internal static void Present()
{
if (m_swapchain != null)
{
GetRenderProfiler().StartProfilingBlock("Screenshot");
if (m_screenshot.HasValue)
{
if (m_screenshot.Value.SizeMult == VRageMath.Vector2.One)
{
MyCopyToRT.ClearAlpha(Backbuffer);
SaveScreenshotFromResource(Backbuffer.Resource);
}
else
{
TakeCustomSizedScreenshot(m_screenshot.Value.SizeMult);
}
}
GetRenderProfiler().EndProfilingBlock();
try
{
MyManagers.OnFrameEnd();
MyGpuProfiler.IC_BeginBlock("Waiting for present");
GetRenderProfiler().StartProfilingBlock("Waiting for present");
m_swapchain.Present(m_settings.VSync ? 1 : 0, 0);
GetRenderProfiler().EndProfilingBlock();
MyGpuProfiler.IC_EndBlock();
MyStatsUpdater.Timestamps.Update(ref MyStatsUpdater.Timestamps.Present, ref MyStatsUpdater.Timestamps.PreviousPresent);
if (VRage.OpenVRWrapper.MyOpenVR.Static != null)
{
MyGpuProfiler.IC_BeginBlock("OpenVR.FrameDone");
GetRenderProfiler().StartProfilingBlock("OpenVR.FrameDone");
/*var handle=MyOpenVR.GetOverlay("menu");
* MyOpenVR.SetOverlayTexture(handle, MyRender11.Backbuffer.m_resource.NativePointer);
*/
VRage.OpenVRWrapper.MyOpenVR.FrameDone();
GetRenderProfiler().EndProfilingBlock();
MyGpuProfiler.IC_EndBlock();
}
m_consecutivePresentFails = 0;
GetRenderProfiler().StartProfilingBlock("Stopwatch");
if (m_presentTimer == null)
{
m_presentTimer = new Stopwatch();
}
else
{
m_presentTimer.Stop();
if (m_presentTimes.Count >= PresentTimesStored)
{
m_presentTimes.Dequeue();
}
m_presentTimes.Enqueue(m_presentTimer.ElapsedMilliseconds);
}
m_presentTimer.Restart();
GetRenderProfiler().EndProfilingBlock();
}
catch (SharpDXException e)
{
Log.WriteLine("Device removed - resetting device; reason: " + e.Message);
HandleDeviceReset();
Log.WriteLine("Device removed - resetting completed");
m_consecutivePresentFails++;
if (m_consecutivePresentFails == 5)
{
Log.WriteLine("Present failed");
Log.IncreaseIndent();
if (e.Descriptor == SharpDX.DXGI.ResultCode.DeviceRemoved)
{
Log.WriteLine("Device removed: " + Device.DeviceRemovedReason);
}
var timings = "";
while (m_presentTimes.Count > 0)
{
timings += m_presentTimes.Dequeue();
if (m_presentTimes.Count > 0)
{
timings += ", ";
}
}
Log.WriteLine("Last present timings = [ " + timings + " ]");
Log.DecreaseIndent();
}
}
GetRenderProfiler().StartProfilingBlock("GPU profiler");
MyGpuProfiler.EndFrame();
MyGpuProfiler.StartFrame();
m_profilingStarted = true;
GetRenderProfiler().EndProfilingBlock();
// waiting for change to fullscreen - window migh overlap or some other dxgi excuse to fail :(
GetRenderProfiler().StartProfilingBlock("TryChangeToFullscreen");
TryChangeToFullscreen();
GetRenderProfiler().EndProfilingBlock();
}
}
private static void UpdateSceneFrame()
{
var desc = new RasterizerStateDescription();
desc.FillMode = FillMode.Solid;
desc.CullMode = CullMode.None;
desc.IsFrontCounterClockwise = true;
desc.DepthBias = 25000;
desc.DepthBiasClamp = 2;
desc.SlopeScaledDepthBias = 1;
MyPipelineStates.Modify(m_shadowRasterizerState, desc);
MyMeshes.Load();
QueryTexturesFromEntities();
MyTextures.Load();
GatherTextures();
MyComponents.UpdateCullProxies();
MyComponents.ProcessEntities();
MyComponents.SendVisible();
MyBillboardRenderer.OnFrameStart();
MyRender11.GetRenderProfiler().StartProfilingBlock("RebuildProxies");
foreach (var renderable in MyComponentFactory <MyRenderableComponent> .GetAll())
{
renderable.RebuildRenderProxies();
}
MyRender11.GetRenderProfiler().EndProfilingBlock();
MyRender11.GetRenderProfiler().StartProfilingBlock("UpdateProxies");
UpdateActors();
MyRender11.GetRenderProfiler().EndProfilingBlock();
MyBigMeshTable.Table.MoveToGPU();
MyRender11.GetRenderProfiler().StartProfilingBlock("Update merged groups");
MyRender11.GetRenderProfiler().StartProfilingBlock("UpdateBeforeDraw");
foreach (var r in MyComponentFactory <MyGroupRootComponent> .GetAll())
{
r.UpdateBeforeDraw();
}
MyRender11.GetRenderProfiler().EndProfilingBlock();
MyRender11.GetRenderProfiler().StartProfilingBlock("MoveToGPU");
foreach (var r in MyComponentFactory <MyGroupRootComponent> .GetAll())
{
foreach (var val in r.m_materialGroups.Values)
{
// optimize: keep list+set for updating
val.MoveToGPU();
}
}
MyRender11.GetRenderProfiler().EndProfilingBlock();
MyRender11.GetRenderProfiler().EndProfilingBlock();
MyRender11.GetRenderProfiler().StartProfilingBlock("Fill foliage streams");
MyGpuProfiler.IC_BeginBlock("Fill foliage streams");
MyGPUFoliageGenerating.GetInstance().PerFrame();
MyGPUFoliageGenerating.GetInstance().Begin();
foreach (var foliage in MyComponentFactory <MyFoliageComponent> .GetAll())
{
if (foliage.m_owner.CalculateCameraDistance() < MyRender11.RenderSettings.FoliageDetails.GrassDrawDistance())
{
foliage.FillStreams();
}
else
{
foliage.InvalidateStreams();
}
}
MyGPUFoliageGenerating.GetInstance().End();
MyGpuProfiler.IC_EndBlock();
MyRender11.GetRenderProfiler().EndProfilingBlock();
MyCommon.MoveToNextFrame();
}
internal void FinalizeEnvProbes()
{
if (MyRender11.IsIntelBrokenCubemapsWorkaround)
{
return;
}
ProfilerShort.Begin("FinalizeEnvProbes");
MyGpuProfiler.IC_BeginBlock("FinalizeEnvProbes");
if (m_lastUpdateTime == MyTimeSpan.Zero)
{
for (int i = 0; i < 6; i++)
{
PostprocessProbe(i);
}
MyGpuProfiler.IC_BeginBlock("BuildMipmaps");
MyEnvProbeProcessing.BuildMipmaps(m_workCubemap);
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("Prefilter");
MyEnvProbeProcessing.Prefilter(m_workCubemap, m_workCubemapPrefiltered);
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("CopyResource");
MyImmediateRC.RC.CopyResource(m_workCubemapPrefiltered.Resource,
m_prevWorkCubemapPrefiltered.Resource);
MyImmediateRC.RC.CopyResource(m_workCubemapPrefiltered.Resource, Cubemap.Resource);
MyGpuProfiler.IC_EndBlock();
m_lastUpdateTime = MyRender11.CurrentDrawTime;
}
else
{
if (m_state >= 6 && m_state < 12)
{
PostprocessProbe(m_state - 6);
}
else if (m_state >= 12)
{
MyGpuProfiler.IC_BeginBlock("BlendAllProbes");
BlendAllProbes();
MyGpuProfiler.IC_EndBlock();
}
if (m_state == 12)
{
MyGpuProfiler.IC_BeginBlock("BuildMipmaps");
m_lastUpdateTime = MyRender11.CurrentDrawTime;
// whole cubemap is rendered and postprocessed, we can use it
MyEnvProbeProcessing.BuildMipmaps(m_workCubemap);
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("Prefilter");
MyEnvProbeProcessing.Prefilter(m_workCubemap, m_workCubemapPrefiltered);
MyGpuProfiler.IC_EndBlock();
}
m_state++;
MyTimeSpan timeForNextCubemap = m_lastUpdateTime +
MyTimeSpan.FromSeconds(MyEnvironmentProbe.MAX_BLEND_TIME_S);
if (m_state > 12 && MyRender11.CurrentDrawTime > timeForNextCubemap)
{
m_state = 0; // Time is up, we need to render another environment map
}
}
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
}
internal static void Run(MyBindableResource depthRead)
{
// The maximum number of supported GPU particles
SharpDX.Direct3D11.ShaderResourceView textureArraySRV;
int emitterCount = MyGPUEmitters.Gather(m_emitterData, out textureArraySRV);
if (emitterCount == 0)
{
return;
}
// Unbind current targets while we run the compute stages of the system
//RC.DeviceContext.OutputMerger.SetTargets(null);
// global GPU particles setup
RC.SetDS(MyDepthStencilState.DefaultDepthState);
RC.SetRS(MyRender11.m_nocullRasterizerState);
RC.SetIL(null);
RC.CSSetCB(MyCommon.FRAME_SLOT, MyCommon.FrameConstants);
RC.DeviceContext.ComputeShader.SetSamplers(0, SamplerStates.StandardSamplers);
RC.DeviceContext.PixelShader.SetSamplers(0, SamplerStates.StandardSamplers);
RC.SetCB(4, MyRender11.DynamicShadows.ShadowCascades.CascadeConstantBuffer);
RC.DeviceContext.VertexShader.SetSampler(MyCommon.SHADOW_SAMPLER_SLOT, SamplerStates.m_shadowmap);
RC.DeviceContext.VertexShader.SetShaderResource(MyCommon.CASCADES_SM_SLOT, MyRender11.DynamicShadows.ShadowCascades.CascadeShadowmapArray.SRV);
RC.DeviceContext.VertexShader.SetSamplers(0, SamplerStates.StandardSamplers);
// If we are resetting the particle system, then initialize the dead list
if (m_resetSystem)
{
ResetInternal();
m_resetSystem = false;
}
MyGpuProfiler.IC_BeginBlock("Emit");
// Emit particles into the system
Emit(emitterCount, m_emitterData);
MyGpuProfiler.IC_EndBlock();
// Run the simulation for this frame
MyGpuProfiler.IC_BeginBlock("Simulate");
Simulate(depthRead);
MyGpuProfiler.IC_EndBlock();
// Copy the atomic counter in the alive list UAV into a constant buffer for access by subsequent passes
RC.DeviceContext.CopyStructureCount(m_activeListConstantBuffer, 0, m_aliveIndexBuffer.m_UAV);
// Only read number of alive and dead particle back to the CPU in debug as we don't want to stall the GPU in release code
#if DEBUG
m_numDeadParticlesAfterSimulation = ReadCounter(m_deadListBuffer);
m_numActiveParticlesAfterSimulation = ReadCounter(m_aliveIndexBuffer);
#endif
MyGpuProfiler.IC_BeginBlock("Render");
Render(textureArraySRV, depthRead);
MyGpuProfiler.IC_EndBlock();
RC.DeviceContext.ComputeShader.SetSamplers(0, SamplerStates.StandardSamplers);
/*Debug.WriteLine(string.Format("dead particles @ start {0} dead after emit {1} dead after sim {2} active after sim {3}",
* m_numDeadParticlesOnInit, m_numDeadParticlesAfterEmit,
* m_numDeadParticlesAfterSimulation, m_numActiveParticlesAfterSimulation));*/
}
/// <summary>
/// Creates shadowmap queries and appends them to the provided list
/// </summary>
internal unsafe void PrepareQueries(List <MyShadowmapQuery> appendShadowmapQueries)
{
Debug.Assert(appendShadowmapQueries != null, "Shadowmap query list cannot be null!");
if (!MyRender11.Settings.EnableShadows || !MyRender11.DebugOverrides.Shadows || MyRender11.RenderSettings.ShadowQuality.GetShadowsQuality() == MyShadowsQuality.DISABLED)
{
return;
}
MyGpuProfiler.IC_BeginBlock("PrepareCascades");
MyImmediateRC.RC.CopyResource(m_cascadeShadowmapArray, m_cascadeShadowmapBackup);
bool stabilize = true;
const float DirectionDifferenceThreshold = 0.0175f;
float shadowChangeDelayMultiplier = 180;
for (int cascadeIndex = 0; cascadeIndex < m_initializedShadowCascadesCount; ++cascadeIndex)
{
++m_shadowCascadeFramesSinceLightUpdate[cascadeIndex];
if (m_shadowCascadeFramesSinceLightUpdate[cascadeIndex] > cascadeIndex * shadowChangeDelayMultiplier ||
MyRender11.Environment.Data.EnvironmentLight.SunLightDirection.Dot(m_shadowCascadeLightDirections[cascadeIndex]) < (1 - DirectionDifferenceThreshold))
{
m_shadowCascadeLightDirections[cascadeIndex] = MyRender11.Environment.Data.EnvironmentLight.SunLightDirection;
m_shadowCascadeFramesSinceLightUpdate[cascadeIndex] = 0;
}
}
var globalMatrix = CreateGlobalMatrix();
float cascadesNearClip = 1f;
float backOffset = MyRender11.RenderSettings.ShadowQuality.BackOffset();
float shadowmapSize = MyRender11.RenderSettings.ShadowQuality.ShadowCascadeResolution();
for (int cascadeIndex = 0; cascadeIndex < ShadowCascadeSplitDepths.Length; ++cascadeIndex)
{
ShadowCascadeSplitDepths[cascadeIndex] = MyRender11.RenderSettings.ShadowQuality.ShadowCascadeSplit(cascadeIndex);
}
double unitWidth = 1.0 / MyRender11.Environment.Matrices.Projection.M11;
double unitHeight = 1.0 / MyRender11.Environment.Matrices.Projection.M22;
Vector3D *untransformedVertices = stackalloc Vector3D[4];
untransformedVertices[0] = new Vector3D(-unitWidth, -unitHeight, -1);
untransformedVertices[1] = new Vector3D(-unitWidth, unitHeight, -1);
untransformedVertices[2] = new Vector3D(unitWidth, unitHeight, -1);
untransformedVertices[3] = new Vector3D(unitWidth, -unitHeight, -1);
MatrixD *cascadesMatrices = stackalloc MatrixD[MaxShadowCascades];
for (int cascadeIndex = 0; cascadeIndex < m_initializedShadowCascadesCount; ++cascadeIndex)
{
for (int vertexIndex = 0; vertexIndex < 4; ++vertexIndex)
{
m_frustumVerticesWS[vertexIndex] = untransformedVertices[vertexIndex] * ShadowCascadeSplitDepths[cascadeIndex];
m_frustumVerticesWS[vertexIndex + 4] = untransformedVertices[vertexIndex] * ShadowCascadeSplitDepths[cascadeIndex + 1];
}
bool skipCascade = MyCommon.FrameCounter % (ulong)m_shadowCascadeUpdateIntervals[cascadeIndex].Item1 != (ulong)m_shadowCascadeUpdateIntervals[cascadeIndex].Item2;
bool forceUpdate = ShadowCascadeSplitDepths[cascadeIndex] > 1000f && Vector3D.DistanceSquared(m_shadowCascadeUpdatePositions[cascadeIndex], MyRender11.Environment.Matrices.CameraPosition) > Math.Pow(1000, 2);
//
if (!forceUpdate && skipCascade && !Settings.Data.UpdateCascadesEveryFrame)
{
continue;
}
if (Settings.ShadowCascadeFrozen[cascadeIndex])
{
continue;
}
m_shadowCascadeUpdatePositions[cascadeIndex] = MyRender11.Environment.Matrices.CameraPosition;
MatrixD invView = MyRender11.Environment.Matrices.InvView;
Vector3D.Transform(m_frustumVerticesWS, ref invView, m_frustumVerticesWS);
var bSphere = BoundingSphereD.CreateFromPoints(m_frustumVerticesWS);
if (stabilize)
{
bSphere.Center = bSphere.Center.Round();
bSphere.Radius = Math.Ceiling(bSphere.Radius);
}
var shadowCameraPosWS = bSphere.Center + m_shadowCascadeLightDirections[cascadeIndex] * (bSphere.Radius + cascadesNearClip);
var lightView = VRageMath.MatrixD.CreateLookAt(shadowCameraPosWS, shadowCameraPosWS - m_shadowCascadeLightDirections[cascadeIndex], Math.Abs(Vector3.UnitY.Dot(m_shadowCascadeLightDirections[cascadeIndex])) < 0.99f ? Vector3.UnitY : Vector3.UnitX);
var offset = bSphere.Radius + cascadesNearClip + backOffset;
Vector3D vMin = new Vector3D(-bSphere.Radius, -bSphere.Radius, cascadesNearClip);
Vector3D vMax = new Vector3D(bSphere.Radius, bSphere.Radius, offset + bSphere.Radius);
var cascadeProjection = MatrixD.CreateOrthographicOffCenter(vMin.X, vMax.X, vMin.Y, vMax.Y, vMax.Z, vMin.Z);
cascadesMatrices[cascadeIndex] = lightView * cascadeProjection;
var transformed = Vector3D.Transform(Vector3D.Zero, cascadesMatrices[cascadeIndex]) * shadowmapSize / 2;
var smOffset = (transformed.Round() - transformed) * 2 / shadowmapSize;
// stabilize 1st cascade only
if (stabilize)
{
cascadeProjection.M41 += smOffset.X;
cascadeProjection.M42 += smOffset.Y;
cascadesMatrices[cascadeIndex] = lightView * cascadeProjection;
}
var inverseCascadeMatrix = MatrixD.Invert(cascadesMatrices[cascadeIndex]);
var corner0 = Vector3D.Transform(Vector3D.Transform(new Vector3D(-1, -1, 0), inverseCascadeMatrix), globalMatrix);
var corner1 = Vector3D.Transform(Vector3D.Transform(new Vector3D(1, 1, 1), inverseCascadeMatrix), globalMatrix);
var diameter = corner1 - corner0;
var cascadeScale = 1f / diameter;
ShadowCascadeScales[cascadeIndex] = new Vector4D(cascadeScale, 0);
var query = new MyShadowmapQuery();
query.DepthBuffer = m_cascadeShadowmapArray.SubresourceDsv(cascadeIndex);
query.Viewport = new MyViewport(shadowmapSize, shadowmapSize);
m_cascadeInfo[cascadeIndex].WorldCameraOffsetPosition = MyRender11.Environment.Matrices.CameraPosition;
m_cascadeInfo[cascadeIndex].WorldToProjection = cascadesMatrices[cascadeIndex];
// todo: skip translation, recalculate matrix in local space, keep world space matrix only for bounding frustum
m_cascadeInfo[cascadeIndex].LocalToProjection = Matrix.CreateTranslation(MyRender11.Environment.Matrices.CameraPosition) * cascadesMatrices[cascadeIndex];
query.ProjectionInfo = m_cascadeInfo[cascadeIndex];
query.ProjectionDir = m_shadowCascadeLightDirections[cascadeIndex];
query.ProjectionFactor = (float)(shadowmapSize * shadowmapSize / (bSphere.Radius * bSphere.Radius * 4));
query.QueryType = MyFrustumEnum.ShadowCascade;
query.Index = cascadeIndex;
appendShadowmapQueries.Add(query);
}
DebugProcessFrustrums();
FillConstantBuffer(m_csmConstants);
MyGpuProfiler.IC_EndBlock();
}
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 static void Run(IRtvBindable target, ICustomTexture fxaaTarget, IDepthStencil depthStencilCopy)
{
if (!HasHighlights)
{
return;
}
ProfilerShort.Begin("MyHighlight.Run");
MyGpuProfiler.IC_BeginBlock("MyHighlight.Run");
// set resolved depth/ stencil
// render all with proper depth-stencil state
// blur
// blend to main target testing with stencil again
MyHighlightPass.Instance.ViewProjection = MyRender11.Environment.Matrices.ViewProjectionAt0;
MyHighlightPass.Instance.Viewport = new MyViewport(MyRender11.ViewportResolution.X, MyRender11.ViewportResolution.Y);
MyHighlightPass.Instance.PerFrame();
MyHighlightPass.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("MyHighlight.Rgba8_1", Format.R8G8B8A8_UNorm_SRgb, samples);
RC.ClearRtv(rgba8_1, new SharpDX.Color4(0, 0, 0, 0));
RC.SetRtv(depthStencilCopy, MyDepthStencilAccess.DepthReadOnly, rgba8_1);
float maxThickness = 0f;
foreach (var pair in m_highlights)
{
foreach (MyHighlightDesc descriptor in pair.Value)
{
maxThickness = Math.Max(maxThickness, descriptor.Thickness);
}
MyActor actor = MyIDTracker <MyActor> .FindByID(pair.Key);
if (actor == null)
{
MyRenderProxy.Fail("The actor cannot be found for highlight. This bug is outside of the renderer.");
continue;
}
MyRenderableComponent renderableComponent = actor.GetRenderable();
MyInstanceComponent instanceComponent = actor.GetInstance();
if (renderableComponent != null)
{
DrawRenderableComponent(actor, renderableComponent, pair.Value);
}
else if (instanceComponent != null)
{
DrawInstanceComponent(instanceComponent, pair.Value);
}
else
{
// If an actor has been removed without removing outlines, just remove the outlines too
m_keysToRemove.Add(pair.Key);
MyRenderProxy.Fail("The actor has been removed, but the highligh is still active. This bug is caused by the issue out of the renderer.");
}
}
MyHighlightPass.Instance.End();
RC.SetBlendState(null);
foreach (var outlineKey in m_keysToRemove)
{
m_highlights.Remove(outlineKey);
}
m_keysToRemove.SetSize(0);
ISrvBindable initialSourceView = rgba8_1;
IRtvBindable renderTargetview = rgba8_1;
if (maxThickness > 0)
{
IBorrowedRtvTexture rgba8_2 = MyManagers.RwTexturesPool.BorrowRtv("MyHighlight.Rgba8_2", Format.R8G8B8A8_UNorm_SRgb);
MyBlur.Run(renderTargetview, rgba8_2, initialSourceView,
(int)Math.Round(maxThickness), MyBlur.MyBlurDensityFunctionType.Exponential, 0.25f,
MyDepthStencilStateManager.IgnoreDepthStencil);
rgba8_2.Release();
}
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
BlendHighlight(target, rgba8_1, fxaaTarget, depthStencilCopy);
}
internal static void Render(MyUnorderedAccessTexture accumTarget, MyUnorderedAccessTexture coverageTarget)
{
ProfilerShort.Begin("Billboards");
MyGpuProfiler.IC_BeginBlock("Billboards");
if (MyRender11.MultisamplingEnabled)
{
MyBillboardRenderer.Render(MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), MyScreenDependants.m_resolvedDepth, MyScreenDependants.m_resolvedDepth.Depth);
}
else
{
MyBillboardRenderer.Render(MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), MyGBuffer.Main.DepthStencil, MyGBuffer.Main.DepthStencil.Depth);
}
MyGpuProfiler.IC_EndBlock();
// setup weighted blended OIT targets + blend states
if (MyRender11.DebugOverrides.OIT)
{
SetupOIT(accumTarget, coverageTarget);
}
else
{
SetupStandard();
}
ProfilerShort.BeginNextBlock("GPU Particles");
MyGpuProfiler.IC_BeginBlock("GPU Particles");
if (MyRender11.DebugOverrides.GPUParticles)
{
if (MyRender11.MultisamplingEnabled)
{
MyGPUParticleRenderer.Run(MyScreenDependants.m_resolvedDepth.Depth);
}
else
{
MyGPUParticleRenderer.Run(MyGBuffer.Main.DepthStencil.Depth);
}
}
MyGpuProfiler.IC_EndBlock();
// resolve weighted blended OIT in accum / coverage to LBuffer
if (MyRender11.DebugOverrides.OIT)
{
ResolveOIT(accumTarget, coverageTarget);
}
ProfilerShort.BeginNextBlock("Atmosphere");
MyGpuProfiler.IC_BeginBlock("Atmosphere");
if (MyRender11.DebugOverrides.Atmosphere)
{
MyAtmosphereRenderer.Render();
}
MyGpuProfiler.IC_EndBlock();
ProfilerShort.BeginNextBlock("Clouds");
MyGpuProfiler.IC_BeginBlock("Clouds");
if (MyRender11.DebugOverrides.Clouds)
{
MyCloudRenderer.Render();
}
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
}
private static void ProcessDrawMessage(MyRenderMessageBase drawMessage)
{
switch (drawMessage.MessageType)
{
case MyRenderMessageEnum.SpriteScissorPush:
{
var msg = drawMessage as MyRenderMessageSpriteScissorPush;
MySpritesRenderer.ScissorStackPush(msg.ScreenRectangle);
break;
}
case MyRenderMessageEnum.SpriteScissorPop:
{
MySpritesRenderer.ScissorStackPop();
break;
}
case MyRenderMessageEnum.DrawSprite:
{
MyRenderMessageDrawSprite sprite = (MyRenderMessageDrawSprite)drawMessage;
MySpritesRenderer.AddSingleSprite(MyTextures.GetTexture(sprite.Texture, MyTextureEnum.GUI, waitTillLoaded: sprite.WaitTillLoaded), sprite.Color, sprite.Origin, sprite.RightVector, sprite.SourceRectangle, sprite.DestinationRectangle);
break;
}
case MyRenderMessageEnum.DrawSpriteNormalized:
{
MyRenderMessageDrawSpriteNormalized sprite = (MyRenderMessageDrawSpriteNormalized)drawMessage;
var rotation = sprite.Rotation;
if (sprite.RotationSpeed != 0)
{
rotation += sprite.RotationSpeed * (float)(MyRender11.CurrentDrawTime - MyRender11.CurrentUpdateTime).Seconds;
}
Vector2 rightVector = rotation != 0f ? new Vector2((float)Math.Cos(rotation), (float)Math.Sin(rotation)) : sprite.RightVector;
int safeGuiSizeY = MyRender11.ResolutionI.Y;
int safeGuiSizeX = (int)(safeGuiSizeY * 1.3333f); // This will mantain same aspect ratio for GUI elements
var safeGuiRectangle = new VRageMath.Rectangle(MyRender11.ResolutionI.X / 2 - safeGuiSizeX / 2, 0, safeGuiSizeX, safeGuiSizeY);
var safeScreenScale = (float)safeGuiSizeY / MyRenderGuiConstants.REFERENCE_SCREEN_HEIGHT;
float fixedScale = sprite.Scale * safeScreenScale;
var tex = MyTextures.GetTexture(sprite.Texture, MyTextureEnum.GUI, true);
var normalizedCoord = sprite.NormalizedCoord;
var screenCoord = new Vector2(safeGuiRectangle.Left + safeGuiRectangle.Width * normalizedCoord.X,
safeGuiRectangle.Top + safeGuiRectangle.Height * normalizedCoord.Y);
var sizeInPixels = MyTextures.GetSize(tex);
var sizeInPixelsScaled = sizeInPixels * fixedScale;
Vector2 alignedScreenCoord = screenCoord;
var drawAlign = sprite.DrawAlign;
if (drawAlign == MyGuiDrawAlignEnum.HORISONTAL_LEFT_AND_VERTICAL_TOP)
{
// Nothing to do as position is already at this point
}
else if (drawAlign == MyGuiDrawAlignEnum.HORISONTAL_CENTER_AND_VERTICAL_CENTER)
{
// Move position to the texture center
alignedScreenCoord -= sizeInPixelsScaled / 2.0f;
}
else if (drawAlign == MyGuiDrawAlignEnum.HORISONTAL_CENTER_AND_VERTICAL_TOP)
{
alignedScreenCoord.X -= sizeInPixelsScaled.X / 2.0f;
}
else if (drawAlign == MyGuiDrawAlignEnum.HORISONTAL_CENTER_AND_VERTICAL_BOTTOM)
{
alignedScreenCoord.X -= sizeInPixelsScaled.X / 2.0f;
alignedScreenCoord.Y -= sizeInPixelsScaled.Y;
}
else if (drawAlign == MyGuiDrawAlignEnum.HORISONTAL_RIGHT_AND_VERTICAL_BOTTOM)
{
alignedScreenCoord -= sizeInPixelsScaled;
}
else if (drawAlign == MyGuiDrawAlignEnum.HORISONTAL_LEFT_AND_VERTICAL_CENTER)
{
alignedScreenCoord.Y -= sizeInPixelsScaled.Y / 2.0f;
}
else if (drawAlign == MyGuiDrawAlignEnum.HORISONTAL_RIGHT_AND_VERTICAL_CENTER)
{
alignedScreenCoord.X -= sizeInPixelsScaled.X;
alignedScreenCoord.Y -= sizeInPixelsScaled.Y / 2.0f;
}
else if (drawAlign == MyGuiDrawAlignEnum.HORISONTAL_LEFT_AND_VERTICAL_BOTTOM)
{
alignedScreenCoord.Y -= sizeInPixelsScaled.Y; // *0.75f;
}
else if (drawAlign == MyGuiDrawAlignEnum.HORISONTAL_RIGHT_AND_VERTICAL_TOP)
{
alignedScreenCoord.X -= sizeInPixelsScaled.X;
}
screenCoord = alignedScreenCoord;
var rect = new RectangleF(screenCoord.X, screenCoord.Y, fixedScale * sizeInPixels.X, fixedScale * sizeInPixels.Y);
Vector2 origin;
if (sprite.OriginNormalized.HasValue)
{
origin = sprite.OriginNormalized.Value * sizeInPixels;
}
else
{
origin = sizeInPixels / 2;
}
sprite.OriginNormalized = sprite.OriginNormalized ?? new Vector2(0.5f);
MySpritesRenderer.AddSingleSprite(MyTextures.GetTexture(sprite.Texture, MyTextureEnum.GUI, waitTillLoaded: sprite.WaitTillLoaded), sprite.Color, origin, rightVector, null, rect);
break;
}
case MyRenderMessageEnum.DrawSpriteAtlas:
{
MyRenderMessageDrawSpriteAtlas sprite = (MyRenderMessageDrawSpriteAtlas)drawMessage;
var tex = MyTextures.GetTexture(sprite.Texture, MyTextureEnum.GUI, true);
var textureSize = MyTextures.GetSize(tex);
Rectangle?sourceRect = new Rectangle(
(int)(textureSize.X * sprite.TextureOffset.X),
(int)(textureSize.Y * sprite.TextureOffset.Y),
(int)(textureSize.X * sprite.TextureSize.X),
(int)(textureSize.Y * sprite.TextureSize.Y));
VRageMath.RectangleF destRect = new VRageMath.RectangleF(
(sprite.Position.X) * sprite.Scale.X,
(sprite.Position.Y) * sprite.Scale.Y,
sprite.HalfSize.X * sprite.Scale.X * 2,
sprite.HalfSize.Y * sprite.Scale.Y * 2);
Vector2 origin = new Vector2(textureSize.X * sprite.TextureSize.X * 0.5f, textureSize.Y * sprite.TextureSize.Y * 0.5f);
MySpritesRenderer.AddSingleSprite(MyTextures.GetTexture(sprite.Texture, MyTextureEnum.GUI, true), sprite.Color, origin, sprite.RightVector, sourceRect, destRect);
break;
}
case MyRenderMessageEnum.DrawString:
{
var message = drawMessage as MyRenderMessageDrawString;
var font = MyRender11.GetFont(message.FontIndex);
font.DrawString(
message.ScreenCoord,
message.ColorMask,
message.Text,
message.ScreenScale,
message.ScreenMaxWidth);
break;
}
case MyRenderMessageEnum.DrawScene:
{
AddDebugQueueMessage("Frame render start");
UpdateSceneFrame();
ProfilerShort.Begin("DrawScene");
DrawGameScene(Backbuffer);
ProfilerShort.Begin("TransferPerformanceStats");
TransferPerformanceStats();
ProfilerShort.End();
ProfilerShort.End();
ProfilerShort.Begin("Draw scene debug");
MyGpuProfiler.IC_BeginBlock("Draw scene debug");
DrawSceneDebug();
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
ProfilerShort.Begin("ProcessDebugMessages");
ProcessDebugMessages();
ProfilerShort.End();
ProfilerShort.Begin("MyDebugRenderer.Draw");
MyGpuProfiler.IC_BeginBlock("MyDebugRenderer.Draw");
MyDebugRenderer.Draw(MyRender11.Backbuffer);
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
var testingDepth = MyRender11.MultisamplingEnabled ? MyScreenDependants.m_resolvedDepth : MyGBuffer.Main.DepthStencil;
ProfilerShort.Begin("MyPrimitivesRenderer.Draw");
MyGpuProfiler.IC_BeginBlock("MyPrimitivesRenderer.Draw");
MyPrimitivesRenderer.Draw(MyRender11.Backbuffer, testingDepth);
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
ProfilerShort.Begin("MyLinesRenderer.Draw");
MyGpuProfiler.IC_BeginBlock("MyLinesRenderer.Draw");
MyLinesRenderer.Draw(MyRender11.Backbuffer, testingDepth);
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
if (m_screenshot.HasValue && m_screenshot.Value.IgnoreSprites)
{
if (m_screenshot.Value.SizeMult == Vector2.One)
{
SaveScreenshotFromResource(Backbuffer.m_resource);
}
else
{
TakeCustomSizedScreenshot(m_screenshot.Value.SizeMult);
}
}
ProfilerShort.Begin("MySpritesRenderer.Draw");
MyGpuProfiler.IC_BeginBlock("MySpritesRenderer.Draw");
MySpritesRenderer.Draw(MyRender11.Backbuffer.m_RTV, new MyViewport(MyRender11.ViewportResolution.X, MyRender11.ViewportResolution.Y));
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
if (MyRenderProxy.DRAW_RENDER_STATS)
{
MyRender11.GetRenderProfiler().StartProfilingBlock("MyRenderStatsDraw.Draw");
MyRenderStatsDraw.Draw(MyRenderStats.m_stats, 0.6f, VRageMath.Color.Yellow);
ProfilerShort.End();
}
AddDebugQueueMessage("Frame render end");
ProcessDebugOutput();
break;
}
}
}
internal static void Draw(bool draw = true)
{
//if (false) Debug.Assert(MyClipmap.LodLevel.DrewLastFrame);
//MyClipmap.LodLevel.DrewLastFrame = false;
try
{
GetRenderProfiler().StartProfilingBlock("ProcessMessages");
TransferLocalMessages();
ProcessMessageQueue();
GetRenderProfiler().EndProfilingBlock();
if (draw)
{
MyRender11.ClearBackbuffer(MyEnvironment.BackgroundColor);
MyImmediateRC.RC.Clear();
GetRenderProfiler().StartProfilingBlock("ProcessDrawQueue");
ProcessDrawQueue();
GetRenderProfiler().EndProfilingBlock();
/*GetRenderProfiler().StartProfilingBlock("ProcessDebugMessages");
* ProcessDebugMessages();
* GetRenderProfiler().EndProfilingBlock();*/
GetRenderProfiler().StartProfilingBlock("MySpritesRenderer.Draw");
//MyCommon.UpdateFrameConstants();
MySpritesRenderer.Draw(MyRender11.Backbuffer.m_RTV, new MyViewport(MyRender11.ViewportResolution.X, MyRender11.ViewportResolution.Y));
GetRenderProfiler().EndProfilingBlock();
MyTextures.Load();
if (m_texturesToRender.Count > 0)
{
VRage.Render11.PostprocessStage.MySaveExportedTextures.RenderColoredTextures(m_texturesToRender);
}
}
if (m_profilingStarted)
{
MyGpuProfiler.IC_BeginBlock("Waiting for present");
}
MyLinesRenderer.Clear();
MySpritesRenderer.Clear();
m_drawQueue.Clear();
m_debugDrawMessages.Clear();
}
catch (SharpDXException e)
{
MyRender11.Log.IncreaseIndent();
MyRender11.Log.WriteLine(" " + e);
if (e.Descriptor == SharpDX.DXGI.ResultCode.DeviceRemoved)
{
MyRender11.Log.WriteLine("Reason: " + Device.DeviceRemovedReason);
}
MyRender11.Log.DecreaseIndent();
throw;
}
}
internal unsafe static void RunForwardPostprocess(IRtvBindable rt, ISrvBindable depth, ref Matrix viewMatrix, uint?atmosphereId)
{
MyGpuProfiler.IC_BeginBlock("Postprocess");
var transpose = Matrix.Transpose(viewMatrix);
var mapping = MyMapping.MapDiscard(RC, MyCommon.ProjectionConstants);
mapping.WriteAndPosition(ref transpose);
mapping.Unmap();
RC.AllShaderStages.SetConstantBuffer(MyCommon.FRAME_SLOT, MyCommon.FrameConstants);
RC.AllShaderStages.SetConstantBuffer(MyCommon.PROJECTION_SLOT, MyCommon.ProjectionConstants);
RC.SetDepthStencilState(MyDepthStencilStateManager.IgnoreDepthStencil);
RC.SetRtv(rt);
RC.PixelShader.SetSrv(0, depth);
MyFileTextureManager texManager = MyManagers.FileTextures;
RC.PixelShader.SetSrv(MyCommon.SKYBOX_SLOT, texManager.GetTexture(MyRender11.Environment.Data.Skybox, MyFileTextureEnum.CUBEMAP, true));
RC.PixelShader.SetSamplers(0, MySamplerStateManager.StandardSamplers);
RC.PixelShader.Set(m_ps);
MyScreenPass.DrawFullscreenQuad(new MyViewport(m_viewportSize, m_viewportSize));
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("Atmosphere");
if (atmosphereId != null)
{
var atmosphere = MyAtmosphereRenderer.GetAtmosphere(atmosphereId.Value);
var constants = new AtmosphereConstants();
//TODO(AF) These values are computed in MyAtmosphere as well. Find a way to remove the duplication
var worldMatrix = atmosphere.WorldMatrix;
worldMatrix.Translation -= MyRender11.Environment.Matrices.CameraPosition;
double distance = worldMatrix.Translation.Length();
double atmosphereTop = atmosphere.AtmosphereRadius * atmosphere.Settings.AtmosphereTopModifier * atmosphere.PlanetScaleFactor * atmosphere.Settings.RayleighTransitionModifier;
float rayleighHeight = atmosphere.Settings.RayleighHeight;
float t = 0.0f;
if (distance > atmosphereTop)
{
if (distance > atmosphereTop * 2.0f)
{
t = 1.0f;
}
else
{
t = (float)((distance - atmosphereTop) / atmosphereTop);
}
}
rayleighHeight = MathHelper.Lerp(atmosphere.Settings.RayleighHeight, atmosphere.Settings.RayleighHeightSpace, t);
constants.PlanetCentre = (Vector3)worldMatrix.Translation;
constants.AtmosphereRadius = atmosphere.AtmosphereRadius * atmosphere.Settings.AtmosphereTopModifier;
constants.GroundRadius = atmosphere.PlanetRadius * 1.01f * atmosphere.Settings.SeaLevelModifier;
constants.BetaRayleighScattering = atmosphere.BetaRayleighScattering / atmosphere.Settings.RayleighScattering;
constants.BetaMieScattering = atmosphere.BetaMieScattering / atmosphere.Settings.MieColorScattering;
constants.HeightScaleRayleighMie = atmosphere.HeightScaleRayleighMie * new Vector2(rayleighHeight, atmosphere.Settings.MieHeight);
constants.MieG = atmosphere.Settings.MieG;
constants.PlanetScaleFactor = atmosphere.PlanetScaleFactor;
constants.AtmosphereScaleFactor = atmosphere.AtmosphereScaleFactor;
constants.Intensity = atmosphere.Settings.Intensity;
constants.FogIntensity = atmosphere.Settings.FogIntensity;
var cb = MyCommon.GetObjectCB(sizeof(AtmosphereConstants));
mapping = MyMapping.MapDiscard(RC, cb);
mapping.WriteAndPosition(ref constants);
mapping.Unmap();
RC.SetBlendState(MyBlendStateManager.BlendAdditive);
RC.PixelShader.SetConstantBuffer(2, cb);
RC.PixelShader.SetSrv(2, MyAtmosphereRenderer.GetAtmosphereLuts(atmosphereId.Value).TransmittanceLut);
RC.PixelShader.Set(m_atmosphere);
MyScreenPass.DrawFullscreenQuad(new MyViewport(MyEnvironmentProbe.CubeMapResolution, MyEnvironmentProbe.CubeMapResolution));
}
MyGpuProfiler.IC_EndBlock();
RC.SetRtv(null);
}
internal static void Render(IRtvTexture gbuffer1Copy)
{
IBorrowedUavTexture accumTarget = MyManagers.RwTexturesPool.BorrowUav("MyTransparentRendering.AccumTarget", Format.R16G16B16A16_Float);
IBorrowedUavTexture coverageTarget = MyManagers.RwTexturesPool.BorrowUav("MyTransparentRendering.CoverageTarget", Format.R16_UNorm);
ProfilerShort.Begin("Atmosphere");
MyGpuProfiler.IC_BeginBlock("Atmosphere");
if (MyRender11.DebugOverrides.Atmosphere)
{
MyAtmosphereRenderer.Render();
}
ProfilerShort.BeginNextBlock("Clouds");
MyGpuProfiler.IC_BeginNextBlock("Clouds");
if (MyRender11.DebugOverrides.Clouds)
{
MyCloudRenderer.Render();
}
MyGpuProfiler.IC_EndBlock();
var depthResource = MyGBuffer.Main.ResolvedDepthStencil;
// setup weighted blended OIT targets + blend states
SetupTargets(accumTarget, coverageTarget, true);
ProfilerShort.BeginNextBlock("Static glass");
MyGpuProfiler.IC_BeginBlock("Static glass");
m_glassWithDecals.Clear();
MyStaticGlassRenderer.Render(HandleGlass);
MyGpuProfiler.IC_EndBlock();
ProfilerShort.BeginNextBlock("Billboards");
MyGpuProfiler.IC_BeginBlock("Billboards");
bool resetBindings = MyBillboardRenderer.Gather();
if (resetBindings)
{
SetupTargets(accumTarget, coverageTarget, false);
}
MyBillboardRenderer.Render(depthResource.SrvDepth);
ProfilerShort.BeginNextBlock("GPU Particles");
MyGpuProfiler.IC_BeginNextBlock("GPU Particles");
if (MyRender11.DebugOverrides.GPUParticles)
{
MyGPUParticleRenderer.Run(depthResource.SrvDepth, MyGBuffer.Main.GBuffer1);
}
MyGpuProfiler.IC_EndBlock();
// Render decals on transparent surfaces in 2 steps: first far, second proximity
float intervalMax = MyScreenDecals.VISIBLE_DECALS_SQ_TH;
for (int it = 0; it < m_distances.Length; it++)
{
float intervalMin = m_distances[it];
ProfilerShort.BeginNextBlock("Glass - Depth Only");
MyGpuProfiler.IC_BeginBlock("Glass - Depth Only");
bool glassFound = MyStaticGlassRenderer.RenderGlassDepthOnly(depthResource, gbuffer1Copy, intervalMin, intervalMax);
MyGpuProfiler.IC_EndBlock();
if (glassFound)
{
SetupTargets(accumTarget, coverageTarget, false);
ProfilerShort.BeginNextBlock("Render decals - Transparent");
MyGpuProfiler.IC_BeginBlock("Render decals - Transparent");
MyScreenDecals.Draw(gbuffer1Copy, true, m_glassWithDecals);
MyGpuProfiler.IC_EndBlock();
}
intervalMax = intervalMin;
}
if (IsUsedOverlappingHeatMap())
{
DisplayOverlappingHeatMap(accumTarget, coverageTarget, MyRender11.Settings.DisplayTransparencyHeatMapInGrayscale);
}
MyGpuProfiler.IC_BeginBlock("OIT Resolve");
// resolve weighted blended OIT in accum / coverage to LBuffer
if (MyRender11.DebugOverrides.OIT)
{
ResolveOIT(accumTarget, coverageTarget);
}
else
{
RC.SetRtv(null);
}
MyGpuProfiler.IC_EndBlock();
coverageTarget.Release();
accumTarget.Release();
ProfilerShort.End();
}
internal static void Present()
{
if (m_swapchain != null)
{
GetRenderProfiler().StartProfilingBlock("Screenshot");
if (m_screenshot.HasValue)
{
if (m_screenshot.Value.SizeMult == VRageMath.Vector2.One)
{
MyCopyToRT.ClearAlpha(Backbuffer);
SaveScreenshotFromResource(Backbuffer);
}
else
{
TakeCustomSizedScreenshot(m_screenshot.Value.SizeMult);
}
}
GetRenderProfiler().EndProfilingBlock();
try
{
MyManagers.OnFrameEnd();
MyGpuProfiler.IC_BeginBlock("Waiting for present");
GetRenderProfiler().StartProfilingBlock("Waiting for present");
m_swapchain.Present(m_settings.VSync ? 1 : 0, 0);
GetRenderProfiler().EndProfilingBlock();
MyGpuProfiler.IC_EndBlock();
MyStatsUpdater.Timestamps.Update(ref MyStatsUpdater.Timestamps.Present, ref MyStatsUpdater.Timestamps.PreviousPresent);
MyManagers.OnUpdate();
if (VRage.OpenVRWrapper.MyOpenVR.Static != null)
{
MyGpuProfiler.IC_BeginBlock("OpenVR.FrameDone");
GetRenderProfiler().StartProfilingBlock("OpenVR.FrameDone");
/*var handle=MyOpenVR.GetOverlay("menu");
* MyOpenVR.SetOverlayTexture(handle, MyRender11.Backbuffer.m_resource.NativePointer);
*/
VRage.OpenVRWrapper.MyOpenVR.FrameDone();
GetRenderProfiler().EndProfilingBlock();
MyGpuProfiler.IC_EndBlock();
}
}
catch (SharpDXException e)
{
Log.WriteLine("Graphics device error! Reason:\n" + e.Message);
if (e.Descriptor == SharpDX.DXGI.ResultCode.DeviceRemoved)
{
Log.WriteLine("Device removed reason:\n" + Device.DeviceRemovedReason);
}
Log.WriteLine("Exception stack trace:\n" + e.StackTrace);
StringBuilder sb = new StringBuilder();
foreach (var column in MyRenderStats.m_stats.Values)
{
foreach (var stats in column)
{
sb.Clear();
stats.WriteTo(sb);
Log.WriteLine(sb.ToString());
}
}
MyStatsUpdater.UpdateStats();
MyStatsDisplay.WriteTo(sb);
Log.WriteLine(sb.ToString());
throw;
}
GetRenderProfiler().StartProfilingBlock("GPU profiler");
MyGpuProfiler.EndFrame();
MyGpuProfiler.StartFrame();
GetRenderProfiler().EndProfilingBlock();
// waiting for change to fullscreen - window migh overlap or some other dxgi excuse to fail :(
GetRenderProfiler().StartProfilingBlock("TryChangeToFullscreen");
TryChangeToFullscreen();
GetRenderProfiler().EndProfilingBlock();
}
}
private static void DrawScene()
{
AddDebugQueueMessage("Frame render start");
MyGpuProfiler.IC_BeginBlock("UpdateSceneFrame");
UpdateSceneFrame();
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("Clear");
MyGBuffer.Main.Clear(VRageMath.Color.Black);
MyGpuProfiler.IC_EndBlock();
if (MyOpenVR.Static != null)
{
ProfilerShort.Begin("OpenVR.WaitForNextStart");
MyOpenVR.WaitForNextStart();
ProfilerShort.End();
}
IBorrowedRtvTexture debugAmbientOcclusion; // TODO: Think of another way to get this texture to the DebugRenderer...
ProfilerShort.Begin("DrawGameScene");
DrawGameScene(Backbuffer, out debugAmbientOcclusion);
ProfilerShort.End();
if (MyOpenVR.Static != null)
{
ProfilerShort.Begin("OpenVR.DisplayEye");
MyGpuProfiler.IC_BeginBlock("OpenVR.DisplayEye");
MyGBuffer.Main.Clear(VRageMath.Color.Black);//image is in HMD now, lets draw the rest for overlay
MyOpenVR.Static.DisplayEye(MyRender11.Backbuffer.Resource.NativePointer);
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
}
ProfilerShort.Begin("Draw scene debug");
MyGpuProfiler.IC_BeginBlock("Draw scene debug");
DrawSceneDebug();
ProfilerShort.End();
ProfilerShort.Begin("ProcessDebugMessages");
ProcessDebugMessages();
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
ProfilerShort.Begin("MyDebugRenderer.Draw");
MyGpuProfiler.IC_BeginBlock("MyDebugRenderer.Draw");
MyDebugRenderer.Draw(MyRender11.Backbuffer, debugAmbientOcclusion);
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
debugAmbientOcclusion.Release();
ProfilerShort.Begin("MyPrimitivesRenderer.Draw");
MyGpuProfiler.IC_BeginBlock("MyPrimitivesRenderer.Draw");
MyPrimitivesRenderer.Draw(MyRender11.Backbuffer);
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
ProfilerShort.Begin("MyLinesRenderer.Draw");
MyGpuProfiler.IC_BeginBlock("MyLinesRenderer.Draw");
MyLinesRenderer.Draw(MyRender11.Backbuffer);
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
if (m_screenshot.HasValue && m_screenshot.Value.IgnoreSprites)
{
ProfilerShort.Begin("Screenshot");
if (m_screenshot.Value.SizeMult == Vector2.One)
{
SaveScreenshotFromResource(Backbuffer);
}
else
{
TakeCustomSizedScreenshot(m_screenshot.Value.SizeMult);
}
ProfilerShort.End();
}
ProfilerShort.Begin("ProcessDebugOutput");
AddDebugQueueMessage("Frame render end");
ProcessDebugOutput();
ProfilerShort.End();
}
internal static CommandList JoinAndGetCommandList(MyRenderContext rc)
{
MyGpuProfiler.Join(rc.ProfilingQueries);
return(rc.FinishCommandList(false));
}
internal static void Draw(bool draw = true)
{
try
{
MyGpuProfiler.IC_BeginBlock("Draw");
GetRenderProfiler().StartProfilingBlock("ProcessMessages");
MyGpuProfiler.IC_BeginBlock("ProcessMessageQueue");
TransferLocalMessages();
ProcessMessageQueue();
MyGpuProfiler.IC_EndBlock();
GetRenderProfiler().EndProfilingBlock();
if (draw)
{
m_drawScene = false;
DispatchDrawQueue();
if (m_drawScene)
{
DrawScene();
}
if (!(MyRender11.Settings.OffscreenSpritesRendering && m_drawScene))
{
ProcessDrawQueue();
DrawSprites(MyRender11.Backbuffer, new MyViewport(MyRender11.ViewportResolution.X, MyRender11.ViewportResolution.Y));
}
MyFileTextureManager texManager = MyManagers.FileTextures;
texManager.LoadAllRequested();
if (m_texturesToRender.Count > 0)
{
VRage.Render11.PostprocessStage.MySaveExportedTextures.RenderColoredTextures(m_texturesToRender);
}
}
MyLinesRenderer.Clear();
MySpritesRenderer.Clear();
m_drawQueue.Clear();
MyGpuProfiler.IC_EndBlock();
}
catch (SharpDXException e)
{
MyRender11.Log.IncreaseIndent();
MyRender11.Log.WriteLine(" " + e);
if (e.Descriptor == SharpDX.DXGI.ResultCode.DeviceRemoved)
{
MyRender11.Log.WriteLine("Reason: " + Device.DeviceRemovedReason);
}
// Include the stats
m_exceptionBuilder.Clear();
MyStatsUpdater.UpdateStats();
MyStatsDisplay.WriteTo(m_exceptionBuilder);
MyRender11.Log.WriteLine(m_exceptionBuilder.ToString());
MyRender11.Log.Flush();
MyRender11.Log.DecreaseIndent();
throw;
}
}
private unsafe void MarkCascadesInStencil(MyProjectionInfo[] cascadeInfo)
{
MyGpuProfiler.IC_BeginBlock("MarkCascadesInStencil");
//RC.SetRS(MyRasterizerState.CullCW);
MyRenderContext renderContext = MyRenderContext.Immediate;
renderContext.DeviceContext.InputAssembler.PrimitiveTopology = PrimitiveTopology.TriangleList;
renderContext.SetVB(0, m_cascadesBoundingsVertices.Buffer, m_cascadesBoundingsVertices.Stride);
renderContext.SetIB(m_cubeIB.Buffer, m_cubeIB.Format);
renderContext.SetIL(m_inputLayout);
renderContext.DeviceContext.Rasterizer.SetViewport(0, 0, MyRender11.ViewportResolution.X, MyRender11.ViewportResolution.Y);
renderContext.SetCB(MyCommon.FRAME_SLOT, MyCommon.FrameConstants);
renderContext.BindDepthRT(MyGBuffer.Main.DepthStencil, DepthStencilAccess.DepthReadOnly, null);
renderContext.SetVS(m_markVS);
renderContext.SetPS(m_markPS);
const int vertexCount = 8;
Vector3D *frustumVerticesSS = stackalloc Vector3D[vertexCount];
frustumVerticesSS[0] = new Vector3D(-1, -1, 0);
frustumVerticesSS[1] = new Vector3D(-1, 1, 0);
frustumVerticesSS[2] = new Vector3D(1, 1, 0);
frustumVerticesSS[3] = new Vector3D(1, -1, 0);
frustumVerticesSS[4] = new Vector3D(-1, -1, 1);
frustumVerticesSS[5] = new Vector3D(-1, 1, 1);
frustumVerticesSS[6] = new Vector3D(1, 1, 1);
frustumVerticesSS[7] = new Vector3D(1, -1, 1);
Vector3D *lightVertices = stackalloc Vector3D[vertexCount];
Vector3 * tmpFloatVertices = stackalloc Vector3[vertexCount];
var mapping = MyMapping.MapDiscard(m_cascadesBoundingsVertices.Buffer);
for (int cascadeIndex = 0; cascadeIndex < MyRender11.Settings.ShadowCascadeCount; ++cascadeIndex)
{
var inverseViewProj = MatrixD.Invert(cascadeInfo[cascadeIndex].CurrentLocalToProjection);
for (int arrayIndex = 0; arrayIndex < vertexCount; ++arrayIndex)
{
Vector3D.Transform(ref frustumVerticesSS[arrayIndex], ref inverseViewProj, out lightVertices[arrayIndex]);
tmpFloatVertices[arrayIndex] = lightVertices[arrayIndex];
}
for (int arrayIndex = 0; arrayIndex < vertexCount; ++arrayIndex)
{
mapping.WriteAndPosition(ref tmpFloatVertices[arrayIndex]);
}
}
mapping.Unmap();
for (int cascadeIndex = 0; cascadeIndex < MyRender11.Settings.ShadowCascadeCount; ++cascadeIndex)
{
renderContext.SetDS(MyDepthStencilState.MarkIfInsideCascade[cascadeIndex], 1 << cascadeIndex);
// mark ith bit on depth near
renderContext.DeviceContext.DrawIndexed(36, 0, 8 * cascadeIndex);
}
renderContext.BindDepthRT(null, DepthStencilAccess.DepthReadOnly, null);
renderContext.SetDS(null);
renderContext.SetRS(null);
MyGpuProfiler.IC_EndBlock();
}
internal static void Render(IRtvTexture gbuffer1Copy)
{
IBorrowedUavTexture accumTarget = MyManagers.RwTexturesPool.BorrowUav("MyTransparentRendering.AccumTarget", Format.R16G16B16A16_Float);
IBorrowedUavTexture coverageTarget = MyManagers.RwTexturesPool.BorrowUav("MyTransparentRendering.CoverageTarget", Format.R16_UNorm);
ProfilerShort.Begin("Atmosphere");
MyGpuProfiler.IC_BeginBlock("Atmosphere");
if (MyRender11.DebugOverrides.Atmosphere)
{
MyAtmosphereRenderer.RenderGBuffer();
}
ProfilerShort.BeginNextBlock("Clouds");
MyGpuProfiler.IC_BeginNextBlock("Clouds");
if (MyRender11.DebugOverrides.Clouds)
{
MyCloudRenderer.Render();
}
var depthResource = MyGBuffer.Main.ResolvedDepthStencil;
// setup weighted blended OIT targets + blend states
if (MyRender11.Settings.DrawBillboards)
{
ProfilerShort.BeginNextBlock("Billboards");
MyGpuProfiler.IC_BeginNextBlock("Billboards");
MyBillboardRenderer.Gather();
MyBillboardRenderer.RenderAdditveBottom(depthResource.SrvDepth);
SetupTargets(accumTarget, coverageTarget, true);
MyBillboardRenderer.RenderStandard(depthResource.SrvDepth);
}
else
{
SetupTargets(accumTarget, coverageTarget, true);
}
ProfilerShort.BeginNextBlock("GPU Particles");
MyGpuProfiler.IC_BeginNextBlock("GPU Particles");
if (MyRender11.DebugOverrides.GPUParticles)
{
MyGPUParticleRenderer.Run(depthResource.SrvDepth, MyGBuffer.Main.GBuffer1);
}
// Render decals on transparent surfaces in 2 steps: first far, second proximity
if (MyRender11.Settings.DrawGlass)
{
ProfilerShort.BeginNextBlock("Static glass");
MyGpuProfiler.IC_BeginNextBlock("Static glass");
m_glassWithDecals.Clear();
MyStaticGlassRenderer.Render(HandleGlass);
float intervalMax = MyScreenDecals.VISIBLE_DECALS_SQ_TH;
for (int it = 0; it < m_distances.Length; it++)
{
float intervalMin = m_distances[it];
ProfilerShort.BeginNextBlock("Glass - Depth Only");
MyGpuProfiler.IC_BeginNextBlock("Glass - Depth Only");
//TODO: This code should properly render glass decals, that they are visible when looking through window on another window
// Anyway, it is italian code and it doesnt work. Solve after Beta
bool glassFound = MyStaticGlassRenderer.RenderGlassDepthOnly(depthResource, gbuffer1Copy, intervalMin, intervalMax);
// if (glassFound)
{
SetupTargets(accumTarget, coverageTarget, false);
ProfilerShort.BeginNextBlock("Render decals - Transparent");
MyGpuProfiler.IC_BeginNextBlock("Render decals - Transparent");
MyScreenDecals.Draw(gbuffer1Copy, true /*, m_glassWithDecals*/);
}
intervalMax = intervalMin;
}
ProfilerShort.BeginNextBlock("New static glass");
//MyManagers.GeometryRenderer.RenderGlass();
}
if (IsUsedOverlappingHeatMap())
{
DisplayOverlappingHeatMap(accumTarget, coverageTarget, MyRender11.Settings.DisplayTransparencyHeatMapInGrayscale);
}
MyGpuProfiler.IC_BeginNextBlock("OIT Resolve");
// resolve weighted blended OIT in accum / coverage to LBuffer
if (MyRender11.DebugOverrides.OIT)
{
ResolveOIT(accumTarget, coverageTarget);
}
ProfilerShort.BeginNextBlock("Billboards");
MyGpuProfiler.IC_BeginNextBlock("Billboards");
if (MyRender11.Settings.DrawBillboards)
{
MyBillboardRenderer.RenderAdditveTop(depthResource.SrvDepth);
}
RC.SetRtv(null);
MyGpuProfiler.IC_EndBlock();
coverageTarget.Release();
accumTarget.Release();
ProfilerShort.End();
}
// Returns the final image and copies it to renderTarget if non-null
private static IRtvTexture DrawGameScene(IRtvBindable renderTarget, out IBorrowedRtvTexture debugAmbientOcclusion)
{
MyGpuProfiler.IC_BeginBlockAlways("ClearAndGeometryRender");
PrepareGameScene();
// todo: shouldn't be necessary
if (true)
{
ProfilerShort.Begin("Clear");
MyRender11.RC.ClearState();
ProfilerShort.End();
}
if (MyStereoRender.Enable && MyStereoRender.EnableUsingStencilMask)
{
ProfilerShort.Begin("MyStereoStencilMask.Draw");
MyGpuProfiler.IC_BeginBlock("MyStereoStencilMask.Draw");
MyStereoStencilMask.Draw();
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
}
ProfilerShort.Begin("MyLights.Update");
MyLights.Update();
ProfilerShort.End();
ProfilerShort.Begin("DynamicGeometryRenderer");
MyCullQuery cullQuery = m_dynamicGeometryRenderer.PrepareCullQuery(true); // it is used to share rendering settings between the old and the new pipeline
ProfilerShort.End();
MyGpuProfiler.IC_BeginBlock("NewGeometryRenderer");
ProfilerShort.Begin("NewGeometryRenderer");
IGeometrySrvStrategy geometrySrvStrategy = MyManagers.GeometrySrvResolver.GetGeometrySrvStrategy();
if (MyDebugGeometryStage2.EnableNewGeometryPipeline)
{
MyManagers.GeometryRenderer.Render(cullQuery, geometrySrvStrategy);
}
ProfilerShort.End();
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("MyGeometryRenderer.Render");
Debug.Assert(m_commandLists.Count == 0, "Not all command lists executed last frame!");
ProfilerShort.Begin("DynamicGeometryRenderer");
m_dynamicGeometryRenderer.Render(m_commandLists);
ProfilerShort.End(); // End function block
if (MyScene.SeparateGeometry)
{
ProfilerShort.Begin("StaticGeometryRenderer");
m_staticGeometryRenderer.Render(m_commandLists); // , false);
ProfilerShort.End(); // End function block
}
SendGlobalOutputMessages();
ExecuteCommandLists(m_commandLists);
MyGpuProfiler.IC_EndBlock();
#if !UNSHARPER_TMP
MyManagers.EnvironmentProbe.FinalizeEnvProbes();
#endif
// cleanup context atfer deferred lists
if (true)
{
ProfilerShort.Begin("Clear3");
MyRender11.RC.ClearState();
ProfilerShort.End();
}
MyGpuProfiler.IC_EndBlockAlways();
IBorrowedRtvTexture gbuffer1Copy = MyGBuffer.Main.GetGbuffer1CopyRtv();
ProfilerShort.Begin("Render decals - Opaque");
MyGpuProfiler.IC_BeginBlock("Render decals - Opaque");
MyScreenDecals.Draw(gbuffer1Copy, false);
MyGpuProfiler.IC_EndBlock();
IBorrowedDepthStencilTexture depthStencilCopy = null; // Highlights need the depth state before foliage
if (MyHighlight.HasHighlights)
{
depthStencilCopy = MyGBuffer.Main.GetDepthStencilCopyRtv();
}
ProfilerShort.BeginNextBlock("Render foliage");
MyGpuProfiler.IC_BeginBlockAlways("RenderFoliage");
m_foliageRenderer.Render();
MyGpuProfiler.IC_EndBlockAlways();
MyGpuProfiler.IC_BeginBlock("GBuffer Resolve");
ProfilerShort.BeginNextBlock("MySceneMaterials.MoveToGPU");
MySceneMaterials.MoveToGPU();
MyRender11.RC.ResetTargets();
IBorrowedRtvTexture ambientOcclusionRtv = MyManagers.RwTexturesPool.BorrowRtv("MyScreenDependants.AmbientOcclusion",
ResolutionI.X, ResolutionI.Y, SharpDX.DXGI.Format.R8_UNorm);
debugAmbientOcclusion = ambientOcclusionRtv; // Pass the texture to the outside
int nPasses = MyStereoRender.Enable ? 2 : 1;
for (int i = 0; i < nPasses; i++)
{
if (MyStereoRender.Enable)
{
MyStereoRender.RenderRegion = i == 0 ? MyStereoRegion.LEFT : MyStereoRegion.RIGHT;
}
MyGBuffer.Main.ResolveMultisample();
ProfilerShort.BeginNextBlock("Shadows");
MyGpuProfiler.IC_BeginBlockAlways("Shadows");
IBorrowedUavTexture postProcessedShadows;
if (MyScene.SeparateGeometry)
{
MyShadowCascadesPostProcess.Combine(MyShadowCascades.CombineShadowmapArray, DynamicShadows.ShadowCascades, StaticShadows.ShadowCascades);
postProcessedShadows = DynamicShadows.ShadowCascades.PostProcess(MyShadowCascades.CombineShadowmapArray);
//MyShadowCascadesPostProcess.Combine(MyShadowCascades.CombineShadowmapArray,
// DynamicShadows.ShadowCascades, StaticShadows.ShadowCascades);
//postProcessedShadows =
// DynamicShadows.ShadowCascades.PostProcess(MyShadowCascades.CombineShadowmapArray);
}
else
{
postProcessedShadows = DynamicShadows.ShadowCascades.PostProcess(DynamicShadows.ShadowCascades.CascadeShadowmapArray);
//postProcessedShadows = MyManagers.Shadow.Evaluate();
}
MyGpuProfiler.IC_EndBlockAlways();
if (MySSAO.Params.Enabled && Settings.User.AmbientOcclusionEnabled &&
m_debugOverrides.Postprocessing && m_debugOverrides.SSAO)
{
ProfilerShort.BeginNextBlock("SSAO");
MyGpuProfiler.IC_BeginBlockAlways("SSAO");
MySSAO.Run(ambientOcclusionRtv, MyGBuffer.Main);
if (MySSAO.Params.UseBlur)
{
IBorrowedRtvTexture ambientOcclusionHelper = MyManagers.RwTexturesPool.BorrowRtv("MyScreenDependants.AmbientOcclusionHelper",
ResolutionI.X, ResolutionI.Y, SharpDX.DXGI.Format.R8_UNorm);
MyBlur.Run(ambientOcclusionRtv, ambientOcclusionHelper, ambientOcclusionRtv, clearColor: Color4.White);
ambientOcclusionHelper.Release();
}
MyGpuProfiler.IC_EndBlockAlways();
}
else if (MyHBAO.Params.Enabled && Settings.User.AmbientOcclusionEnabled &&
m_debugOverrides.Postprocessing && m_debugOverrides.SSAO)
{
ProfilerShort.BeginNextBlock("HBAO");
MyGpuProfiler.IC_BeginBlock("HBAO");
MyHBAO.Run(ambientOcclusionRtv, MyGBuffer.Main);
MyGpuProfiler.IC_EndBlock();
}
else
{
MyRender11.RC.ClearRtv(ambientOcclusionRtv, Color4.White);
}
ProfilerShort.BeginNextBlock("Lights");
MyGpuProfiler.IC_BeginBlockAlways("Lights");
if (m_debugOverrides.Lighting)
{
MyLightsRendering.Render(postProcessedShadows, ambientOcclusionRtv);
}
MyGpuProfiler.IC_EndBlockAlways();
postProcessedShadows.Release();
if (MyRender11.DebugOverrides.Flares)
{
MyLightsRendering.DrawFlares();
}
}
MyStereoRender.RenderRegion = MyStereoRegion.FULLSCREEN;
MyGpuProfiler.IC_EndBlock();
ProfilerShort.BeginNextBlock("Occlusion Queries");
MyGpuProfiler.IC_BeginBlock("Occlusion Queries");
MyOcclusionQueryRenderer.Render(RC, MyGBuffer.Main.ResolvedDepthStencil, MyGBuffer.Main.LBuffer);
MyGpuProfiler.IC_EndBlock();
// Rendering for VR is solved inside of Transparent rendering
ProfilerShort.BeginNextBlock("Transparent Pass");
MyGpuProfiler.IC_BeginBlockAlways("TransparentPass");
if (m_debugOverrides.Transparent)
{
MyTransparentRendering.Render(gbuffer1Copy);
}
MyGpuProfiler.IC_EndBlockAlways();
gbuffer1Copy.Release();
ProfilerShort.BeginNextBlock("PostProcess");
MyGpuProfiler.IC_BeginBlockAlways("PostProcess");
MyGpuProfiler.IC_BeginBlock("Luminance reduction");
IBorrowedUavTexture avgLum = null;
if (MyRender11.Postprocess.EnableEyeAdaptation)
{
if (m_resetEyeAdaptation)
{
MyLuminanceAverage.Reset();
m_resetEyeAdaptation = false;
}
avgLum = MyLuminanceAverage.Run(MyGBuffer.Main.LBuffer);
}
else
{
avgLum = MyLuminanceAverage.Skip();
}
MyGpuProfiler.IC_EndBlock();
IBorrowedUavTexture histogram = null;
if (MyRender11.Settings.DisplayHistogram)
{
histogram = MyHdrDebugTools.CreateHistogram(MyGBuffer.Main.LBuffer, MyGBuffer.Main.SamplesCount);
}
if (MyRender11.Settings.DisplayHdrIntensity)
{
MyHdrDebugTools.DisplayHdrIntensity(MyGBuffer.Main.LBuffer);
}
MyGpuProfiler.IC_BeginBlock("Bloom");
IBorrowedUavTexture bloom;
if (m_debugOverrides.Postprocessing && m_debugOverrides.Bloom)
{
bloom = MyBloom.Run(MyGBuffer.Main.LBuffer, MyGBuffer.Main.GBuffer2, MyGBuffer.Main.ResolvedDepthStencil.SrvDepth);
}
else
{
bloom = MyManagers.RwTexturesPool.BorrowUav("bloom_EightScreenUavHDR", MyRender11.ResolutionI.X / 8, MyRender11.ResolutionI.Y / 8, MyGBuffer.LBufferFormat);
MyRender11.RC.ClearRtv(bloom, Color4.Black);
}
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("Tone mapping");
IBorrowedUavTexture tonemapped = MyToneMapping.Run(MyGBuffer.Main.LBuffer, avgLum, bloom, Postprocess.EnableTonemapping && m_debugOverrides.Postprocessing && m_debugOverrides.Tonemapping);
bloom.Release();
MyGpuProfiler.IC_EndBlock();
IRtvTexture renderedImage;
IBorrowedCustomTexture fxaaTarget = null;
bool fxaa = MyRender11.FxaaEnabled;
if (fxaa)
{
fxaaTarget = MyManagers.RwTexturesPool.BorrowCustom("MyRender11.FXAA.Rgb8");
MyGpuProfiler.IC_BeginBlock("FXAA");
MyFXAA.Run(fxaaTarget.Linear, tonemapped);
MyGpuProfiler.IC_EndBlock();
renderedImage = fxaaTarget.SRgb;
}
else
{
renderedImage = tonemapped;
}
ProfilerShort.Begin("MyHighlight.Run");
MyHighlight.Run(renderedImage, fxaaTarget, depthStencilCopy);
ProfilerShort.End();
if (depthStencilCopy != null)
{
depthStencilCopy.Release();
}
if (renderTarget != null)
{
MyCopyToRT.Run(renderTarget, renderedImage);
}
if (MyRender11.Settings.DisplayHistogram)
{
if (renderTarget != null && avgLum != null)
{
MyHdrDebugTools.DisplayHistogram(renderTarget, avgLum, histogram);
}
}
MyGpuProfiler.IC_EndBlockAlways();
ProfilerShort.End();
if (fxaaTarget != null)
{
fxaaTarget.Release();
}
if (histogram != null)
{
histogram.Release();
}
avgLum.Release();
tonemapped.Release();
// HOTFIX: MyDebugTextureDisplay uses borrowed textures. If we place MyDebugTextureDisplay to the different location, we will have problem with borrowed textures (comment by Michal)
ProfilerShort.Begin("MyDebugTextureDisplay.Draw");
MyGpuProfiler.IC_BeginBlock("MyDebugTextureDisplay.Draw");
MyDebugTextureDisplay.Draw(MyRender11.Backbuffer);
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
return(renderedImage);
}
/// <param name="clearColor">Color used to clear render targets. Defaults to black</param>
internal static void Run(IRtvBindable renderTarget, IRtvTexture intermediate, ISrvBindable initialResourceView,
int maxOffset = 5, MyBlurDensityFunctionType densityFunctionType = MyBlurDensityFunctionType.Gaussian, float WeightParameter = 1.5f,
IDepthStencilState depthStencilState = null, int stencilRef = 0x0, Color4 clearColor = default(Color4),
float depthDiscardThreshold = 0.0f, MyViewport?viewport = null)
{
ProfilerShort.Begin("MyBlur.Run");
MyGpuProfiler.IC_BeginBlock("MyBlur.Run");
Debug.Assert(initialResourceView != null);
Debug.Assert(intermediate != null);
Debug.Assert(renderTarget != null);
int shaderKey = InitShaders(densityFunctionType, maxOffset, depthDiscardThreshold);
RC.PixelShader.SetConstantBuffer(5, m_blurConstantBuffer);
BlurConstants constants = new BlurConstants
{
DistributionWeight = WeightParameter,
StencilRef = stencilRef,
};
var mapping = MyMapping.MapDiscard(m_blurConstantBuffer);
mapping.WriteAndPosition(ref constants);
mapping.Unmap();
// Horizontal pass
// NOTE: DepthStencilState is not used here because the resulted target
// would not be usable to perform vertical pass. DepthStencil is stil
// bindinded as SRV since it is sampled in the shader
RC.ClearRtv(intermediate, clearColor);
RC.SetRtv(intermediate);
RC.PixelShader.SetSrv(0, MyGBuffer.Main.DepthStencil.SrvDepth);
RC.PixelShader.SetSrv(4, MyGBuffer.Main.DepthStencil.SrvStencil);
RC.SetDepthStencilState(MyDepthStencilStateManager.IgnoreDepthStencil);
RC.PixelShader.SetSrv(5, initialResourceView);
RC.PixelShader.Set(m_blurShaders[shaderKey].Item1);
MyScreenPass.DrawFullscreenQuad(viewport);
RC.PixelShader.SetSrv(5, null);
// Vertical pass
RC.ClearRtv(renderTarget, clearColor);
if (depthStencilState == null)
{
RC.SetRtv(renderTarget);
}
else
{
RC.SetDepthStencilState(depthStencilState, stencilRef);
RC.SetRtv(MyGBuffer.Main.DepthStencil, MyDepthStencilAccess.ReadOnly, renderTarget);
}
RC.PixelShader.SetSrv(5, intermediate);
RC.PixelShader.Set(m_blurShaders[shaderKey].Item2);
MyScreenPass.DrawFullscreenQuad(viewport);
RC.PixelShader.SetSrv(0, null);
RC.PixelShader.SetSrv(4, null);
RC.PixelShader.SetSrv(5, null);
RC.SetRtv(null);
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
}
internal void GatherArray(IUavTexture postprocessTarget, ISrvBindable cascadeArray, MyProjectionInfo[] cascadeInfo, ConstantsBufferId cascadeConstantBuffer)
{
MyShadowsQuality shadowsQuality = MyRender11.RenderSettings.ShadowQuality.GetShadowsQuality();
if (!MyRender11.Settings.EnableShadows || !MyRender11.DebugOverrides.Shadows || shadowsQuality == MyShadowsQuality.DISABLED)
{
RC.ClearUav(postprocessTarget, new RawInt4());
return;
}
MarkCascadesInStencil(cascadeInfo);
MyGpuProfiler.IC_BeginBlock("Cascades postprocess");
if (shadowsQuality == MyShadowsQuality.LOW)
{
RC.ComputeShader.Set(m_gatherCS_LD);
}
else if (shadowsQuality == MyShadowsQuality.MEDIUM)
{
RC.ComputeShader.Set(m_gatherCS_MD);
}
else if (shadowsQuality == MyShadowsQuality.HIGH)
{
RC.ComputeShader.Set(m_gatherCS_HD);
}
RC.ComputeShader.SetUav(0, postprocessTarget);
RC.ComputeShader.SetSrv(0, MyRender11.MultisamplingEnabled ? MyScreenDependants.m_resolvedDepth.SrvDepth : MyGBuffer.Main.DepthStencil.SrvDepth);
RC.ComputeShader.SetSrv(1, MyGBuffer.Main.DepthStencil.SrvStencil);
RC.ComputeShader.SetSampler(MyCommon.SHADOW_SAMPLER_SLOT, MySamplerStateManager.Shadowmap);
if (!MyStereoRender.Enable)
{
RC.ComputeShader.SetConstantBuffer(MyCommon.FRAME_SLOT, MyCommon.FrameConstants);
}
else
{
MyStereoRender.CSBindRawCB_FrameConstants(RC);
}
//RC.ComputeShader.SetConstantBuffer(4, MyManagers.Shadows.GetCsmConstantBufferOldOne());
RC.ComputeShader.SetConstantBuffer(4, cascadeConstantBuffer);
RC.ComputeShader.SetSrv(MyCommon.CASCADES_SM_SLOT, cascadeArray);
//RC.ComputeShader.SetSrv(MyCommon.CASCADES_SM_SLOT, MyManagers.Shadow.GetCsmForGbuffer());
Vector2I threadGroups = GetThreadGroupCount();
RC.Dispatch(threadGroups.X, threadGroups.Y, 1);
RC.ComputeShader.SetUav(0, null);
RC.ComputeShader.SetSrv(0, null);
RC.ComputeShader.SetSrv(1, null);
if (shadowsQuality == MyShadowsQuality.HIGH && MyShadowCascades.Settings.Data.EnableShadowBlur)
{
IBorrowedUavTexture helper = MyManagers.RwTexturesPool.BorrowUav("MyShadowCascadesPostProcess.Helper", Format.R8_UNorm);
MyBlur.Run(postprocessTarget, helper, postprocessTarget,
depthStencilState: MyDepthStencilStateManager.IgnoreDepthStencil,
depthDiscardThreshold: 0.2f, clearColor: Color4.White);
helper.Release();
}
MyGpuProfiler.IC_EndBlock();
}
// Returns the final image and copies it to renderTarget if non-null
private static MyBindableResource DrawGameScene(MyBindableResource renderTarget)
{
ProfilerShort.Begin("DrawGameScene");
PrepareGameScene();
// todo: shouldn't be necessary
if (true)
{
ProfilerShort.Begin("Clear");
MyRenderContext.Immediate.Clear();
MyRenderContext.Immediate.DeviceContext.ClearState();
ProfilerShort.End();
}
Debug.Assert(m_commandLists.Count == 0, "Not all command lists executed last frame!");
DynamicGeometryRenderer.Render(m_commandLists, true);
if (MyScene.SeparateGeometry)
{
StaticGeometryRenderer.Render(m_commandLists, false);
}
SendGlobalOutputMessages();
ExecuteCommandLists(m_commandLists);
MyEnvironmentProbe.FinalizeEnvProbes();
// cleanup context atfer deferred lists
if (MyRender11.DeferredContextsEnabled)
{
ProfilerShort.Begin("Clear2");
MyRenderContext.Immediate.Clear();
ProfilerShort.End();
}
// todo: shouldn't be necessary
if (true)
{
ProfilerShort.Begin("Clear3");
MyRenderContext.Immediate.Clear();
MyRenderContext.Immediate.DeviceContext.ClearState();
ProfilerShort.End();
}
ProfilerShort.Begin("Render decals");
MyGpuProfiler.IC_BeginBlock("Render decals");
MyRender11.CopyGbufferToScratch();
MyScreenDecals.Draw();
MyGpuProfiler.IC_EndBlock();
ProfilerShort.BeginNextBlock("Render foliage");
MyGpuProfiler.IC_BeginBlock("Render foliage");
m_foliageRenderer.Render();
MyGpuProfiler.IC_EndBlock();
ProfilerShort.BeginNextBlock("MySceneMaterials.MoveToGPU");
MySceneMaterials.MoveToGPU();
ProfilerShort.BeginNextBlock("Postprocessing");
MyGpuProfiler.IC_BeginBlock("Postprocessing");
if (MultisamplingEnabled)
{
MyRender11.DeviceContext.ClearDepthStencilView(MyScreenDependants.m_resolvedDepth.m_DSV, DepthStencilClearFlags.Depth | DepthStencilClearFlags.Stencil, 1, 0);
MyGpuProfiler.IC_BeginBlock("MarkAAEdges");
MyAAEdgeMarking.Run();
MyGpuProfiler.IC_EndBlock();
MyDepthResolve.Run(MyScreenDependants.m_resolvedDepth, MyGBuffer.Main.DepthStencil.Depth);
}
if (MyScene.SeparateGeometry)
{
MyShadowCascadesPostProcess.Combine(MyShadowCascades.CombineShadowmapArray, DynamicShadows.ShadowCascades, StaticShadows.ShadowCascades);
DynamicShadows.ShadowCascades.PostProcess(MyRender11.PostProcessedShadows, MyShadowCascades.CombineShadowmapArray);
}
else
{
DynamicShadows.ShadowCascades.PostProcess(MyRender11.PostProcessedShadows, DynamicShadows.ShadowCascades.CascadeShadowmapArray);
}
MyGpuProfiler.IC_BeginBlock("SSAO");
if (Postprocess.EnableSsao)
{
MySSAO.Run(MyScreenDependants.m_ambientOcclusion, MyGBuffer.Main, MyRender11.MultisamplingEnabled ? MyScreenDependants.m_resolvedDepth.Depth : MyGBuffer.Main.DepthStencil.Depth);
if (MySSAO.UseBlur)
{
MyBlur.Run(MyScreenDependants.m_ambientOcclusion, MyScreenDependants.m_ambientOcclusionHelper, MyScreenDependants.m_ambientOcclusion);
}
}
else
{
MyRender11.DeviceContext.ClearRenderTargetView(MyScreenDependants.m_ambientOcclusion.m_RTV, Color4.White);
}
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("Lights");
MyLightRendering.Render();
MyGpuProfiler.IC_EndBlock();
ProfilerShort.BeginNextBlock("Billboards");
MyGpuProfiler.IC_BeginBlock("Billboards");
if (MyRender11.MultisamplingEnabled)
{
MyBillboardRenderer.Render(MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), MyScreenDependants.m_resolvedDepth, MyScreenDependants.m_resolvedDepth.Depth);
}
else
{
MyBillboardRenderer.Render(MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), MyGBuffer.Main.DepthStencil, MyGBuffer.Main.DepthStencil.Depth);
}
MyGpuProfiler.IC_EndBlock();
ProfilerShort.BeginNextBlock("Atmosphere");
MyGpuProfiler.IC_BeginBlock("Atmosphere");
MyAtmosphereRenderer.Render();
MyGpuProfiler.IC_EndBlock();
ProfilerShort.BeginNextBlock("Clouds");
MyGpuProfiler.IC_BeginBlock("Clouds");
MyCloudRenderer.Render();
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
MyGpuProfiler.IC_BeginBlock("Luminance reduction");
MyBindableResource avgLum = null;
if (MyRender11.MultisamplingEnabled)
{
MyRenderContext.Immediate.DeviceContext.ResolveSubresource(MyGBuffer.Main.Get(MyGbufferSlot.LBuffer).m_resource, 0, MyGBuffer.Main.Get(MyGbufferSlot.LBufferResolved).m_resource, 0, SharpDX.DXGI.Format.R11G11B10_Float);
}
if (m_resetEyeAdaptation)
{
MyRenderContext.Immediate.DeviceContext.ClearUnorderedAccessView(m_prevLum.m_UAV, Int4.Zero);
m_resetEyeAdaptation = false;
}
avgLum = MyLuminanceAverage.Run(m_reduce0, m_reduce1, MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), m_prevLum);
MyGpuProfiler.IC_EndBlock();
if (MyRender11.Settings.DisplayHdrDebug)
{
var src = MyGBuffer.Main.Get(MyGbufferSlot.LBuffer) as MyRenderTarget;
MyHdrDebugTools.CreateHistogram(src.m_SRV, src.m_resolution, src.m_samples.X);
}
MyGpuProfiler.IC_BeginBlock("Bloom");
var bloom = MyBloom.Run(MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), avgLum);
MyGpuProfiler.IC_EndBlock();
MyBindableResource tonemapped;
if (MyRender11.FxaaEnabled)
{
tonemapped = m_rgba8_linear;
}
else
{
tonemapped = m_uav3;
}
MyGpuProfiler.IC_BeginBlock("Tone mapping");
MyToneMapping.Run(tonemapped, MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), avgLum, bloom, Postprocess.EnableTonemapping);
MyGpuProfiler.IC_EndBlock();
MyBindableResource renderedImage;
if (MyRender11.FxaaEnabled)
{
MyGpuProfiler.IC_BeginBlock("FXAA");
MyFXAA.Run(m_rgba8_0.GetView(new MyViewKey {
Fmt = SharpDX.DXGI.Format.R8G8B8A8_UNorm, View = MyViewEnum.RtvView
}), tonemapped);
MyGpuProfiler.IC_EndBlock();
renderedImage = m_rgba8_0.GetView(new MyViewKey {
Fmt = SharpDX.DXGI.Format.R8G8B8A8_UNorm_SRgb, View = MyViewEnum.SrvView
});
}
else
{
//renderedImage = (tonemapped as MyCustomTexture).GetView(new MyViewKey { Fmt = SharpDX.DXGI.Format.R8G8B8A8_UNorm_SRgb, View = MyViewEnum.SrvView });
renderedImage = tonemapped;
}
ProfilerShort.Begin("Outline");
if (MyOutline.AnyOutline())
{
MyOutline.Run();
MyGpuProfiler.IC_BeginBlock("Outline Blending");
ProfilerShort.Begin("Outline Blending");
if (MyRender11.FxaaEnabled)
{
MyBlendTargets.RunWithStencil(
m_rgba8_0.GetView(new MyViewKey {
Fmt = SharpDX.DXGI.Format.R8G8B8A8_UNorm_SRgb, View = MyViewEnum.RtvView
}),
MyRender11.m_rgba8_1,
MyRender11.BlendAdditive,
MyDepthStencilState.TestOutlineMeshStencil,
0x40);
MyBlendTargets.RunWithStencil(
m_rgba8_0.GetView(new MyViewKey {
Fmt = SharpDX.DXGI.Format.R8G8B8A8_UNorm_SRgb, View = MyViewEnum.RtvView
}),
MyRender11.m_rgba8_1,
MyRender11.BlendTransparent,
MyDepthStencilState.TestHighlightMeshStencil,
0x40);
}
else
{
if (MyRender11.MultisamplingEnabled)
{
MyBlendTargets.RunWithPixelStencilTest(tonemapped, MyRender11.m_rgba8_ms, MyRender11.BlendAdditive);
MyBlendTargets.RunWithPixelStencilTest(tonemapped, MyRender11.m_rgba8_ms, MyRender11.BlendTransparent, true);
}
else
{
MyBlendTargets.RunWithStencil(tonemapped, MyRender11.m_rgba8_1, MyRender11.BlendAdditive, MyDepthStencilState.TestOutlineMeshStencil, 0x40);
MyBlendTargets.RunWithStencil(tonemapped, MyRender11.m_rgba8_1, MyRender11.BlendTransparent, MyDepthStencilState.TestHighlightMeshStencil, 0x40);
}
}
ProfilerShort.End();
MyGpuProfiler.IC_EndBlock();
}
ProfilerShort.End();
if (renderTarget != null)
{
MyCopyToRT.Run(renderTarget, renderedImage);
}
if (MyRender11.Settings.DisplayHdrDebug)
{
MyHdrDebugTools.DisplayHistogram((renderTarget as IRenderTargetBindable).RTV, (avgLum as IShaderResourceBindable).SRV);
}
MyGpuProfiler.IC_EndBlock();
ProfilerShort.End();
return(renderedImage);
}
private unsafe void MarkCascadesInStencil(MyProjectionInfo[] cascadeInfo)
{
MyGpuProfiler.IC_BeginBlock("MarkCascadesInStencil");
//RC.SetRS(MyRasterizerState.CullCW);
RC.SetPrimitiveTopology(PrimitiveTopology.TriangleList);
RC.SetVertexBuffer(0, m_cascadesBoundingsVertices.Buffer, m_cascadesBoundingsVertices.Stride);
RC.SetIndexBuffer(m_cubeIB.Buffer, m_cubeIB.Format);
RC.SetInputLayout(m_inputLayout);
RC.SetViewport(0, 0, MyRender11.ViewportResolution.X, MyRender11.ViewportResolution.Y);
if (!MyStereoRender.Enable)
{
RC.AllShaderStages.SetConstantBuffer(MyCommon.FRAME_SLOT, MyCommon.FrameConstants);
}
else
{
MyStereoRender.BindRawCB_FrameConstants(RC);
}
RC.SetRtv(MyGBuffer.Main.DepthStencil, MyDepthStencilAccess.DepthReadOnly);
RC.VertexShader.Set(m_markVS);
RC.PixelShader.Set(m_markPS);
const int vertexCount = 8;
Vector3D *frustumVerticesSS = stackalloc Vector3D[vertexCount];
frustumVerticesSS[0] = new Vector3D(-1, -1, 0);
frustumVerticesSS[1] = new Vector3D(-1, 1, 0);
frustumVerticesSS[2] = new Vector3D(1, 1, 0);
frustumVerticesSS[3] = new Vector3D(1, -1, 0);
frustumVerticesSS[4] = new Vector3D(-1, -1, 1);
frustumVerticesSS[5] = new Vector3D(-1, 1, 1);
frustumVerticesSS[6] = new Vector3D(1, 1, 1);
frustumVerticesSS[7] = new Vector3D(1, -1, 1);
Vector3D *lightVertices = stackalloc Vector3D[vertexCount];
Vector3 * tmpFloatVertices = stackalloc Vector3[vertexCount];
var mapping = MyMapping.MapDiscard(m_cascadesBoundingsVertices.Buffer);
for (int cascadeIndex = 0; cascadeIndex < MyShadowCascades.Settings.NewData.CascadesCount; ++cascadeIndex)
{
var inverseViewProj = MatrixD.Invert(cascadeInfo[cascadeIndex].CurrentLocalToProjection);
for (int arrayIndex = 0; arrayIndex < vertexCount; ++arrayIndex)
{
Vector3D.Transform(ref frustumVerticesSS[arrayIndex], ref inverseViewProj, out lightVertices[arrayIndex]);
tmpFloatVertices[arrayIndex] = lightVertices[arrayIndex];
}
for (int arrayIndex = 0; arrayIndex < vertexCount; ++arrayIndex)
{
mapping.WriteAndPosition(ref tmpFloatVertices[arrayIndex]);
}
}
mapping.Unmap();
if (MyStereoRender.Enable)
{
MyStereoRender.SetViewport(RC);
}
for (int cascadeIndex = 0; cascadeIndex < MyShadowCascades.Settings.NewData.CascadesCount; ++cascadeIndex)
{
RC.SetDepthStencilState(MyDepthStencilStateManager.MarkIfInsideCascade[cascadeIndex], 0xf - cascadeIndex);
// mark ith bit on depth near
RC.DrawIndexed(36, 0, 8 * cascadeIndex);
}
RC.SetRtv(null);
RC.SetDepthStencilState(MyDepthStencilStateManager.DefaultDepthState);
RC.SetRasterizerState(null);
MyGpuProfiler.IC_EndBlock();
}
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);
}
private static void DrawGameScene(bool blitToBackbuffer)
{
ResetStats();
MyCommon.UpdateFrameConstants();
// todo: shouldn't be necessary
if (true)
{
MyImmediateRC.RC.Clear();
MyImmediateRC.RC.Context.ClearState();
}
MyRender11.GetRenderProfiler().StartProfilingBlock("MyGeometryRenderer.Render");
MyGpuProfiler.IC_BeginBlock("MyGeometryRenderer.Render");
MyGeometryRenderer.Render();
MyGpuProfiler.IC_EndBlock();
MyRender11.GetRenderProfiler().EndProfilingBlock();
// cleanup context atfer deferred lists
if (MyRender11.DeferredContextsEnabled)
{
MyImmediateRC.RC.Clear();
}
// todo: shouldn't be necessary
if (true)
{
MyImmediateRC.RC.Clear();
MyImmediateRC.RC.Context.ClearState();
}
MyRender11.GetRenderProfiler().StartProfilingBlock("Render foliage");
MyGpuProfiler.IC_BeginBlock("Render foliage");
MyFoliageRenderer.Render();
MyGpuProfiler.IC_EndBlock();
MyRender11.GetRenderProfiler().EndProfilingBlock();
MySceneMaterials.MoveToGPU();
MyRender11.GetRenderProfiler().StartProfilingBlock("Postprocessing");
MyGpuProfiler.IC_BeginBlock("Postprocessing");
if (MultisamplingEnabled)
{
MyRender11.Context.ClearDepthStencilView(MyScreenDependants.m_resolvedDepth.m_DSV, DepthStencilClearFlags.Depth | DepthStencilClearFlags.Stencil, 1, 0);
MyGpuProfiler.IC_BeginBlock("MarkAAEdges");
MyAAEdgeMarking.Run();
MyGpuProfiler.IC_EndBlock();
MyDepthResolve.Run(MyScreenDependants.m_resolvedDepth, MyGBuffer.Main.DepthStencil.Depth);
}
MyGpuProfiler.IC_BeginBlock("MarkCascades");
MyShadows.MarkCascadesInStencil();
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("Shadows resolve");
MyShadowsResolve.Run();
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("SSAO");
if (Postprocess.EnableSsao)
{
MySSAO.Run(MyScreenDependants.m_ambientOcclusion, MyGBuffer.Main, MyRender11.MultisamplingEnabled ? MyScreenDependants.m_resolvedDepth.Depth : MyGBuffer.Main.DepthStencil.Depth);
}
else
{
MyRender11.Context.ClearRenderTargetView(MyScreenDependants.m_ambientOcclusion.m_RTV, Color4.White);
}
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("Lights");
MyLightRendering.Render();
MyGpuProfiler.IC_EndBlock();
MyRender11.GetRenderProfiler().StartProfilingBlock("Billboards");
MyGpuProfiler.IC_BeginBlock("Billboards");
MyRender11.Context.ClearRenderTargetView((MyScreenDependants.m_particlesRT as IRenderTargetBindable).RTV, new Color4(0, 0, 0, 0));
if (MyRender11.MultisamplingEnabled)
{
MyBillboardRenderer.Render(MyScreenDependants.m_particlesRT, MyScreenDependants.m_resolvedDepth, MyScreenDependants.m_resolvedDepth.Depth);
}
else
{
MyBillboardRenderer.Render(MyScreenDependants.m_particlesRT, MyGBuffer.Main.DepthStencil, MyGBuffer.Main.DepthStencil.Depth);
}
MyBlendTargets.Run(MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), MyScreenDependants.m_particlesRT);
MyGpuProfiler.IC_EndBlock();
MyRender11.GetRenderProfiler().EndProfilingBlock();
MyGpuProfiler.IC_BeginBlock("Luminance reduction");
MyBindableResource avgLum = null;
if (MyRender11.MultisamplingEnabled)
{
//MyLBufferResolve.Run(MyGBuffer.Main.Get(MyGbufferSlot.LBufferResolved), MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), MyGBuffer.Main.DepthStencil.Stencil);
MyImmediateRC.RC.Context.ResolveSubresource(MyGBuffer.Main.Get(MyGbufferSlot.LBuffer).m_resource, 0, MyGBuffer.Main.Get(MyGbufferSlot.LBufferResolved).m_resource, 0, SharpDX.DXGI.Format.R11G11B10_Float);
}
if (m_resetEyeAdaptation)
{
MyImmediateRC.RC.Context.ClearUnorderedAccessView(m_prevLum.m_UAV, Int4.Zero);
m_resetEyeAdaptation = false;
}
avgLum = MyLuminanceAverage.Run(m_reduce0, m_reduce1, MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), m_prevLum, m_localLum);
MyGpuProfiler.IC_EndBlock();
if (MyRender11.Settings.ShowLuminanceHistogram)
{
var src = MyGBuffer.Main.Get(MyGbufferSlot.LBuffer) as MyRenderTarget;
MyLuminanceDebugTools.CreateHistogram(src.m_SRV, src.m_resolution, src.m_samples.X);
}
MyGpuProfiler.IC_BeginBlock("Bloom");
var bloom = MyBloom.Run(MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), avgLum);
MyGpuProfiler.IC_EndBlock();
MyBindableResource tonemapped;
if (MyRender11.FxaaEnabled)
{
tonemapped = m_rgba8_linear;
}
else
{
tonemapped = m_uav3;
}
MyGpuProfiler.IC_BeginBlock("Tone mapping");
MyToneMapping.Run(tonemapped, MyGBuffer.Main.Get(MyGbufferSlot.LBuffer), avgLum, bloom, MyRender11.Settings.EnableTonemapping && Postprocess.EnableTonemapping);
MyGpuProfiler.IC_EndBlock();
MyBindableResource renderedImage;
if (MyRender11.FxaaEnabled)
{
MyGpuProfiler.IC_BeginBlock("FXAA");
MyFXAA.Run(m_rgba8_0.GetView(new MyViewKey {
Fmt = SharpDX.DXGI.Format.R8G8B8A8_UNorm, View = MyViewEnum.RtvView
}), tonemapped);
MyGpuProfiler.IC_EndBlock();
renderedImage = m_rgba8_0.GetView(new MyViewKey {
Fmt = SharpDX.DXGI.Format.R8G8B8A8_UNorm_SRgb, View = MyViewEnum.SrvView
});
}
else
{
//renderedImage = (tonemapped as MyCustomTexture).GetView(new MyViewKey { Fmt = SharpDX.DXGI.Format.R8G8B8A8_UNorm_SRgb, View = MyViewEnum.SrvView });
renderedImage = tonemapped;
}
m_finalImage = renderedImage;
if (blitToBackbuffer)
{
MyCopyToRT.Run(Backbuffer, renderedImage);
}
if (MyRender11.Settings.ShowLuminanceHistogram)
{
MyLuminanceDebugTools.DisplayHistogram(Backbuffer.m_RTV);
}
MyGpuProfiler.IC_EndBlock();
MyRender11.GetRenderProfiler().EndProfilingBlock();
}
internal static void Present()
{
if (m_swapchain != null)
{
if (m_screenshot.HasValue)
{
if (m_screenshot.Value.SizeMult == VRageMath.Vector2.One)
{
MyCopyToRT.ClearAlpha(Backbuffer);
SaveScreenshotFromResource(Backbuffer.m_resource);
}
else
{
TakeCustomSizedScreenshot(m_screenshot.Value.SizeMult);
}
}
GetRenderProfiler().StartProfilingBlock("Waiting for present");
try
{
m_swapchain.Present(m_settings.VSync ? 1 : 0, 0);
m_consecutivePresentFails = 0;
if (m_presentTimer == null)
{
m_presentTimer = new Stopwatch();
}
else
{
m_presentTimer.Stop();
if (m_presentTimes.Count >= PresentTimesStored)
{
m_presentTimes.Dequeue();
}
m_presentTimes.Enqueue(m_presentTimer.ElapsedMilliseconds);
}
m_presentTimer.Restart();
}
catch (SharpDXException e)
{
Log.WriteLine("Device removed - resetting device; reason: " + e.ToString());
HandleDeviceReset();
Log.WriteLine("Device removed - resetting completed");
m_consecutivePresentFails++;
if (m_consecutivePresentFails == 5)
{
Log.WriteLine("Present failed");
Log.IncreaseIndent();
if (e.Descriptor == SharpDX.DXGI.ResultCode.DeviceRemoved)
{
Log.WriteLine("Device removed: " + Device.DeviceRemovedReason);
}
var timings = "";
while (m_presentTimes.Count > 0)
{
timings += m_presentTimes.Dequeue();
if (m_presentTimes.Count > 0)
{
timings += ", ";
}
}
Log.WriteLine("Last present timings = [ " + timings + " ]");
Log.DecreaseIndent();
}
}
GetRenderProfiler().EndProfilingBlock();
if (m_profilingStarted)
{
MyGpuProfiler.IC_EndBlock();
}
MyGpuProfiler.EndFrame();
MyGpuProfiler.StartFrame();
m_profilingStarted = true;
// waiting for change to fullscreen - window migh overlap or some other dxgi excuse to fail :(
TryChangeToFullscreen();
}
}
internal static void Render()
{
MyLights.Update();
MyGpuProfiler.IC_BeginBlock("Map lights to tiles");
if (MyRender11.DebugOverrides.PointLights)
{
PreparePointLights();
}
MyGpuProfiler.IC_EndBlock();
RC.DeviceContext.InputAssembler.PrimitiveTopology = PrimitiveTopology.TriangleList;
if (!MyStereoRender.Enable)
{
RC.CSSetCB(MyCommon.FRAME_SLOT, MyCommon.FrameConstants);
}
else
{
MyStereoRender.CSBindRawCB_FrameConstants(RC);
}
RC.BindGBufferForRead(0, MyGBuffer.Main);
RC.BindRawSRV(MyCommon.MATERIAL_BUFFER_SLOT, MySceneMaterials.m_buffer);
RC.SetBS(MyRender11.BlendAdditive);
if (!MyStereoRender.Enable)
{
RC.SetDS(MyDepthStencilState.IgnoreDepthStencil);
}
else
{
RC.SetDS(MyDepthStencilState.StereoIgnoreDepthStencil);
}
RC.DeviceContext.PixelShader.SetSamplers(0, SamplerStates.StandardSamplers);
MyGpuProfiler.IC_BeginBlock("Apply point lights");
if (MyRender11.DebugOverrides.PointLights)
{
RenderPointlightsTiled();
}
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("Apply spotlights");
if (MyRender11.DebugOverrides.SpotLights)
{
RenderSpotlights();
}
MyGpuProfiler.IC_EndBlock();
MyGpuProfiler.IC_BeginBlock("Apply directional light");
if (MyRender11.DebugOverrides.EnvLight)
{
RenderDirectionalEnvironmentLight();
}
MyGpuProfiler.IC_EndBlock();
// Because of BindGBufferForRead:
RC.BindRawSRV(0, null);
RC.BindRawSRV(1, null);
RC.BindRawSRV(2, null);
RC.BindRawSRV(3, null);
RC.BindRawSRV(4, null);
RC.CSBindRawSRV(0, null);
RC.CSBindRawSRV(1, null);
RC.CSBindRawSRV(2, null);
RC.CSBindRawSRV(3, null);
RC.CSBindRawSRV(4, null);
RC.SetBS(null);
}
