MyRender11.Settings.GrassDensityFactor;
float zero = 0;
mapping = MyMapping.MapDiscard(RC, MyCommon.FoliageConstants);
mapping.WriteAndPosition(ref densityFactor);
mapping.WriteAndPosition(ref materialIndex);
mapping.WriteAndPosition(ref voxelMatId);
mapping.WriteAndPosition(ref zero);
mapping.Unmap();
RC.DrawIndexed(indexCount, startIndex, baseVertex);
}
protected sealed override void RecordCommandsInternal(MyRenderableProxy proxy, int section)
{
if ((proxy.Mesh.Buffers == MyMeshBuffers.Empty && proxy.MergedMesh.Buffers == MyMeshBuffers.Empty))
{
return;
}
if (!IsProxyValidForDraw(proxy))
{
return;
}
Stats.Meshes++;
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
Debug.Assert(proxy.DepthShaders.VS != null);
RC.BindShaders(proxy.DepthShaders);
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
{
RC.SetRS(MyRender11.m_nocullRasterizerState);
}
else
{
RC.SetRS(DefaultRasterizer);
}
var submesh = proxy.DrawSubmesh;
if (submesh.MaterialId != Locals.matTexturesID && (!((proxy.Flags & MyRenderableProxyFlags.DepthSkipTextures) > 0)))
{
Stats.MaterialConstantsChanges++;
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
RC.MoveConstants(ref material.MaterialConstants);
RC.SetConstants(ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
RC.SetSRVs(ref material.MaterialSRVs);
}
if (proxy.InstanceCount == 0)
{
RC.DeviceContext.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
++Stats.Instances;
++RC.Stats.ShadowDrawIndexed;
}
else
{
//MyRender11.AddDebugQueueMessage("DepthPass DrawIndexedInstanced " + proxy.Material.ToString());
RC.DeviceContext.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
Stats.Instances += proxy.InstanceCount;
++RC.Stats.ShadowDrawIndexedInstanced;
}
}
internal unsafe void SetProxyConstants(MyRenderableProxy proxy)
{
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
MyMapping mapping;
bool constantsChange = true;
fixed(void *ptr0 = &Locals.objectData)
{
fixed(void *ptr1 = &proxy.ObjectData)
{
constantsChange = !SharpDX.Utilities.CompareMemory(new IntPtr(ptr0), new IntPtr(ptr1), sizeof(MyObjectData));
}
}
if (!constantsChange &&
proxy.SkinningMatrices == null &&
Locals.objectBuffer == proxy.ObjectBuffer)
{
}
else
{
Locals.objectData = proxy.ObjectData;
Locals.objectBuffer = proxy.ObjectBuffer;
MyObjectData objectData = proxy.ObjectData;
//objectData.Translate(-MyEnvironment.CameraPosition);
mapping = MyMapping.MapDiscard(RC.Context, proxy.ObjectBuffer);
void *ptr = &objectData;
mapping.stream.Write(new IntPtr(ptr), 0, sizeof(MyObjectData));
if (proxy.SkinningMatrices != null)
{
if (proxy.DrawSubmesh.BonesMapping == null)
{
for (int j = 0; j < Math.Min(MyRender11Constants.SHADER_MAX_BONES, proxy.SkinningMatrices.Length); j++)
{
mapping.stream.Write(Matrix.Transpose(proxy.SkinningMatrices[j]));
}
}
else
{
for (int j = 0; j < proxy.DrawSubmesh.BonesMapping.Length; j++)
{
mapping.stream.Write(Matrix.Transpose(proxy.SkinningMatrices[proxy.DrawSubmesh.BonesMapping[j]]));
}
}
}
mapping.Unmap();
Stats.ObjectConstantsChanges++;
}
}
protected unsafe override sealed void RecordCommandsInternal(MyRenderableProxy proxy, int section)
{
if ((proxy.Mesh.Buffers.IB == IndexBufferId.NULL && proxy.MergedMesh.Buffers.IB == IndexBufferId.NULL) ||
proxy.DrawSubmesh.IndexCount == 0 ||
(proxy.DrawSubmesh.Flags & MyDrawSubmesh.MySubmeshFlags.Forward) == 0)
{
return;
}
++Stats.Meshes;
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
Debug.Assert(proxy.ForwardShaders.VS != null);
RC.BindShaders(proxy.ForwardShaders);
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
{
RC.SetRS(MyRender11.m_nocullRasterizerState);
}
else
{
RC.SetRS(null);
}
++Stats.Submeshes;
var submesh = proxy.DrawSubmesh;
if (submesh.MaterialId != Locals.matTexturesID)
{
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
RC.MoveConstants(ref material.MaterialConstants);
RC.SetConstants(ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
RC.SetSRVs(ref material.MaterialSRVs);
}
if (proxy.InstanceCount == 0 && submesh.IndexCount > 0)
{
RC.DeviceContext.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
RC.Stats.DrawIndexed++;
Stats.Instances++;
Stats.Triangles += submesh.IndexCount / 3;
}
else if (submesh.IndexCount > 0)
{
//MyRender11.AddDebugQueueMessage("ForwardPass DrawIndexedInstanced " + proxy.Material.ToString());
RC.DeviceContext.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
RC.Stats.DrawIndexedInstanced++;
Stats.Instances += proxy.InstanceCount;
Stats.Triangles += proxy.InstanceCount * submesh.IndexCount / 3;
}
}
protected unsafe sealed override void RecordCommandsInternal(MyRenderableProxy proxy)
{
if (proxy.Material.Info.GeometryTextureRef.IsUsed)
{
MyRenderProxy.Fail(String.Format("Ensure all glass materials for model '{0}' are dynamic materials inside Environment.sbc", proxy.Mesh.Info.Name));
return;
}
MyTransparentMaterial material;
if (!MyTransparentMaterials.TryGetMaterial(proxy.Material.Info.Name.String, out material))
{
MyRenderProxy.Fail(String.Format("Missing transparent material '{0}'", proxy.Material.Info.Name));
return;
}
Stats.Draws++;
MyRenderUtils.BindShaderBundle(RC, proxy.Shaders);
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
ISrvBindable texture = MyManagers.FileTextures.GetTexture(material.Texture, MyFileTextureEnum.GUI, true);
RC.PixelShader.SetSrv(0, texture);
StaticGlassConstants glassConstants = new StaticGlassConstants();
var glassCB = MyCommon.GetObjectCB(sizeof(StaticGlassConstants));
RC.PixelShader.SetConstantBuffer(2, glassCB);
var mapping = MyMapping.MapDiscard(glassCB);
glassConstants.Color = material.Color;
glassConstants.Reflective = material.Reflectivity;
mapping.WriteAndPosition(ref glassConstants);
mapping.Unmap();
var submesh = proxy.DrawSubmesh;
if (proxy.InstanceCount == 0)
{
RC.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
++Stats.Instances;
Stats.Triangles += submesh.IndexCount / 3;
}
else
{
RC.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
Stats.Instances += proxy.InstanceCount;
Stats.Triangles += proxy.InstanceCount * submesh.IndexCount / 3;
}
}
private void AssignLodMeshToProxy(MeshId mesh, MyRenderableProxy proxy)
{
if (MyMeshes.IsMergedVoxelMesh(mesh))
{
proxy.MergedMesh = MyMeshes.GetMergedLodMesh(mesh, 0);
}
else
{
proxy.Mesh = MyMeshes.GetLodMesh(mesh, 0);
}
}
internal void RecordCommands(MyRenderableProxy proxy)
{
bool draw = true;
FilterRenderable(proxy, ref draw);
if (!draw)
{
return;
}
RecordCommandsInternal(proxy);
}
public void RecordCommands(MyRenderableProxy proxy, int sectionmesh, int inctanceId)
{
if ((proxy.Mesh.Buffers.IB == IndexBufferId.NULL && proxy.MergedMesh.Buffers.IB == IndexBufferId.NULL)
|| proxy.DrawSubmesh.IndexCount == 0)
{
return;
}
Stats.Meshes++;
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
RC.SetRS(MyRender11.m_nocullRasterizerState);
else
RC.SetRS(null);
Stats.Submeshes++;
MyDrawSubmesh submesh;
if (sectionmesh == -1)
submesh = proxy.DrawSubmesh;
else
submesh = proxy.SectionSubmeshes[sectionmesh];
if (submesh.MaterialId != Locals.matTexturesID)
{
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
RC.MoveConstants(ref material.MaterialConstants);
RC.SetConstants(ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
RC.SetSRVs(ref material.MaterialSRVs);
}
if (proxy.InstanceCount == 0 && submesh.IndexCount > 0)
{
RC.DeviceContext.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
RC.Stats.DrawIndexed++;
Stats.Instances++;
Stats.Triangles += submesh.IndexCount / 3;
}
else if (submesh.IndexCount > 0)
{
if (inctanceId >= 0)
RC.DeviceContext.DrawIndexedInstanced(submesh.IndexCount, 1, submesh.StartIndex, submesh.BaseVertex, inctanceId);
else
RC.DeviceContext.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
RC.Stats.DrawIndexedInstanced++;
Stats.Instances += proxy.InstanceCount;
Stats.Triangles += proxy.InstanceCount * submesh.IndexCount / 3;
}
}
internal static void AssignLodMeshToProxy(this MeshId meshId, MyRenderableProxy proxy)
{
Debug.Assert(proxy != null, "Proxy cannot be null!");
if (MyMeshes.IsMergedVoxelMesh(meshId))
{
proxy.MergedMesh = MyMeshes.GetMergedLodMesh(meshId, 0);
}
else
{
proxy.Mesh = MyMeshes.GetLodMesh(meshId, 0);
}
}
protected sealed override unsafe void RecordCommandsInternal(MyRenderableProxy proxy)
{
if (proxy.Mesh.Buffers.IB == null ||
proxy.DrawSubmesh.IndexCount == 0 ||
(proxy.DrawSubmesh.Flags & MyDrawSubmesh.MySubmeshFlags.Forward) == 0)
{
return;
}
++Stats.Draws;
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
Debug.Assert(proxy.ForwardShaders.VS != null);
MyRenderUtils.BindShaderBundle(RC, proxy.ForwardShaders);
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
{
RC.SetRasterizerState(MyRasterizerStateManager.NocullRasterizerState);
}
else
{
RC.SetRasterizerState(null);
}
var submesh = proxy.DrawSubmesh;
if (submesh.MaterialId != Locals.matTexturesID)
{
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
MyRenderUtils.MoveConstants(RC, ref material.MaterialConstants);
MyRenderUtils.SetConstants(RC, ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
MyRenderUtils.SetSrvs(RC, ref material.MaterialSrvs);
}
if (proxy.InstanceCount == 0 && submesh.IndexCount > 0)
{
RC.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
Stats.Instances++;
Stats.Triangles += submesh.IndexCount / 3;
}
else if (submesh.IndexCount > 0)
{
//MyRender11.AddDebugQueueMessage("ForwardPass DrawIndexedInstanced " + proxy.Material.ToString());
RC.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
Stats.Instances += proxy.InstanceCount;
Stats.Triangles += proxy.InstanceCount * submesh.IndexCount / 3;
}
}
internal static void BindProxyGeometry(MyRenderableProxy proxy, MyRenderContext rc)
{
MyMeshBuffers buffers = proxy.Mesh.Buffers;
rc.SetVertexBuffer(0, buffers.VB0);
rc.SetVertexBuffer(1, buffers.VB1);
if (proxy.InstancingEnabled && proxy.Instancing.VB != null)
{
rc.SetVertexBuffer(2, proxy.Instancing.VB);
}
rc.SetIndexBuffer(buffers.IB);
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, MyFoliageStream stream, int voxelMatId,
VertexShader vertexShader, InputLayout inputLayout,
int materialIndex, int indexCount, int startIndex, int baseVertex)
{
//var worldMatrix = proxy.WorldMatrix;
//worldMatrix.Translation = Vector3D.Zero;
//MyObjectData objectData = proxy.ObjectData;
//objectData.LocalMatrix = Matrix.Identity;
var worldMat = proxy.WorldMatrix;
//worldMat.Translation -= MyEnvironment.CameraPosition;
MyObjectData objectData = proxy.ObjectData;
objectData.LocalMatrix = worldMat;
MyMapping mapping;
mapping = MyMapping.MapDiscard(RC.Context, proxy.objectBuffer);
void *ptr = &objectData;
mapping.stream.Write(new IntPtr(ptr), 0, sizeof(MyObjectData));
mapping.Unmap();
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.objectBuffer);
BindProxyGeometry(proxy);
RC.SetVS(vertexShader);
RC.SetIL(inputLayout);
if (!stream.m_append)
{
Context.StreamOutput.SetTarget(stream.m_stream.Buffer, 0);
stream.m_append = true;
}
else
{
Context.StreamOutput.SetTarget(stream.m_stream.Buffer, -1);
}
RC.SetCB(MyCommon.FOLIAGE_SLOT, MyCommon.FoliageConstants);
mapping = MyMapping.MapDiscard(Context, MyCommon.FoliageConstants);
mapping.stream.Write(MyVoxelMaterials1.Table[voxelMatId].FoliageDensity);
mapping.stream.Write((uint)materialIndex);
mapping.stream.Write((uint)voxelMatId);
mapping.Unmap();
Context.DrawIndexed(indexCount, startIndex, baseVertex);
}
protected unsafe override sealed void RecordCommandsInternal(MyRenderableProxy proxy)
{
if ((proxy.Mesh.Buffers.IB == IndexBufferId.NULL && proxy.MergedMesh.Buffers.IB == IndexBufferId.NULL) ||
proxy.DrawSubmesh.IndexCount == 0 ||
(proxy.DrawSubmesh.Flags & MyDrawSubmesh.MySubmeshFlags.Forward) == 0)
{
return;
}
++Stats.Meshes;
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
Debug.Assert(proxy.ForwardShaders.VS != null);
RC.BindShaders(proxy.ForwardShaders);
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
RC.SetRS(MyRender11.m_nocullRasterizerState);
else
RC.SetRS(null);
++Stats.Submeshes;
var submesh = proxy.DrawSubmesh;
if (submesh.MaterialId != Locals.matTexturesID)
{
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
RC.MoveConstants(ref material.MaterialConstants);
RC.SetConstants(ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
RC.SetSRVs(ref material.MaterialSRVs);
}
if (proxy.InstanceCount == 0 && submesh.IndexCount > 0)
{
RC.DeviceContext.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
RC.Stats.DrawIndexed++;
Stats.Instances++;
Stats.Triangles += submesh.IndexCount / 3;
}
else if (submesh.IndexCount > 0)
{
//MyRender11.AddDebugQueueMessage("ForwardPass DrawIndexedInstanced " + proxy.Material.ToString());
RC.DeviceContext.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
RC.Stats.DrawIndexedInstanced++;
Stats.Instances += proxy.InstanceCount;
Stats.Triangles += proxy.InstanceCount * submesh.IndexCount / 3;
}
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, MyFoliageStream stream, int voxelMatId,
VertexShader vertexShader, InputLayout inputLayout,
int materialIndex, int indexCount, int startIndex, int baseVertex)
{
if (stream.m_stream == VertexBufferId.NULL) return;
//var worldMatrix = proxy.WorldMatrix;
//worldMatrix.Translation = Vector3D.Zero;
//MyObjectData objectData = proxy.ObjectData;
//objectData.LocalMatrix = Matrix.Identity;
var worldMat = proxy.WorldMatrix;
//worldMat.Translation -= MyRender11.Environment.CameraPosition;
MyObjectDataCommon objectData = proxy.CommonObjectData;
objectData.LocalMatrix = worldMat;
MyMapping mapping = MyMapping.MapDiscard(RC, proxy.ObjectBuffer);
mapping.WriteAndPosition(ref proxy.VoxelCommonObjectData);
mapping.WriteAndPosition(ref objectData);
mapping.Unmap();
RC.AllShaderStages.SetConstantBuffer(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
BindProxyGeometry(proxy, RC);
RC.VertexShader.Set(vertexShader);
RC.SetInputLayout(inputLayout);
int offset = -1;
if (!stream.Append)
{
offset = 0;
stream.Append = true;
}
RC.SetTarget(stream.m_stream.Buffer, offset);
RC.AllShaderStages.SetConstantBuffer(MyCommon.FOLIAGE_SLOT, MyCommon.FoliageConstants);
float densityFactor = MyVoxelMaterials1.Table[voxelMatId].FoliageDensity * MyRender11.Settings.GrassDensityFactor;
float zero = 0;
mapping = MyMapping.MapDiscard(RC, MyCommon.FoliageConstants);
mapping.WriteAndPosition(ref densityFactor);
mapping.WriteAndPosition(ref materialIndex);
mapping.WriteAndPosition(ref voxelMatId);
mapping.WriteAndPosition(ref zero);
mapping.Unmap();
RC.DrawIndexed(indexCount, startIndex, baseVertex);
}
protected sealed override void RecordCommandsInternal(MyRenderableProxy proxy, int section)
{
if ((proxy.Mesh.Buffers == MyMeshBuffers.Empty && proxy.MergedMesh.Buffers == MyMeshBuffers.Empty))
{
return;
}
if (!IsProxyValidForDraw(proxy))
return;
Stats.Meshes++;
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
Debug.Assert(proxy.DepthShaders.VS != null);
RC.BindShaders(proxy.DepthShaders);
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
RC.SetRS(MyRender11.m_nocullRasterizerState);
else
RC.SetRS(DefaultRasterizer);
var submesh = proxy.DrawSubmesh;
if (submesh.MaterialId != Locals.matTexturesID && (!((proxy.Flags & MyRenderableProxyFlags.DepthSkipTextures) > 0)))
{
Stats.MaterialConstantsChanges++;
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
RC.MoveConstants(ref material.MaterialConstants);
RC.SetConstants(ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
RC.SetSRVs(ref material.MaterialSRVs);
}
if (proxy.InstanceCount == 0)
{
RC.DeviceContext.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
++Stats.Instances;
++RC.Stats.ShadowDrawIndexed;
}
else
{
//MyRender11.AddDebugQueueMessage("DepthPass DrawIndexedInstanced " + proxy.Material.ToString());
RC.DeviceContext.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
Stats.Instances += proxy.InstanceCount;
++RC.Stats.ShadowDrawIndexedInstanced;
}
}
public void RecordCommandsDepthOnly(MyRenderableProxy proxy)
{
Stats.Draws++;
MyRenderUtils.BindShaderBundle(RC, proxy.Shaders);
RC.PixelShader.Set(m_psDepthOnly);
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
var submesh = proxy.DrawSubmesh;
RC.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
++Stats.Instances;
}
internal void BindProxyGeometry(MyRenderableProxy proxy)
{
//RC.SetVBs(proxy.geometry.VB, proxy.geometry.VertexStrides);
//RC.SetIB(proxy.geometry.IB, proxy.geometry.IndexFormat);
//RC.SetVB()
var buffers = proxy.Mesh.Buffers;
Context.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(buffers.VB0.Buffer, buffers.VB0.Stride, 0), new VertexBufferBinding(buffers.VB1.Buffer, buffers.VB1.Stride, 0));
if (proxy.InstancingEnabled)
{
Context.InputAssembler.SetVertexBuffers(2, new VertexBufferBinding(proxy.Instancing.VB.Buffer, proxy.Instancing.VB.Stride, 0));
}
RC.SetIB(buffers.IB.Buffer, buffers.IB.Format);
}
/// <returns>Actor full mesh indices count</returns>
private void UpdateActorSubmeshes(ref MyRenderableProxy_2 proxy, MyActor actor, int actorIndex, int indexOffset)
{
MyRenderableComponent component = actor.GetRenderable();
MyRenderableProxy proxy1 = component.Lods[0].RenderableProxies[0];
MyDrawSubmesh_2 sectionSubmesh = proxy.Submeshes[0];
MyDrawSubmesh_2[] sectionSubmeshes = new MyDrawSubmesh_2[proxy1.SectionSubmeshes.Length];
proxy.SectionSubmeshes[actorIndex] = sectionSubmeshes;
for (int it = 0; it < proxy1.SectionSubmeshes.Length; it++)
{
MyDrawSubmesh sectionSubmesh1 = proxy1.SectionSubmeshes[it];
sectionSubmesh.Count = sectionSubmesh1.IndexCount;
sectionSubmesh.Start = indexOffset + sectionSubmesh1.StartIndex;
sectionSubmeshes[it] = sectionSubmesh;
}
}
/// <returns>True if the section was found</returns>
private static void RecordMeshSectionCommands(MeshId model, LodMeshId lodModelId,
MyRenderableComponent rendercomp, MyRenderLod renderLod,
MyOutlineDesc desc, ref float maxThickness)
{
MeshSectionId sectionId;
bool found = MyMeshes.TryGetMeshSection(model, rendercomp.CurrentLod, desc.SectionIndex, out sectionId);
if (!found)
{
return;
}
OutlineConstantsLayout constants = new OutlineConstantsLayout();
MyMeshSectionInfo1 section = sectionId.Info;
MyMeshSectionPartInfo1[] meshes = section.Meshes;
for (int idx = 0; idx < meshes.Length; idx++)
{
MyMeshSectionPartInfo1 sectionInfo = meshes[idx];
if (renderLod.RenderableProxies.Length <= sectionInfo.PartIndex)
{
DebugRecordMeshPartCommands(model, desc.SectionIndex, rendercomp, renderLod, meshes, idx);
return;
}
maxThickness = Math.Max(desc.Thickness, maxThickness);
constants.Color = desc.Color.ToVector4();
if (desc.PulseTimeInFrames > 0)
{
constants.Color.W *= (float)Math.Pow((float)Math.Cos(2.0 * Math.PI * (float)MyRender11.Settings.GameplayFrame / (float)desc.PulseTimeInFrames), 2.0);
}
var mapping = MyMapping.MapDiscard(MyCommon.OutlineConstants);
mapping.WriteAndPosition(ref constants);
mapping.Unmap();
RC.BindShaders(renderLod.HighlightShaders[sectionInfo.PartIndex]);
MyRenderableProxy proxy = renderLod.RenderableProxies[sectionInfo.PartIndex];
MyOutlinePass.Instance.RecordCommands(proxy, sectionInfo.PartSubmeshIndex, desc.InstanceId);
}
return;
}
protected unsafe sealed override void RecordCommandsInternal(MyRenderableProxy proxy)
{
if (proxy.Material.Info.GeometryTextureRef.IsUsed)
{
MyRenderProxy.Fail(String.Format("Ensure all glass materials for model '{0}' are dynamic materials inside Environment.sbc", proxy.Mesh.Info.Name));
return;
}
MyTransparentMaterial material;
if (!MyTransparentMaterials.TryGetMaterial(proxy.Material.Info.Name.String, out material))
{
MyRenderProxy.Fail(String.Format("Missing transparent material '{0}'", proxy.Material.Info.Name));
return;
}
Stats.Draws++;
MyRenderUtils.BindShaderBundle(RC, proxy.Shaders);
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
ISrvBindable texture = MyManagers.FileTextures.GetTexture(material.Texture, MyFileTextureEnum.GUI, true);
RC.PixelShader.SetSrv(0, texture);
StaticGlassConstants glassConstants = new StaticGlassConstants();
var glassCB = MyCommon.GetObjectCB(sizeof(StaticGlassConstants));
RC.PixelShader.SetConstantBuffer(2, glassCB);
var mapping = MyMapping.MapDiscard(glassCB);
glassConstants.Color = material.Color;
glassConstants.Reflective = material.Reflectivity;
mapping.WriteAndPosition(ref glassConstants);
mapping.Unmap();
var submesh = proxy.DrawSubmesh;
RC.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
++Stats.Instances;
}
internal static void BindProxyGeometry(MyRenderableProxy proxy, MyRenderContext renderContext)
{
MyMeshBuffers buffers;
if (proxy.Mesh != LodMeshId.NULL)
{
buffers = proxy.Mesh.Buffers;
}
else
{
buffers = proxy.MergedMesh.Buffers;
}
bool firstChanged = renderContext.UpdateVB(0, buffers.VB0.Buffer, buffers.VB0.Stride);
bool secondChanged = renderContext.UpdateVB(1, buffers.VB1.Buffer, buffers.VB1.Stride);
if (firstChanged && secondChanged)
{
renderContext.DeviceContext.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(buffers.VB0.Buffer, buffers.VB0.Stride, 0));
renderContext.DeviceContext.InputAssembler.SetVertexBuffers(1, new VertexBufferBinding(buffers.VB1.Buffer, buffers.VB1.Stride, 0));
renderContext.Stats.SetVB++;
}
else if (firstChanged)
{
renderContext.DeviceContext.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(buffers.VB0.Buffer, buffers.VB0.Stride, 0));
renderContext.Stats.SetVB++;
}
else if (secondChanged)
{
renderContext.DeviceContext.InputAssembler.SetVertexBuffers(1, new VertexBufferBinding(buffers.VB1.Buffer, buffers.VB1.Stride, 0));
renderContext.Stats.SetVB++;
}
if (proxy.InstancingEnabled && proxy.Instancing.VB.Index != -1)
{
renderContext.DeviceContext.InputAssembler.SetVertexBuffers(2, new VertexBufferBinding(proxy.Instancing.VB.Buffer, proxy.Instancing.VB.Stride, 0));
renderContext.Stats.SetVB++;
}
renderContext.SetIB(buffers.IB.Buffer, buffers.IB.Format);
}
internal static void BindProxyGeometry(MyRenderableProxy proxy, MyRenderContext rc)
{
MyMeshBuffers buffers;
if (proxy.Mesh != LodMeshId.NULL)
{
buffers = proxy.Mesh.Buffers;
}
else
{
buffers = proxy.MergedMesh.Buffers;
}
rc.SetVertexBuffer(0, buffers.VB0.Buffer, buffers.VB0.Stride);
rc.SetVertexBuffer(1, buffers.VB1.Buffer, buffers.VB1.Stride);
if (proxy.InstancingEnabled && proxy.Instancing.VB.Index != -1)
{
rc.SetVertexBuffer(2, proxy.Instancing.VB.Buffer, proxy.Instancing.VB.Stride);
}
rc.SetIndexBuffer(buffers.IB.Buffer, buffers.IB.Format);
}
void FilterRenderable(MyRenderableProxy proxy, ref bool draw)
{
if (proxy.Material == MyMeshMaterialId.NULL)
{
if (proxy.VoxelCommonObjectData.IsValid)
{
draw &= MyRender11.Settings.DrawVoxels;
}
return;
}
switch (proxy.Material.Info.Technique)
{
case MyMeshDrawTechnique.MESH:
{
if (proxy.InstanceCount == 0)
{
draw &= MyRender11.Settings.DrawMeshes;
}
else
{
draw &= MyRender11.Settings.DrawInstancedMeshes;
}
break;
}
case MyMeshDrawTechnique.ALPHA_MASKED:
{
draw &= MyRender11.Settings.DrawAlphamasked;
if (proxy.Material.Info.Facing == MyFacingEnum.Impostor)
{
draw &= MyRender11.Settings.DrawImpostors;
}
break;
}
}
}
internal static void BindProxyGeometry(MyRenderableProxy proxy, MyRenderContext rc)
{
MyMeshBuffers buffers;
if(proxy.Mesh != LodMeshId.NULL)
buffers = proxy.Mesh.Buffers;
else
buffers = proxy.MergedMesh.Buffers;
rc.SetVertexBuffer(0, buffers.VB0);
rc.SetVertexBuffer(1, buffers.VB1);
if (proxy.InstancingEnabled && proxy.Instancing.VB != null)
{
rc.SetVertexBuffer(2, proxy.Instancing.VB);
}
rc.SetIndexBuffer(buffers.IB);
}
internal void AddInstanceLod(InstancingId id, int index, MyRenderableProxy[][] newProxies, ulong[][] newSortingKeys, BoundingBoxD aabb)
{
VRageRender.MyRenderProxy.GetRenderProfiler().StartProfilingBlock("AddInstanceLod");
if (!SetDelta(id, index, -0.1f))
{
MyInstanceLodId key = new MyInstanceLodId { Id = id, InstanceIndex = index };
MySingleInstance instance = new MySingleInstance();
instance.Lods = new MySingleInstanceLod[newProxies.Length];
for (int i = 0; i < newProxies.Length; i++)
{
MySingleInstanceLod lod = new MySingleInstanceLod();
lod.RenderableProxies = newProxies[i];
lod.SortingKeys = newSortingKeys[i];
if (i < newProxies.Length - 1)
{
lod.RenderableProxiesForLodTransition = new MyRenderableProxy[newProxies[i].Length + newProxies[i + 1].Length];
for (int j = 0; j < newProxies[i].Length; j++)
{
lod.RenderableProxiesForLodTransition[j] = newProxies[i][j];
}
for (int j = 0; j < newProxies[i + 1].Length; j++)
{
lod.RenderableProxiesForLodTransition[j + newProxies[i].Length] = newProxies[i + 1][j];
}
lod.SortingKeysForLodTransition = new ulong[newSortingKeys[i].Length + newSortingKeys[i + 1].Length];
for (int j = 0; j < newSortingKeys[i].Length; j++)
{
lod.SortingKeysForLodTransition[j] = newSortingKeys[i][j];
}
for (int j = 0; j < newSortingKeys[i + 1].Length; j++)
{
lod.SortingKeysForLodTransition[j + newSortingKeys[i].Length] = newSortingKeys[i + 1][j];
}
}
instance.Lods[i] = lod;
}
instance.CurrentLod = 0;
instance.CullProxy = MyProxiesFactory.CreateCullProxy();
instance.BtreeProxy = MyScene.RenderablesDBVH.AddProxy(ref aabb, instance.CullProxy, 0);
m_instances.Add(key, instance);
instance.IsDirty = true;
}
VRageRender.MyRenderProxy.GetRenderProfiler().EndProfilingBlock();
}
public static void Clear(MyRenderableProxy renderableProxy)
{
renderableProxy.Clear();
}
internal void BindProxyGeometry(MyRenderableProxy proxy)
{
//RC.SetVBs(proxy.geometry.VB, proxy.geometry.VertexStrides);
//RC.SetIB(proxy.geometry.IB, proxy.geometry.IndexFormat);
//RC.SetVB()
var buffers = proxy.Mesh.Buffers;
Context.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(buffers.VB0.Buffer, buffers.VB0.Stride, 0), new VertexBufferBinding(buffers.VB1.Buffer, buffers.VB1.Stride, 0));
if (proxy.InstancingEnabled)
{
Context.InputAssembler.SetVertexBuffers(2, new VertexBufferBinding(proxy.Instancing.VB.Buffer, proxy.Instancing.VB.Stride, 0));
}
RC.SetIB(buffers.IB.Buffer, buffers.IB.Format);
}
internal static void BindProxyGeometry(MyRenderableProxy proxy, MyRenderContext renderContext)
{
MyMeshBuffers buffers;
if(proxy.Mesh != LodMeshId.NULL)
buffers = proxy.Mesh.Buffers;
else
buffers = proxy.MergedMesh.Buffers;
bool firstChanged = renderContext.UpdateVB(0, buffers.VB0.Buffer, buffers.VB0.Stride);
bool secondChanged = renderContext.UpdateVB(1, buffers.VB1.Buffer, buffers.VB1.Stride);
if (firstChanged && secondChanged)
{
renderContext.DeviceContext.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(buffers.VB0.Buffer, buffers.VB0.Stride, 0));
renderContext.DeviceContext.InputAssembler.SetVertexBuffers(1, new VertexBufferBinding(buffers.VB1.Buffer, buffers.VB1.Stride, 0));
renderContext.Stats.SetVB++;
}
else if (firstChanged)
{
renderContext.DeviceContext.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(buffers.VB0.Buffer, buffers.VB0.Stride, 0));
renderContext.Stats.SetVB++;
}
else if (secondChanged)
{
renderContext.DeviceContext.InputAssembler.SetVertexBuffers(1, new VertexBufferBinding(buffers.VB1.Buffer, buffers.VB1.Stride, 0));
renderContext.Stats.SetVB++;
}
if (proxy.InstancingEnabled && proxy.Instancing.VB.Index != -1)
{
renderContext.DeviceContext.InputAssembler.SetVertexBuffers(2, new VertexBufferBinding(proxy.Instancing.VB.Buffer, proxy.Instancing.VB.Stride, 0));
renderContext.Stats.SetVB++;
}
renderContext.SetIB(buffers.IB.Buffer, buffers.IB.Format);
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, VertexBufferId stream, int voxelMatId)
{
MyObjectData objectData = proxy.ObjectData;
var foliageType = MyVoxelMaterials1.Table[voxelMatId].FoliageType;
MyMapping mapping;
mapping = MyMapping.MapDiscard(RC.Context, proxy.ObjectBuffer);
void* ptr = &objectData;
mapping.stream.Write(new IntPtr(ptr), 0, sizeof(MyObjectData));
mapping.Unmap();
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
RC.SetGS(m_GS[foliageType]);
RC.SetPS(m_PS[foliageType]);
if (MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray != null)
{
RC.BindRawSRV(0, MyVoxelMaterials1.Table[voxelMatId].FoliageColorTextureArray.ShaderView);
RC.BindRawSRV(1, MyVoxelMaterials1.Table[voxelMatId].FoliageNormalTextureArray.ShaderView);
}
else
{
RC.BindRawSRV(0, MyTextures.GetView(MyTextures.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_Texture, MyTextureEnum.COLOR_METAL, true)));
RC.BindRawSRV(1, MyTextures.GetView(MyTextures.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_NormalTexture, MyTextureEnum.NORMALMAP_GLOSS, true)));
}
RC.SetVB(0, stream.Buffer, stream.Stride);
Context.DrawAuto();
RC.Stats.DrawAuto++;
}
internal unsafe override sealed void RecordCommands(MyRenderableProxy proxy)
{
if (proxy.Mesh.Buffers.IB == IndexBufferId.NULL || proxy.DrawSubmesh.IndexCount == 0 || proxy.SkipIfTooSmall())
{
return;
}
Stats.Meshes++;
SetProxyConstants(proxy);
BindProxyGeometry(proxy);
Debug.Assert(proxy.DepthShaders.VS != null);
RC.BindShaders(proxy.DepthShaders);
if ((proxy.Flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
RC.SetRS(MyRender11.m_nocullRasterizerState);
else
RC.SetRS(DefaultRasterizer);
//for (int i = 0; i < proxy.depthOnlySubmeshes.Length; i++)
//{
// Stats.Submeshes++;
// var submesh = proxy.depthOnlySubmeshes[i];
var submesh = proxy.DrawSubmesh;
if (submesh.MaterialId != Locals.matTexturesID && (!((proxy.Flags & MyRenderableProxyFlags.DepthSkipTextures) > 0)))
{
Stats.MaterialConstantsChanges++;
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
RC.MoveConstants(ref material.MaterialConstants);
RC.SetConstants(ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
RC.SetSRVs(ref material.MaterialSRVs);
}
if (proxy.SkinningMatrices != null)
{
Stats.ObjectConstantsChanges++;
MyObjectData objectData = proxy.ObjectData;
//objectData.Translate(-MyEnvironment.CameraPosition);
MyMapping mapping;
mapping = MyMapping.MapDiscard(RC.Context, proxy.ObjectBuffer);
void* ptr = &objectData;
mapping.stream.Write(new IntPtr(ptr), 0, sizeof(MyObjectData));
if (proxy.SkinningMatrices != null)
{
if (submesh.BonesMapping == null)
{
for (int j = 0; j < Math.Min(MyRender11Constants.SHADER_MAX_BONES, proxy.SkinningMatrices.Length); j++)
{
mapping.stream.Write(Matrix.Transpose(proxy.SkinningMatrices[j]));
}
}
else
{
for (int j = 0; j < submesh.BonesMapping.Length; j++)
{
mapping.stream.Write(Matrix.Transpose(proxy.SkinningMatrices[submesh.BonesMapping[j]]));
}
}
}
mapping.Unmap();
}
if (proxy.InstanceCount == 0) {
RC.Context.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
RC.Stats.DrawIndexed++;
Stats.Instances++;
Stats.Triangles += submesh.IndexCount / 3;
}
else {
RC.Context.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
RC.Stats.DrawIndexedInstanced++;
Stats.Instances += proxy.InstanceCount;
Stats.Triangles += proxy.InstanceCount * submesh.IndexCount / 3;
}
//}
}
internal void RecordCommands(MyRenderableProxy proxy)
{
RecordCommandsInternal(proxy);
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, VertexBufferId stream, int voxelMatId)
{
var worldMatrix = Matrix.CreateTranslation(-MyEnvironment.CameraPosition);
MyObjectData objectData = proxy.ObjectData;
objectData.LocalMatrix = worldMatrix;
MyMapping mapping;
mapping = MyMapping.MapDiscard(RC.Context, proxy.objectBuffer);
void* ptr = &objectData;
mapping.stream.Write(new IntPtr(ptr), 0, sizeof(MyObjectData));
mapping.Unmap();
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.objectBuffer);
RC.BindRawSRV(0, MyTextures.GetView(MyTextures.GetTexture(MyVoxelMaterials1.Table[voxelMatId].FoliageArray_Texture, MyTextureEnum.COLOR_METAL, true)));
RC.SetVB(0, stream.Buffer, stream.Stride);
Context.DrawAuto();
RC.Stats.DrawAuto++;
}
protected virtual void RecordCommandsInternal(MyRenderableProxy proxy)
{
}
internal unsafe void RecordCommands(MyRenderableProxy proxy, MyFoliageStream stream, int voxelMatId,
VertexShader vertexShader, InputLayout inputLayout,
int materialIndex, int indexCount, int startIndex, int baseVertex)
{
MyObjectData objectData = proxy.ObjectData;
MyMapping mapping;
mapping = MyMapping.MapDiscard(RC.Context, proxy.objectBuffer);
void* ptr = &objectData;
mapping.stream.Write(new IntPtr(ptr), 0, sizeof(MyObjectData));
mapping.Unmap();
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.objectBuffer);
BindProxyGeometry(proxy);
RC.SetVS(vertexShader);
RC.SetIL(inputLayout);
if(!stream.m_append)
{
Context.StreamOutput.SetTarget(stream.m_stream.Buffer, 0);
stream.m_append = true;
}
else
{
Context.StreamOutput.SetTarget(stream.m_stream.Buffer, -1);
}
RC.SetCB(MyCommon.FOLIAGE_SLOT, MyCommon.FoliageConstants);
mapping = MyMapping.MapDiscard(Context, MyCommon.FoliageConstants);
mapping.stream.Write(MyVoxelMaterials1.Table[voxelMatId].FoliageDensity);
mapping.stream.Write((uint)materialIndex);
mapping.stream.Write((uint)voxelMatId);
mapping.Unmap();
Context.DrawIndexed(indexCount, startIndex, baseVertex);
}
protected sealed override unsafe void RecordCommandsInternal(MyRenderableProxy proxy)
{
if ((proxy.Mesh.Buffers.IB == null && proxy.MergedMesh.Buffers.IB == null)
|| proxy.DrawSubmesh.IndexCount == 0
|| proxy.Flags.HasFlags(MyRenderableProxyFlags.SkipInMainView))
return;
++Stats.Draws;
SetProxyConstants(proxy);
BindProxyGeometry(proxy, RC);
Debug.Assert(proxy.Shaders.VS != null);
MyRenderUtils.BindShaderBundle(RC, proxy.Shaders);
if (MyRender11.Settings.Wireframe)
{
SetDepthStencilView(false);
RC.SetBlendState(null);
if (proxy.Flags.HasFlags(MyRenderableProxyFlags.DisableFaceCulling))
RC.SetRasterizerState(MyRasterizerStateManager.NocullWireframeRasterizerState);
else
RC.SetRasterizerState(MyRasterizerStateManager.WireframeRasterizerState);
}
else
{
MyMeshDrawTechnique technique = MyMeshDrawTechnique.MESH;
if (proxy.Material != MyMeshMaterialId.NULL)
technique = proxy.Material.Info.Technique;
if (proxy.Flags.HasFlags(MyRenderableProxyFlags.DisableFaceCulling))
{
switch (technique)
{
case MyMeshDrawTechnique.DECAL:
SetDepthStencilView(true);
MyMeshMaterials1.BindMaterialTextureBlendStates(RC, proxy.Material.Info.TextureTypes, true);
RC.SetRasterizerState(MyRasterizerStateManager.NocullDecalRasterizerState);
break;
case MyMeshDrawTechnique.DECAL_NOPREMULT:
SetDepthStencilView(true);
MyMeshMaterials1.BindMaterialTextureBlendStates(RC, proxy.Material.Info.TextureTypes, false);
RC.SetRasterizerState(MyRasterizerStateManager.NocullDecalRasterizerState);
break;
case MyMeshDrawTechnique.DECAL_CUTOUT:
SetDepthStencilView(true);
RC.SetBlendState(null);
RC.SetRasterizerState(MyRasterizerStateManager.NocullDecalRasterizerState);
break;
default:
SetDepthStencilView(false);
RC.SetBlendState(null);
RC.SetRasterizerState(MyRasterizerStateManager.NocullRasterizerState);
break;
}
}
else
{
switch (technique)
{
case MyMeshDrawTechnique.DECAL:
SetDepthStencilView(true);
MyMeshMaterials1.BindMaterialTextureBlendStates(RC, proxy.Material.Info.TextureTypes, true);
RC.SetRasterizerState(MyRasterizerStateManager.DecalRasterizerState);
break;
case MyMeshDrawTechnique.DECAL_NOPREMULT:
SetDepthStencilView(true);
MyMeshMaterials1.BindMaterialTextureBlendStates(RC, proxy.Material.Info.TextureTypes, false);
RC.SetRasterizerState(MyRasterizerStateManager.DecalRasterizerState);
break;
case MyMeshDrawTechnique.DECAL_CUTOUT:
SetDepthStencilView(true);
RC.SetBlendState(null);
RC.SetRasterizerState(MyRasterizerStateManager.DecalRasterizerState);
break;
default:
SetDepthStencilView(false);
RC.SetBlendState(null);
RC.SetRasterizerState(null);
break;
}
}
}
++Stats.Submeshes;
var submesh = proxy.DrawSubmesh;
if (submesh.MaterialId != Locals.matTexturesID)
{
++Stats.MaterialConstantsChanges;
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
MyRenderUtils.MoveConstants(RC, ref material.MaterialConstants);
MyRenderUtils.SetConstants(RC, ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
MyRenderUtils.SetSrvs(RC, ref material.MaterialSrvs);
}
if (proxy.InstanceCount == 0)
{
if (!MyStereoRender.Enable)
RC.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
else
MyStereoRender.DrawIndexedGBufferPass(RC, submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
++Stats.Instances;
Stats.Triangles += submesh.IndexCount / 3;
}
else
{
//MyRender11.AddDebugQueueMessage("GbufferPass DrawIndexedInstanced " + proxy.Material.ToString());
if (!MyStereoRender.Enable)
RC.DrawIndexedInstanced(submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
else
MyStereoRender.DrawIndexedInstancedGBufferPass(RC, submesh.IndexCount, proxy.InstanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.StartInstance);
Stats.Instances += proxy.InstanceCount;
Stats.Triangles += proxy.InstanceCount * submesh.IndexCount / 3;
}
}
protected void SetProxyConstants(MyRenderableProxy proxy)
{
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
FillBuffers(proxy, RC.DeviceContext);
++Stats.ObjectConstantsChanges;
}
protected void SetProxyConstants(MyRenderableProxy proxy)
{
RC.AllShaderStages.SetConstantBuffer(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
FillBuffers(proxy, RC);
++Stats.ObjectConstantsChanges;
}
internal virtual void RecordCommands(MyRenderableProxy proxy)
{
}
private void AssignLodMeshToProxy(MeshId mesh, MyRenderableProxy proxy)
{
if (MyMeshes.IsMergedVoxelMesh(mesh))
proxy.MergedMesh = MyMeshes.GetMergedLodMesh(mesh, 0);
else
proxy.Mesh = MyMeshes.GetLodMesh(mesh, 0);
}
internal unsafe void SetProxyConstants(MyRenderableProxy proxy)
{
RC.SetCB(MyCommon.OBJECT_SLOT, proxy.ObjectBuffer);
MyMapping mapping;
bool constantsChange = true;
fixed (void* ptr0 = &Locals.objectData)
{
fixed (void* ptr1 = &proxy.ObjectData)
{
constantsChange = !SharpDX.Utilities.CompareMemory(new IntPtr(ptr0), new IntPtr(ptr1), sizeof(MyObjectData));
}
}
if (!constantsChange
&& proxy.SkinningMatrices == null
&& Locals.objectBuffer == proxy.ObjectBuffer)
{
}
else
{
Locals.objectData = proxy.ObjectData;
Locals.objectBuffer = proxy.ObjectBuffer;
MyObjectData objectData = proxy.ObjectData;
//objectData.Translate(-MyEnvironment.CameraPosition);
mapping = MyMapping.MapDiscard(RC.Context, proxy.ObjectBuffer);
void* ptr = &objectData;
mapping.stream.Write(new IntPtr(ptr), 0, sizeof(MyObjectData));
if (proxy.SkinningMatrices != null)
{
if (proxy.DrawSubmesh.BonesMapping == null)
{
for (int j = 0; j < Math.Min(MyRender11Constants.SHADER_MAX_BONES, proxy.SkinningMatrices.Length); j++)
{
mapping.stream.Write(Matrix.Transpose(proxy.SkinningMatrices[j]));
}
}
else
{
for (int j = 0; j < proxy.DrawSubmesh.BonesMapping.Length; j++)
{
mapping.stream.Write(Matrix.Transpose(proxy.SkinningMatrices[proxy.DrawSubmesh.BonesMapping[j]]));
}
}
}
mapping.Unmap();
Stats.ObjectConstantsChanges++;
}
}
private bool IsProxyValidForDraw(MyRenderableProxy proxy)
{
return proxy.DepthShaders != MyMaterialShadersBundleId.NULL && proxy.DrawSubmesh.BaseVertex >= 0 && proxy.DrawSubmesh.StartIndex >= 0 &&
proxy.DrawSubmesh.IndexCount > 0;
}
internal void BindProxyGeometry(MyRenderableProxy proxy)
{
var buffers = proxy.Mesh.Buffers;
bool firstChanged = RC.UpdateVB(0, buffers.VB0.Buffer, buffers.VB0.Stride);
bool secondChanged = RC.UpdateVB(1, buffers.VB1.Buffer, buffers.VB1.Stride);
if (firstChanged && secondChanged)
{
Context.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(buffers.VB0.Buffer, buffers.VB0.Stride, 0), new VertexBufferBinding(buffers.VB1.Buffer, buffers.VB1.Stride, 0));
RC.Stats.SetVB++;
}
else if (firstChanged)
{
Context.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(buffers.VB0.Buffer, buffers.VB0.Stride, 0));
RC.Stats.SetVB++;
}
else if (secondChanged)
{
Context.InputAssembler.SetVertexBuffers(1, new VertexBufferBinding(buffers.VB1.Buffer, buffers.VB1.Stride, 0));
RC.Stats.SetVB++;
}
if (proxy.InstancingEnabled && proxy.Instancing.VB.Index != -1)
{
Context.InputAssembler.SetVertexBuffers(2, new VertexBufferBinding(proxy.Instancing.VB.Buffer, proxy.Instancing.VB.Stride, 0));
RC.Stats.SetVB++;
}
RC.SetIB(buffers.IB.Buffer, buffers.IB.Format);
}
internal unsafe override sealed void RecordCommands(MyRenderableProxy proxy)
{
if (proxy.Mesh.Buffers.IB == IndexBufferId.NULL || proxy.Draw.IndexCount == 0 || (proxy.flags & MyRenderableProxyFlags.SkipInMainView) > 0)
{
return;
}
Stats.Meshes++;
SetProxyConstants(proxy);
BindProxyGeometry(proxy);
Debug.Assert(proxy.Shaders.VS != null);
RC.BindShaders(proxy.Shaders);
if ((proxy.flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
RC.SetRS(MyRender11.m_nocullRasterizerState);
else
RC.SetRS(null);
//#if DEBUG
if (MyRender11.Settings.Wireframe)
{
if ((proxy.flags & MyRenderableProxyFlags.DisableFaceCulling) > 0)
RC.SetRS(MyRender11.m_nocullWireframeRasterizerState);
else
RC.SetRS(MyRender11.m_wireframeRasterizerState);
}
//#endif
//for (int i = 0; i < proxy.submeshes.Length; i++)
//{
Stats.Submeshes++;
var submesh = proxy.Draw;
//if (submesh.Material != null && submesh.Material.TexturesHash != Locals.matTexturesID)
//{
// Locals.matTexturesID = submesh.Material.TexturesHash;
// RC.BindRawSRV(submesh.Material.SRVs);
//}
if (submesh.MaterialId != Locals.matTexturesID)
{
Locals.matTexturesID = submesh.MaterialId;
var material = MyMaterials1.ProxyPool.Data[submesh.MaterialId.Index];
RC.MoveConstants(ref material.MaterialConstants);
RC.SetConstants(ref material.MaterialConstants, MyCommon.MATERIAL_SLOT);
RC.SetSRVs(ref material.MaterialSRVs);
}
//if (submesh.Material != null && submesh.Material.ConstantsHash != Locals.matConstantsID && submesh.Material.ConstantsBuffer != null)
//{
// Stats.MaterialConstantsChanges++;
// Locals.matConstantsID = submesh.Material.ConstantsHash;
// RC.SetCB(MyCommon.MATERIAL_SLOT, submesh.Material.ConstantsBuffer);
// var mapping = MyMapping.MapDiscard(RC.Context, submesh.Material.ConstantsBuffer);
// mapping.stream.WriteRange(submesh.Material.Constants);
// mapping.Unmap();
//}
if (proxy.skinningMatrices != null)
{
Stats.ObjectConstantsChanges++;
MyObjectData objectData = proxy.ObjectData;
objectData.Translate(-MyEnvironment.CameraPosition);
MyMapping mapping;
mapping = MyMapping.MapDiscard(RC.Context, proxy.objectBuffer);
void* ptr = &objectData;
mapping.stream.Write(new IntPtr(ptr), 0, sizeof(MyObjectData));
if (proxy.skinningMatrices != null)
{
if (submesh.BonesMapping == null)
{
for (int j = 0; j < Math.Min(MyRender11Constants.SHADER_MAX_BONES, proxy.skinningMatrices.Length); j++)
{
mapping.stream.Write(Matrix.Transpose(proxy.skinningMatrices[j]));
}
}
else
{
for (int j = 0; j < submesh.BonesMapping.Length; j++)
{
mapping.stream.Write(Matrix.Transpose(proxy.skinningMatrices[submesh.BonesMapping[j]]));
}
}
}
mapping.Unmap();
}
if (proxy.instanceCount == 0 && submesh.IndexCount > 0) {
RC.Context.DrawIndexed(submesh.IndexCount, submesh.StartIndex, submesh.BaseVertex);
RC.Stats.DrawIndexed++;
Stats.Instances++;
Stats.Triangles += submesh.IndexCount / 3;
}
else if (submesh.IndexCount > 0) {
RC.Context.DrawIndexedInstanced(submesh.IndexCount, proxy.instanceCount, submesh.StartIndex, submesh.BaseVertex, proxy.startInstance);
RC.Stats.DrawIndexedInstanced++;
Stats.Instances += proxy.instanceCount;
Stats.Triangles += proxy.instanceCount * submesh.IndexCount / 3;
}
//}
}
internal static unsafe void FillBuffers(MyRenderableProxy proxy, DeviceContext deviceContext)
{
MyMapping mapping;
mapping = MyMapping.MapDiscard(deviceContext, proxy.ObjectBuffer);
if(proxy.NonVoxelObjectData.IsValid)
{
mapping.WriteAndPosition(ref proxy.NonVoxelObjectData);
}
else if (proxy.VoxelCommonObjectData.IsValid)
{
mapping.WriteAndPosition(ref proxy.VoxelCommonObjectData);
}
mapping.WriteAndPosition(ref proxy.CommonObjectData);
if (proxy.SkinningMatrices != null)
{
if (proxy.DrawSubmesh.BonesMapping == null)
{
mapping.WriteAndPosition(proxy.SkinningMatrices, 0, Math.Min(MyRender11Constants.SHADER_MAX_BONES, proxy.SkinningMatrices.Length));
}
else
{
for (int j = 0; j < proxy.DrawSubmesh.BonesMapping.Length; j++)
{
mapping.WriteAndPosition(ref proxy.SkinningMatrices[proxy.DrawSubmesh.BonesMapping[j]]);
}
}
}
mapping.Unmap();
}
