/* * All or portions of this file Copyright (c) Amazon.com, Inc. or its affiliates or * its licensors. * * For complete copyright and license terms please see the LICENSE at the root of this * distribution (the "License"). All use of this software is governed by the License, * or, if provided, by the license below or the license accompanying this file. Do not * remove or modify any license notices. This file is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * */ #include "Vegetation_precompiled.h" #include "RotationModifierComponent.h" #include #include #include #include #include #include #include #include #include namespace Vegetation { namespace RotationModifierUtil { static bool UpdateVersion(AZ::SerializeContext& context, AZ::SerializeContext::DataElementNode& classElement) { if (classElement.GetVersion() < 1) { AZ::Vector3 rangeMin(0.0f, 0.0f, -180.0f); if (classElement.GetChildData(AZ_CRC("RangeMin", 0xedb80851), rangeMin)) { classElement.RemoveElementByName(AZ_CRC("RangeMin", 0xedb80851)); classElement.AddElementWithData(context, "RangeMinX", (float)rangeMin.GetX()); classElement.AddElementWithData(context, "RangeMinY", (float)rangeMin.GetY()); classElement.AddElementWithData(context, "RangeMinZ", (float)rangeMin.GetZ()); } AZ::Vector3 rangeMax(0.0f, 0.0f, 180.0f); if (classElement.GetChildData(AZ_CRC("RangeMax", 0xd1b53708), rangeMax)) { classElement.RemoveElementByName(AZ_CRC("RangeMax", 0xd1b53708)); classElement.AddElementWithData(context, "RangeMaxX", (float)rangeMax.GetX()); classElement.AddElementWithData(context, "RangeMaxY", (float)rangeMax.GetY()); classElement.AddElementWithData(context, "RangeMaxZ", (float)rangeMax.GetZ()); } } return true; } } void RotationModifierConfig::Reflect(AZ::ReflectContext* context) { AZ::SerializeContext* serialize = azrtti_cast(context); if (serialize) { serialize->Class() ->Version(1, &RotationModifierUtil::UpdateVersion) ->Field("AllowOverrides", &RotationModifierConfig::m_allowOverrides) ->Field("RangeMinX", &RotationModifierConfig::m_rangeMinX) ->Field("RangeMaxX", &RotationModifierConfig::m_rangeMaxX) ->Field("GradientX", &RotationModifierConfig::m_gradientSamplerX) ->Field("RangeMinY", &RotationModifierConfig::m_rangeMinY) ->Field("RangeMaxY", &RotationModifierConfig::m_rangeMaxY) ->Field("GradientY", &RotationModifierConfig::m_gradientSamplerY) ->Field("RangeMinZ", &RotationModifierConfig::m_rangeMinZ) ->Field("RangeMaxZ", &RotationModifierConfig::m_rangeMaxZ) ->Field("GradientZ", &RotationModifierConfig::m_gradientSamplerZ) ; AZ::EditContext* edit = serialize->GetEditContext(); if (edit) { edit->Class( "Vegetation Rotation Modifier", "") ->ClassElement(AZ::Edit::ClassElements::EditorData, "") ->Attribute(AZ::Edit::Attributes::Visibility, AZ::Edit::PropertyVisibility::ShowChildrenOnly) ->Attribute(AZ::Edit::Attributes::AutoExpand, true) ->DataElement(AZ::Edit::UIHandlers::CheckBox, &RotationModifierConfig::m_allowOverrides, "Allow Per-Item Overrides", "Allow per-descriptor parameters to override component parameters.") ->ClassElement(AZ::Edit::ClassElements::Group, "Rotation X") ->Attribute(AZ::Edit::Attributes::AutoExpand, false) ->DataElement(AZ::Edit::UIHandlers::Slider, &RotationModifierConfig::m_rangeMinX, "Range Min", "Minimum rotation offset on X axis.") ->Attribute(AZ::Edit::Attributes::Min, std::numeric_limits::lowest()) ->Attribute(AZ::Edit::Attributes::Max, std::numeric_limits::max()) ->Attribute(AZ::Edit::Attributes::SoftMin, -180.0f) ->Attribute(AZ::Edit::Attributes::SoftMax, 180.0f) ->DataElement(AZ::Edit::UIHandlers::Slider, &RotationModifierConfig::m_rangeMaxX, "Range Max", "Maximum rotation offset on X axis.") ->Attribute(AZ::Edit::Attributes::Min, std::numeric_limits::lowest()) ->Attribute(AZ::Edit::Attributes::Max, std::numeric_limits::max()) ->Attribute(AZ::Edit::Attributes::SoftMin, -180.0f) ->Attribute(AZ::Edit::Attributes::SoftMax, 180.0f) ->DataElement(0, &RotationModifierConfig::m_gradientSamplerX, "Gradient", "Gradient used as blend factor to lerp between ranges on X axis.") ->ClassElement(AZ::Edit::ClassElements::Group, "Rotation Y") ->Attribute(AZ::Edit::Attributes::AutoExpand, false) ->DataElement(AZ::Edit::UIHandlers::Slider, &RotationModifierConfig::m_rangeMinY, "Range Min", "Minimum rotation offset on Y axis.") ->Attribute(AZ::Edit::Attributes::Min, std::numeric_limits::lowest()) ->Attribute(AZ::Edit::Attributes::Max, std::numeric_limits::max()) ->Attribute(AZ::Edit::Attributes::SoftMin, -180.0f) ->Attribute(AZ::Edit::Attributes::SoftMax, 180.0f) ->DataElement(AZ::Edit::UIHandlers::Slider, &RotationModifierConfig::m_rangeMaxY, "Range Max", "Maximum rotation offset on Y axis.") ->Attribute(AZ::Edit::Attributes::Min, std::numeric_limits::lowest()) ->Attribute(AZ::Edit::Attributes::Max, std::numeric_limits::max()) ->Attribute(AZ::Edit::Attributes::SoftMin, -180.0f) ->Attribute(AZ::Edit::Attributes::SoftMax, 180.0f) ->DataElement(0, &RotationModifierConfig::m_gradientSamplerY, "Gradient", "Gradient used as blend factor to lerp between ranges on Y axis.") ->ClassElement(AZ::Edit::ClassElements::Group, "Rotation Z") ->Attribute(AZ::Edit::Attributes::AutoExpand, true) ->DataElement(AZ::Edit::UIHandlers::Slider, &RotationModifierConfig::m_rangeMinZ, "Range Min", "Minimum rotation offset on Z axis.") ->Attribute(AZ::Edit::Attributes::Min, std::numeric_limits::lowest()) ->Attribute(AZ::Edit::Attributes::Max, std::numeric_limits::max()) ->Attribute(AZ::Edit::Attributes::SoftMin, -180.0f) ->Attribute(AZ::Edit::Attributes::SoftMax, 180.0f) ->DataElement(AZ::Edit::UIHandlers::Slider, &RotationModifierConfig::m_rangeMaxZ, "Range Max", "Maximum rotation offset on Z axis.") ->Attribute(AZ::Edit::Attributes::Min, std::numeric_limits::lowest()) ->Attribute(AZ::Edit::Attributes::Max, std::numeric_limits::max()) ->Attribute(AZ::Edit::Attributes::SoftMin, -180.0f) ->Attribute(AZ::Edit::Attributes::SoftMax, 180.0f) ->DataElement(0, &RotationModifierConfig::m_gradientSamplerZ, "Gradient", "Gradient used as blend factor to lerp between ranges on Z axis.") ; } } if (auto behaviorContext = azrtti_cast(context)) { behaviorContext->Class() ->Attribute(AZ::Script::Attributes::ExcludeFrom, AZ::Script::Attributes::ExcludeFlags::Preview) ->Attribute(AZ::Script::Attributes::Category, "Vegetation") ->Constructor() ->Property("allowOverrides", BehaviorValueProperty(&RotationModifierConfig::m_allowOverrides)) ->Property("rangeMinX", BehaviorValueProperty(&RotationModifierConfig::m_rangeMinX)) ->Property("rangeMaxX", BehaviorValueProperty(&RotationModifierConfig::m_rangeMaxX)) ->Property("gradientSamplerX", BehaviorValueProperty(&RotationModifierConfig::m_gradientSamplerX)) ->Property("rangeMinY", BehaviorValueProperty(&RotationModifierConfig::m_rangeMinY)) ->Property("rangeMaxY", BehaviorValueProperty(&RotationModifierConfig::m_rangeMaxY)) ->Property("gradientSamplerY", BehaviorValueProperty(&RotationModifierConfig::m_gradientSamplerY)) ->Property("rangeMinZ", BehaviorValueProperty(&RotationModifierConfig::m_rangeMinZ)) ->Property("rangeMaxZ", BehaviorValueProperty(&RotationModifierConfig::m_rangeMaxZ)) ->Property("gradientSamplerZ", BehaviorValueProperty(&RotationModifierConfig::m_gradientSamplerZ)) ; } } void RotationModifierComponent::GetProvidedServices(AZ::ComponentDescriptor::DependencyArrayType& services) { services.push_back(AZ_CRC("VegetationModifierService", 0xc551fca6)); services.push_back(AZ_CRC("VegetationRotationModifierService", 0xfe7daa3d)); } void RotationModifierComponent::GetIncompatibleServices(AZ::ComponentDescriptor::DependencyArrayType& services) { services.push_back(AZ_CRC("VegetationRotationModifierService", 0xfe7daa3d)); } void RotationModifierComponent::GetRequiredServices(AZ::ComponentDescriptor::DependencyArrayType& services) { services.push_back(AZ_CRC("VegetationAreaService", 0x6a859504)); } void RotationModifierComponent::Reflect(AZ::ReflectContext* context) { RotationModifierConfig::Reflect(context); AZ::SerializeContext* serialize = azrtti_cast(context); if (serialize) { serialize->Class() ->Version(0) ->Field("Configuration", &RotationModifierComponent::m_configuration) ; } if (auto behaviorContext = azrtti_cast(context)) { behaviorContext->Constant("RotationModifierComponentTypeId", BehaviorConstant(RotationModifierComponentTypeId)); behaviorContext->Class()->RequestBus("RotationModifierRequestBus"); behaviorContext->EBus("RotationModifierRequestBus") ->Attribute(AZ::Script::Attributes::ExcludeFrom, AZ::Script::Attributes::ExcludeFlags::Preview) ->Attribute(AZ::Script::Attributes::Category, "Vegetation") ->Event("GetAllowOverrides", &RotationModifierRequestBus::Events::GetAllowOverrides) ->Event("SetAllowOverrides", &RotationModifierRequestBus::Events::SetAllowOverrides) ->VirtualProperty("AllowOverrides", "GetAllowOverrides", "SetAllowOverrides") ->Event("GetRangeMin", &RotationModifierRequestBus::Events::GetRangeMin) ->Event("SetRangeMin", &RotationModifierRequestBus::Events::SetRangeMin) ->VirtualProperty("RangeMin", "GetRangeMin", "SetRangeMin") ->Event("GetRangeMax", &RotationModifierRequestBus::Events::GetRangeMax) ->Event("SetRangeMax", &RotationModifierRequestBus::Events::SetRangeMax) ->VirtualProperty("RangeMax", "GetRangeMax", "SetRangeMax") ->Event("GetGradientSamplerX", &RotationModifierRequestBus::Events::GetGradientSamplerX) ->Event("GetGradientSamplerY", &RotationModifierRequestBus::Events::GetGradientSamplerY) ->Event("GetGradientSamplerZ", &RotationModifierRequestBus::Events::GetGradientSamplerZ) ; } } RotationModifierComponent::RotationModifierComponent(const RotationModifierConfig& configuration) : m_configuration(configuration) { } void RotationModifierComponent::Activate() { m_dependencyMonitor.Reset(); m_dependencyMonitor.ConnectOwner(GetEntityId()); m_dependencyMonitor.ConnectDependencies({ m_configuration.m_gradientSamplerX.m_gradientId, m_configuration.m_gradientSamplerY.m_gradientId, m_configuration.m_gradientSamplerZ.m_gradientId }); ModifierRequestBus::Handler::BusConnect(GetEntityId()); RotationModifierRequestBus::Handler::BusConnect(GetEntityId()); } void RotationModifierComponent::Deactivate() { m_dependencyMonitor.Reset(); ModifierRequestBus::Handler::BusDisconnect(); RotationModifierRequestBus::Handler::BusDisconnect(); } bool RotationModifierComponent::ReadInConfig(const AZ::ComponentConfig* baseConfig) { if (auto config = azrtti_cast(baseConfig)) { m_configuration = *config; return true; } return false; } bool RotationModifierComponent::WriteOutConfig(AZ::ComponentConfig* outBaseConfig) const { if (auto config = azrtti_cast(outBaseConfig)) { *config = m_configuration; return true; } return false; } void RotationModifierComponent::Execute(InstanceData& instanceData) const { AZ_PROFILE_FUNCTION(AZ::Debug::ProfileCategory::Entity); const GradientSignal::GradientSampleParams sampleParams(instanceData.m_position); float factorX = m_configuration.m_gradientSamplerX.GetValue(sampleParams); float factorY = m_configuration.m_gradientSamplerY.GetValue(sampleParams); float factorZ = m_configuration.m_gradientSamplerZ.GetValue(sampleParams); const bool useOverrides = m_configuration.m_allowOverrides && instanceData.m_descriptorPtr && instanceData.m_descriptorPtr->m_rotationOverrideEnabled; const AZ::Vector3& min = useOverrides ? instanceData.m_descriptorPtr->GetRotationMin() : GetRangeMin(); const AZ::Vector3& max = useOverrides ? instanceData.m_descriptorPtr->GetRotationMax() : GetRangeMax(); instanceData.m_rotation = AZ::ConvertEulerDegreesToQuaternion(AZ::Vector3( factorX * (max.GetX() - min.GetX()) + min.GetX(), factorY * (max.GetY() - min.GetY()) + min.GetY(), factorZ * (max.GetZ() - min.GetZ()) + min.GetZ())); } bool RotationModifierComponent::GetAllowOverrides() const { return m_configuration.m_allowOverrides; } void RotationModifierComponent::SetAllowOverrides(bool value) { m_configuration.m_allowOverrides = value; LmbrCentral::DependencyNotificationBus::Event(GetEntityId(), &LmbrCentral::DependencyNotificationBus::Events::OnCompositionChanged); } AZ::Vector3 RotationModifierComponent::GetRangeMin() const { return AZ::Vector3(m_configuration.m_rangeMinX, m_configuration.m_rangeMinY, m_configuration.m_rangeMinZ); } void RotationModifierComponent::SetRangeMin(AZ::Vector3 rangeMin) { m_configuration.m_rangeMinX = rangeMin.GetX(); m_configuration.m_rangeMinY = rangeMin.GetY(); m_configuration.m_rangeMinZ = rangeMin.GetZ(); LmbrCentral::DependencyNotificationBus::Event(GetEntityId(), &LmbrCentral::DependencyNotificationBus::Events::OnCompositionChanged); } AZ::Vector3 RotationModifierComponent::GetRangeMax() const { return AZ::Vector3(m_configuration.m_rangeMaxX, m_configuration.m_rangeMaxY, m_configuration.m_rangeMaxZ); } void RotationModifierComponent::SetRangeMax(AZ::Vector3 rangeMax) { m_configuration.m_rangeMaxX = rangeMax.GetX(); m_configuration.m_rangeMaxY = rangeMax.GetY(); m_configuration.m_rangeMaxZ = rangeMax.GetZ(); LmbrCentral::DependencyNotificationBus::Event(GetEntityId(), &LmbrCentral::DependencyNotificationBus::Events::OnCompositionChanged); } GradientSignal::GradientSampler& RotationModifierComponent::GetGradientSamplerX() { return m_configuration.m_gradientSamplerX; } GradientSignal::GradientSampler& RotationModifierComponent::GetGradientSamplerY() { return m_configuration.m_gradientSamplerY; } GradientSignal::GradientSampler& RotationModifierComponent::GetGradientSamplerZ() { return m_configuration.m_gradientSamplerZ; } }