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o3de/Gems/GradientSignal/Code/Source/Components/MixedGradientComponent.cpp

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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 "MixedGradientComponent.h"
#include <AzCore/Debug/Profiler.h>
#include <AzCore/RTTI/BehaviorContext.h>
#include <AzCore/Serialization/EditContext.h>
#include <AzCore/Serialization/SerializeContext.h>
namespace GradientSignal
{
void MixedGradientLayer::Reflect(AZ::ReflectContext* context)
{
AZ::SerializeContext* serialize = azrtti_cast<AZ::SerializeContext*>(context);
if (serialize)
{
serialize->Class<MixedGradientLayer>()
->Version(0)
->Field("Enabled", &MixedGradientLayer::m_enabled)
->Field("Operation", &MixedGradientLayer::m_operation)
->Field("Gradient", &MixedGradientLayer::m_gradientSampler)
;
AZ::EditContext* edit = serialize->GetEditContext();
if (edit)
{
edit->Class<MixedGradientLayer>(
"Mixed Gradient Layer", "")
->ClassElement(AZ::Edit::ClassElements::EditorData, "")
->Attribute(AZ::Edit::Attributes::AutoExpand, true)
->DataElement(0, &MixedGradientLayer::m_enabled, "Enabled", "Toggle the influence of this gradient layer.")
->DataElement(AZ::Edit::UIHandlers::ComboBox, &MixedGradientLayer::m_operation, "Operation", "Function used to mix the current gradient with the previous result.")
->EnumAttribute(MixedGradientLayer::MixingOperation::Initialize, "Initialize")
->EnumAttribute(MixedGradientLayer::MixingOperation::Multiply, "Multiply")
->EnumAttribute(MixedGradientLayer::MixingOperation::Add, "Linear Dodge (Add)")
->EnumAttribute(MixedGradientLayer::MixingOperation::Subtract, "Subtract")
->EnumAttribute(MixedGradientLayer::MixingOperation::Min, "Darken (Min)")
->EnumAttribute(MixedGradientLayer::MixingOperation::Max, "Lighten (Max)")
->EnumAttribute(MixedGradientLayer::MixingOperation::Average, "Average")
->EnumAttribute(MixedGradientLayer::MixingOperation::Normal, "Normal")
->EnumAttribute(MixedGradientLayer::MixingOperation::Overlay, "Overlay")
->DataElement(0, &MixedGradientLayer::m_gradientSampler, "Gradient", "Gradient that will contribute to result of gradient mixing.")
->Attribute(AZ::Edit::Attributes::AutoExpand, true)
;
}
}
if (auto behaviorContext = azrtti_cast<AZ::BehaviorContext*>(context))
{
behaviorContext->Class<MixedGradientLayer>()
->Constructor()
->Attribute(AZ::Script::Attributes::Category, "Vegetation")
->Property("enabled", BehaviorValueProperty(&MixedGradientLayer::m_enabled))
->Property("mixingOperation",
[](MixedGradientLayer* config) { return (AZ::u8&)(config->m_operation); },
[](MixedGradientLayer* config, const AZ::u8& i) { config->m_operation = (MixedGradientLayer::MixingOperation)i; })
->Property("gradientSampler", BehaviorValueProperty(&MixedGradientLayer::m_gradientSampler))
;
}
}
const char* MixedGradientLayer::GetLayerEntityName() const
{
// This needs to be static since the return value is used by the RPE and needs to exist long enough to set the UI data
static AZStd::string entityName;
entityName = "<empty>";
AZ::EntityId layerEntityId = m_gradientSampler.m_gradientId;
if (layerEntityId.IsValid())
{
AZ::ComponentApplicationBus::BroadcastResult(entityName, &AZ::ComponentApplicationRequests::GetEntityName, layerEntityId);
}
return entityName.c_str();
}
size_t MixedGradientConfig::GetNumLayers() const
{
return m_layers.size();
}
void MixedGradientConfig::AddLayer()
{
m_layers[GetNumLayers()] = MixedGradientLayer();
OnLayerAdded();
}
void MixedGradientConfig::OnLayerAdded()
{
// The first layer should always default to "Initialize".
if (GetNumLayers() == 1)
{
m_layers[0].m_operation = MixedGradientLayer::MixingOperation::Initialize;
}
}
void MixedGradientConfig::RemoveLayer(int layerIndex)
{
if (layerIndex < m_layers.size() && layerIndex >= 0)
{
m_layers.erase(m_layers.begin() + layerIndex);
}
}
MixedGradientLayer* MixedGradientConfig::GetLayer(int layerIndex)
{
if (layerIndex < m_layers.size() && layerIndex >= 0)
{
return &(m_layers[layerIndex]);
}
return nullptr;
}
void MixedGradientConfig::Reflect(AZ::ReflectContext* context)
{
MixedGradientLayer::Reflect(context);
AZ::SerializeContext* serialize = azrtti_cast<AZ::SerializeContext*>(context);
if (serialize)
{
serialize->Class<MixedGradientConfig, AZ::ComponentConfig>()
->Version(0)
->Field("Layers", &MixedGradientConfig::m_layers)
;
AZ::EditContext* edit = serialize->GetEditContext();
if (edit)
{
edit->Class<MixedGradientConfig>(
"Mixed Gradient", "")
->ClassElement(AZ::Edit::ClassElements::EditorData, "")
->Attribute(AZ::Edit::Attributes::Visibility, AZ::Edit::PropertyVisibility::ShowChildrenOnly)
->Attribute(AZ::Edit::Attributes::AutoExpand, true)
->DataElement(0, &MixedGradientConfig::m_layers, "Layers", "List of gradient mixing layers.")
->Attribute(AZ::Edit::Attributes::AutoExpand, true)
->Attribute(AZ::Edit::Attributes::ContainerCanBeModified, true)
->Attribute(AZ::Edit::Attributes::AddNotify, &MixedGradientConfig::OnLayerAdded)
->ElementAttribute(AZ::Edit::Attributes::NameLabelOverride, &MixedGradientLayer::GetLayerEntityName)
;
}
}
if (auto behaviorContext = azrtti_cast<AZ::BehaviorContext*>(context))
{
behaviorContext->Class<MixedGradientConfig>()
->Attribute(AZ::Script::Attributes::Category, "Vegetation")
->Constructor()
->Method("GetNumLayers", &MixedGradientConfig::GetNumLayers)
->Method("AddLayer", &MixedGradientConfig::AddLayer)
->Method("RemoveLayer", &MixedGradientConfig::RemoveLayer)
->Method("GetLayer", &MixedGradientConfig::GetLayer)
;
}
}
void MixedGradientComponent::GetProvidedServices(AZ::ComponentDescriptor::DependencyArrayType& services)
{
services.push_back(AZ_CRC("GradientService", 0x21c18d23));
}
void MixedGradientComponent::GetIncompatibleServices(AZ::ComponentDescriptor::DependencyArrayType& services)
{
services.push_back(AZ_CRC("GradientService", 0x21c18d23));
services.push_back(AZ_CRC("GradientTransformService", 0x8c8c5ecc));
}
void MixedGradientComponent::GetRequiredServices([[maybe_unused]] AZ::ComponentDescriptor::DependencyArrayType& services)
{
}
void MixedGradientComponent::Reflect(AZ::ReflectContext* context)
{
MixedGradientConfig::Reflect(context);
AZ::SerializeContext* serialize = azrtti_cast<AZ::SerializeContext*>(context);
if (serialize)
{
serialize->Class<MixedGradientComponent, AZ::Component>()
->Version(0)
->Field("Configuration", &MixedGradientComponent::m_configuration)
;
}
if (auto behaviorContext = azrtti_cast<AZ::BehaviorContext*>(context))
{
behaviorContext->Constant("MixedGradientComponentTypeId", BehaviorConstant(MixedGradientComponentTypeId));
behaviorContext->Class<MixedGradientComponent>()->RequestBus("MixedGradientRequestBus");
behaviorContext->EBus<MixedGradientRequestBus>("MixedGradientRequestBus")
->Attribute(AZ::Script::Attributes::Category, "Vegetation")
->Event("GetNumLayers", &MixedGradientRequestBus::Events::GetNumLayers)
->Event("AddLayer", &MixedGradientRequestBus::Events::AddLayer)
->Event("RemoveLayer", &MixedGradientRequestBus::Events::RemoveLayer)
->Event("GetLayer", &MixedGradientRequestBus::Events::GetLayer)
;
}
}
MixedGradientComponent::MixedGradientComponent(const MixedGradientConfig& configuration)
: m_configuration(configuration)
{
}
void MixedGradientComponent::Activate()
{
m_dependencyMonitor.Reset();
m_dependencyMonitor.ConnectOwner(GetEntityId());
for (const auto& layer : m_configuration.m_layers)
{
m_dependencyMonitor.ConnectDependency(layer.m_gradientSampler.m_gradientId);
}
if (!m_configuration.m_layers.empty())
{
//forcing first layer to always be initialize
m_configuration.m_layers.front().m_operation = MixedGradientLayer::MixingOperation::Initialize;
}
GradientRequestBus::Handler::BusConnect(GetEntityId());
MixedGradientRequestBus::Handler::BusConnect(GetEntityId());
}
void MixedGradientComponent::Deactivate()
{
m_dependencyMonitor.Reset();
GradientRequestBus::Handler::BusDisconnect();
MixedGradientRequestBus::Handler::BusDisconnect();
}
bool MixedGradientComponent::ReadInConfig(const AZ::ComponentConfig* baseConfig)
{
if (auto config = azrtti_cast<const MixedGradientConfig*>(baseConfig))
{
m_configuration = *config;
return true;
}
return false;
}
bool MixedGradientComponent::WriteOutConfig(AZ::ComponentConfig* outBaseConfig) const
{
if (auto config = azrtti_cast<MixedGradientConfig*>(outBaseConfig))
{
*config = m_configuration;
return true;
}
return false;
}
float MixedGradientComponent::GetValue(const GradientSampleParams& sampleParams) const
{
AZ_PROFILE_FUNCTION(Entity);
//accumulate the mixed/combined result of all layers and operations
float result = 0.0f;
float operationResult = 0.0f;
for (const auto& layer : m_configuration.m_layers)
{
// added check to prevent opacity of 0.0, which will bust when we unpremultiply the alpha out
if (layer.m_enabled && layer.m_gradientSampler.m_opacity != 0.0f)
{
// this includes leveling and opacity result, we need unpremultiplied opacity to combine properly
float current = layer.m_gradientSampler.GetValue(sampleParams);
// unpremultiplied alpha (we clamp the end result)
float currentUnpremultiplied = current / layer.m_gradientSampler.m_opacity;
switch (layer.m_operation)
{
default:
case MixedGradientLayer::MixingOperation::Initialize:
//reset the result of the mixed/combined layers to the current value
result = 0.0f;
operationResult = currentUnpremultiplied;
break;
case MixedGradientLayer::MixingOperation::Multiply:
operationResult = result * currentUnpremultiplied;
break;
case MixedGradientLayer::MixingOperation::Add:
operationResult = result + currentUnpremultiplied;
break;
case MixedGradientLayer::MixingOperation::Subtract:
operationResult = result - currentUnpremultiplied;
break;
case MixedGradientLayer::MixingOperation::Min:
operationResult = AZStd::min(currentUnpremultiplied, result);
break;
case MixedGradientLayer::MixingOperation::Max:
operationResult = AZStd::max(currentUnpremultiplied, result);
break;
case MixedGradientLayer::MixingOperation::Average:
operationResult = (result + currentUnpremultiplied) / 2.0f;
break;
case MixedGradientLayer::MixingOperation::Normal:
operationResult = currentUnpremultiplied;
break;
case MixedGradientLayer::MixingOperation::Overlay:
operationResult = (result >= 0.5f) ? (1.0f - (2.0f * (1.0f - result) * (1.0f - currentUnpremultiplied))) : (2.0f * result * currentUnpremultiplied);
break;
}
// blend layers (re-applying opacity, which is why we needed to use unpremultiplied)
result = (result * (1.0f - layer.m_gradientSampler.m_opacity)) + (operationResult * layer.m_gradientSampler.m_opacity);
}
}
return AZ::GetClamp(result, 0.0f, 1.0f);
}
bool MixedGradientComponent::IsEntityInHierarchy(const AZ::EntityId& entityId) const
{
for (const auto& layer : m_configuration.m_layers)
{
if (layer.m_gradientSampler.IsEntityInHierarchy(entityId))
{
return true;
}
}
return false;
}
size_t MixedGradientComponent::GetNumLayers() const
{
return m_configuration.GetNumLayers();
}
void MixedGradientComponent::AddLayer()
{
m_configuration.AddLayer();
LmbrCentral::DependencyNotificationBus::Event(GetEntityId(), &LmbrCentral::DependencyNotificationBus::Events::OnCompositionChanged);
}
void MixedGradientComponent::RemoveLayer(int layerIndex)
{
m_configuration.RemoveLayer(layerIndex);
LmbrCentral::DependencyNotificationBus::Event(GetEntityId(), &LmbrCentral::DependencyNotificationBus::Events::OnCompositionChanged);
}
MixedGradientLayer* MixedGradientComponent::GetLayer(int layerIndex)
{
return m_configuration.GetLayer(layerIndex);
}
}
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