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o3de/Gems/Atom/Feature/Common/Code/Source/PostProcessing/LookModificationCompositePa...

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/*
* Copyright (c) Contributors to the Open 3D Engine Project.
* For complete copyright and license terms please see the LICENSE at the root of this distribution.
*
* SPDX-License-Identifier: Apache-2.0 OR MIT
*
*/
#include <Atom/RPI.Public/RenderPipeline.h>
#include <Atom/RPI.Public/View.h>
#include <Atom/RPI.Public/Scene.h>
#include <Atom/RPI.Public/Pass/PassFilter.h>
#include <Atom/RPI.Public/Pass/PassSystem.h>
#include <Atom/RPI.Public/Shader/ShaderVariant.h>
#include <Atom/RHI/FrameScheduler.h>
#include <Atom/RHI/PipelineState.h>
#include <AzCore/Console/Console.h>
#include <PostProcessing/LookModificationCompositePass.h>
#include <PostProcess/PostProcessFeatureProcessor.h>
#include <PostProcess/ExposureControl/ExposureControlSettings.h>
namespace AZ
{
namespace Render
{
AZ_CVAR(uint8_t,
r_lutSampleQuality,
0,
[](const uint8_t& value)
{
auto passes = RPI::PassSystem::Get()->FindPasses(RPI::PassClassFilter<LookModificationCompositePass>());
for (auto* pass : passes)
{
LookModificationCompositePass* lookModPass = azrtti_cast<LookModificationCompositePass*>(pass);
lookModPass->SetSampleQuality(LookModificationCompositePass::SampleQuality(value));
}
},
ConsoleFunctorFlags::Null,
"This can be increased to deal with particularly tricky luts. Range (0-2). 0 (default) - Standard linear sampling. 1 - 7 tap b-spline sampling. 2 - 19 tap b-spline sampling."
);
RPI::Ptr<LookModificationCompositePass> LookModificationCompositePass::Create(const RPI::PassDescriptor& descriptor)
{
RPI::Ptr<LookModificationCompositePass> pass = aznew LookModificationCompositePass(descriptor);
return AZStd::move(pass);
}
LookModificationCompositePass::LookModificationCompositePass(const RPI::PassDescriptor& descriptor)
: AZ::RPI::FullscreenTrianglePass(descriptor)
{
}
void LookModificationCompositePass::SetExposureControlEnabled(bool enabled)
{
if (m_exposureControlEnabled != enabled)
{
m_exposureControlEnabled = enabled;
m_needToUpdateShaderVariant = true;
}
}
void LookModificationCompositePass::InitializeInternal()
{
FullscreenTrianglePass::InitializeInternal();
m_shaderColorGradingLutImageIndex.Reset();
m_shaderColorGradingShaperTypeIndex.Reset();
m_shaderColorGradingShaperBiasIndex.Reset();
m_shaderColorGradingShaperScaleIndex.Reset();
InitializeShaderVariant();
}
void LookModificationCompositePass::InitializeShaderVariant()
{
AZ_Assert(m_shader != nullptr, "LookModificationCompositePass %s has a null shader when calling InitializeShaderVariant.", GetPathName().GetCStr());
struct OptionSettings
{
AZ::Name m_enableExposureControl;
AZ::Name m_enableColorGrading;
RPI::ShaderOptionValue m_lutSampleQuality;
OptionSettings(const char* enableExposureControl, const char* enableColorGrading, SampleQuality sampleQuality)
: m_enableExposureControl(Name(enableExposureControl))
, m_enableColorGrading(Name(enableColorGrading))
, m_lutSampleQuality(RPI::ShaderOptionValue(sampleQuality))
{}
};
AZStd::vector<OptionSettings> options =
{
{ "false", "false", SampleQuality::Linear },
{ "true", "false", SampleQuality::Linear },
{ "false", "true", SampleQuality::Linear },
{ "false", "true", SampleQuality::BSpline7Tap },
{ "false", "true", SampleQuality::BSpline19Tap },
{ "true", "true", SampleQuality::Linear },
{ "true", "true", SampleQuality::BSpline7Tap },
{ "true", "true", SampleQuality::BSpline19Tap },
};
// Caching all pipeline state for each shader variation for performance reason.
for (auto shaderVariantIndex = 0; shaderVariantIndex < options.size(); ++shaderVariantIndex)
{
auto shaderOption = m_shader->CreateShaderOptionGroup();
shaderOption.SetValue(m_exposureShaderVariantOptionName, options.at(shaderVariantIndex).m_enableExposureControl);
shaderOption.SetValue(m_colorGradingShaderVariantOptionName, options.at(shaderVariantIndex).m_enableColorGrading);
shaderOption.SetValue(m_lutSampleQualityShaderVariantOptionName, options.at(shaderVariantIndex).m_lutSampleQuality);
PreloadShaderVariant(m_shader, shaderOption, GetRenderAttachmentConfiguration(), GetMultisampleState());
}
m_needToUpdateShaderVariant = true;
}
void LookModificationCompositePass::FrameBeginInternal(FramePrepareParams params)
{
UpdateExposureFeatureState();
UpdateLookModificationFeatureState();
FullscreenTrianglePass::FrameBeginInternal(params);
}
void LookModificationCompositePass::UpdateExposureFeatureState()
{
bool exposureControlEnabled = false;
AZ::RPI::Scene* scene = GetScene();
if (scene)
{
PostProcessFeatureProcessor* fp = scene->GetFeatureProcessor<PostProcessFeatureProcessor>();
AZ::RPI::ViewPtr view = scene->GetDefaultRenderPipeline()->GetDefaultView();
if (fp)
{
PostProcessSettings* postProcessSettings = fp->GetLevelSettingsFromView(view);
if (postProcessSettings)
{
ExposureControlSettings* settings = postProcessSettings->GetExposureControlSettings();
if (settings)
{
exposureControlEnabled = settings->GetEnabled();
}
}
}
}
SetExposureControlEnabled(exposureControlEnabled);
}
void LookModificationCompositePass::UpdateLookModificationFeatureState()
{
bool colorGradingLutEnabled = false;
AZ::RPI::Scene* scene = GetScene();
if (scene)
{
PostProcessFeatureProcessor* fp = scene->GetFeatureProcessor<PostProcessFeatureProcessor>();
AZ::RPI::ViewPtr view = scene->GetDefaultRenderPipeline()->GetDefaultView();
if (fp)
{
PostProcessSettings* postProcessSettings = fp->GetLevelSettingsFromView(view);
if (postProcessSettings)
{
LookModificationSettings* settings = postProcessSettings->GetLookModificationSettings();
if (settings)
{
settings->PrepareLutBlending();
colorGradingLutEnabled = settings->GetLutBlendStackSize() > 0;
if (colorGradingLutEnabled)
{
AcesDisplayMapperFeatureProcessor* dmfp = scene->GetFeatureProcessor<AcesDisplayMapperFeatureProcessor>();
dmfp->GetOwnedLut(m_blendedColorGradingLut, AZ::Name("ColorGradingBlendedLut"));
if (!m_blendedColorGradingLut.m_lutImage)
{
AZ_Warning("LookModificationCompositePass", false, "Unable to load blended color grading LUT.");
}
}
}
}
}
}
SetColorGradingLutEnabled(colorGradingLutEnabled);
}
void LookModificationCompositePass::SetColorGradingLutEnabled(bool enabled)
{
if (m_colorGradingLutEnabled != enabled)
{
m_colorGradingLutEnabled = enabled;
m_needToUpdateShaderVariant = true;
}
}
void LookModificationCompositePass::CompileResources(const RHI::FrameGraphCompileContext& context)
{
AZ_Assert(m_shaderResourceGroup != nullptr, "LookModificationCompositePass %s has a null shader resource group when calling Compile.", GetPathName().GetCStr());
if (m_needToUpdateShaderVariant)
{
UpdateCurrentShaderVariant();
}
CompileShaderVariant(m_shaderResourceGroup);
if (m_shaderResourceGroup != nullptr)
{
if (m_colorGradingLutEnabled == true && m_blendedColorGradingLut.m_lutImage)
{
m_shaderResourceGroup->SetImageView(m_shaderColorGradingLutImageIndex, m_blendedColorGradingLut.m_lutImageView.get());
m_shaderResourceGroup->SetConstant(m_shaderColorGradingShaperTypeIndex, m_colorGradingShaperParams.m_type);
m_shaderResourceGroup->SetConstant(m_shaderColorGradingShaperBiasIndex, m_colorGradingShaperParams.m_bias);
m_shaderResourceGroup->SetConstant(m_shaderColorGradingShaperScaleIndex, m_colorGradingShaperParams.m_scale);
}
}
BindPassSrg(context, m_shaderResourceGroup);
m_shaderResourceGroup->Compile();
BindSrg(m_shaderResourceGroup->GetRHIShaderResourceGroup());
}
void LookModificationCompositePass::UpdateCurrentShaderVariant()
{
AZ_Assert(m_shader != nullptr, "LookModificationCompositePass %s has a null shader when calling UpdateCurrentShaderVariant.", GetPathName().GetCStr());
auto shaderOption = m_shader->CreateShaderOptionGroup();
// Decide which shader to use.
shaderOption.SetValue(m_exposureShaderVariantOptionName, m_exposureControlEnabled ? AZ::Name("true") : AZ::Name("false"));
shaderOption.SetValue(m_colorGradingShaderVariantOptionName, m_colorGradingLutEnabled ? AZ::Name("true") : AZ::Name("false"));
shaderOption.SetValue(m_lutSampleQualityShaderVariantOptionName, RPI::ShaderOptionValue(m_sampleQuality));
UpdateShaderVariant(shaderOption);
m_needToUpdateShaderVariant = false;
}
void LookModificationCompositePass::BuildCommandListInternal(const RHI::FrameGraphExecuteContext& context)
{
AZ_Assert(m_shaderResourceGroup != nullptr, "LookModificationCompositePass %s has a null shader resource group when calling Execute.", GetPathName().GetCStr());
RHI::CommandList* commandList = context.GetCommandList();
commandList->SetViewport(m_viewportState);
commandList->SetScissor(m_scissorState);
SetSrgsForDraw(commandList);
m_item.m_pipelineState = GetPipelineStateFromShaderVariant();
commandList->Submit(m_item);
}
void LookModificationCompositePass::SetShaperParameters(const ShaperParams& shaperParams)
{
m_colorGradingShaperParams = shaperParams;
}
void LookModificationCompositePass::SetSampleQuality(SampleQuality sampleQuality)
{
m_sampleQuality = sampleQuality;
m_needToUpdateShaderVariant = true;
}
} // namespace Render
} // namespace AZ
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