src/app/clusters/concentration-measurement-server/concentration-measurement-cluster-objects.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2023 Project CHIP Authors
  *    All rights reserved.
  *
  *    Licensed under the Apache License, Version 2.0 (the "License");
  *    you may not use this file except in compliance with the License.
  *    You may obtain a copy of the License at
  *
  *        http://www.apache.org/licenses/LICENSE-2.0
  *
  *    Unless required by applicable law or agreed to in writing, software
  *    distributed under the License is distributed on an "AS IS" BASIS,
  *    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  *    See the License for the specific language governing permissions and
  *    limitations under the License.
  */

 #pragma once

 #include <app-common/zap-generated/cluster-objects.h>
 #include <app/CommandHandlerInterface.h>
 #include <app/util/util.h>
 #include <utility>

 namespace chip {
 namespace app {
 namespace Clusters {
 namespace ConcentrationMeasurement {

 static constexpr std::array<ClusterId, 10> AliasedClusters = { CarbonDioxideConcentrationMeasurement::Id,
                                                                CarbonMonoxideConcentrationMeasurement::Id,
                                                                NitrogenDioxideConcentrationMeasurement::Id,
                                                                Pm1ConcentrationMeasurement::Id,
                                                                Pm10ConcentrationMeasurement::Id,
                                                                Pm25ConcentrationMeasurement::Id,
                                                                RadonConcentrationMeasurement::Id,
                                                                TotalVolatileOrganicCompoundsConcentrationMeasurement::Id,
                                                                OzoneConcentrationMeasurement::Id,
                                                                FormaldehydeConcentrationMeasurement::Id };

 enum class LevelValueEnum : uint8_t
 {
     kUnknown  = 0x00,
     kLow      = 0x01,
     kMedium   = 0x02,
     kHigh     = 0x03,
     kCritical = 0x04,
     // All received enum values that are not listed above will be mapped
     // to kUnknownEnumValue. This is a helper enum value that should only
     // be used by code to process how it handles receiving and unknown
     // enum value. This specific should never be transmitted.
     kUnknownEnumValue = 5,
 };

 enum class MeasurementMediumEnum : uint8_t
 {
     kAir   = 0x00,
     kWater = 0x01,
     kSoil  = 0x02,
     // All received enum values that are not listed above will be mapped
     // to kUnknownEnumValue. This is a helper enum value that should only
     // be used by code to process how it handles receiving and unknown
     // enum value. This specific should never be transmitted.
     kUnknownEnumValue = 3,
 };

 enum class MeasurementUnitEnum : uint8_t
 {
     kPpm  = 0x00,
     kPpb  = 0x01,
     kPpt  = 0x02,
     kMgm3 = 0x03,
     kUgm3 = 0x04,
     kNgm3 = 0x05,
     kPm3  = 0x06,
     kBqm3 = 0x07,
     // All received enum values that are not listed above will be mapped
     // to kUnknownEnumValue. This is a helper enum value that should only
     // be used by code to process how it handles receiving and unknown
     // enum value. This specific should never be transmitted.
     kUnknownEnumValue = 8,
 };

 enum class Feature : uint32_t
 {
     kNumericMeasurement = 0x1,
     kLevelIndication    = 0x2,
     kMediumLevel        = 0x4,
     kCriticalLevel      = 0x8,
     kPeakMeasurement    = 0x10,
     kAverageMeasurement = 0x20,
 };

 namespace Attributes {

 namespace MeasuredValue {
 static constexpr AttributeId Id = 0x00000000;
 // struct TypeInfo
 // {
 //     using Type             = DataModel::Nullable<float>;
 //     using DecodableType    = DataModel::Nullable<float>;
 //     using DecodableArgType = const DataModel::Nullable<float> &;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace MeasuredValue

 namespace MinMeasuredValue {
 static constexpr AttributeId Id = 0x00000001;
 // struct TypeInfo
 // {
 //     using Type             = DataModel::Nullable<float>;
 //     using DecodableType    = DataModel::Nullable<float>;
 //     using DecodableArgType = const DataModel::Nullable<float> &;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace MinMeasuredValue

 namespace MaxMeasuredValue {
 static constexpr AttributeId Id = 0x00000002;
 // struct TypeInfo
 // {
 //     using Type             = DataModel::Nullable<float>;
 //     using DecodableType    = DataModel::Nullable<float>;
 //     using DecodableArgType = const DataModel::Nullable<float> &;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace MaxMeasuredValue

 namespace PeakMeasuredValue {
 static constexpr AttributeId Id = 0x00000003;
 // struct TypeInfo
 // {
 //     using Type             = DataModel::Nullable<float>;
 //     using DecodableType    = DataModel::Nullable<float>;
 //     using DecodableArgType = const DataModel::Nullable<float> &;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace PeakMeasuredValue

 namespace PeakMeasuredValueWindow {
 static constexpr AttributeId Id = 0x00000004;
 // struct TypeInfo
 // {
 //     using Type             = uint32_t;
 //     using DecodableType    = uint32_t;
 //     using DecodableArgType = uint32_t;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace PeakMeasuredValueWindow

 namespace AverageMeasuredValue {
 static constexpr AttributeId Id = 0x00000005;
 // struct TypeInfo
 // {
 //     using Type             = DataModel::Nullable<float>;
 //     using DecodableType    = DataModel::Nullable<float>;
 //     using DecodableArgType = const DataModel::Nullable<float> &;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace AverageMeasuredValue

 namespace AverageMeasuredValueWindow {
 static constexpr AttributeId Id = 0x00000006;
 // struct TypeInfo
 // {
 //     using Type             = uint32_t;
 //     using DecodableType    = uint32_t;
 //     using DecodableArgType = uint32_t;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace AverageMeasuredValueWindow

 namespace Uncertainty {
 static constexpr AttributeId Id = 0x00000007;
 // struct TypeInfo
 // {
 //     using Type             = float;
 //     using DecodableType    = float;
 //     using DecodableArgType = float;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace Uncertainty

 namespace MeasurementUnit {
 static constexpr AttributeId Id = 0x00000008;
 // struct TypeInfo
 // {
 //     using Type             = MeasurementUnitEnum;
 //     using DecodableType    = MeasurementUnitEnum;
 //     using DecodableArgType = MeasurementUnitEnum;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace MeasurementUnit

 namespace MeasurementMedium {
 static constexpr AttributeId Id = 0x00000009;
 // struct TypeInfo
 // {
 //     using Type             = MeasurementMediumEnum;
 //     using DecodableType    = MeasurementMediumEnum;
 //     using DecodableArgType = MeasurementMediumEnum;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace MeasurementMedium

 namespace LevelValue {
 static constexpr AttributeId Id = 0x0000000A;
 // struct TypeInfo
 // {
 //     using Type             = LevelValueEnum;
 //     using DecodableType    = LevelValueEnum;
 //     using DecodableArgType = LevelValueEnum;

 //     static constexpr AttributeId GetAttributeId() { return Id; }
 //     static constexpr bool MustUseTimedWrite() { return false; }
 // };
 } // namespace LevelValue

 namespace GeneratedCommandList {
 static constexpr AttributeId Id = Globals::Attributes::GeneratedCommandList::Id;
 } // namespace GeneratedCommandList

 namespace AcceptedCommandList {
 static constexpr AttributeId Id = Globals::Attributes::AcceptedCommandList::Id;
 } // namespace AcceptedCommandList

 namespace AttributeList {
 static constexpr AttributeId Id = Globals::Attributes::AttributeList::Id;
 } // namespace AttributeList

 namespace FeatureMap {
 static constexpr AttributeId Id = Globals::Attributes::FeatureMap::Id;
 } // namespace FeatureMap

 namespace ClusterRevision {
 static constexpr AttributeId Id = Globals::Attributes::ClusterRevision::Id;
 } // namespace ClusterRevision

 } // namespace Attributes
 } // namespace ConcentrationMeasurement
 } // namespace Clusters
 } // namespace app
 } // namespace chip
	/*
	*
	* Copyright (c) 2023 Project CHIP Authors
	* All rights reserved.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#pragma once

	#include <app-common/zap-generated/cluster-objects.h>
	#include <app/CommandHandlerInterface.h>
	#include <app/util/util.h>
	#include <utility>

	namespace chip {
	namespace app {
	namespace Clusters {
	namespace ConcentrationMeasurement {

	static constexpr std::array<ClusterId, 10> AliasedClusters = { CarbonDioxideConcentrationMeasurement::Id,
	CarbonMonoxideConcentrationMeasurement::Id,
	NitrogenDioxideConcentrationMeasurement::Id,
	Pm1ConcentrationMeasurement::Id,
	Pm10ConcentrationMeasurement::Id,
	Pm25ConcentrationMeasurement::Id,
	RadonConcentrationMeasurement::Id,
	TotalVolatileOrganicCompoundsConcentrationMeasurement::Id,
	OzoneConcentrationMeasurement::Id,
	FormaldehydeConcentrationMeasurement::Id };

	enum class LevelValueEnum : uint8_t
	{
	kUnknown = 0x00,
	kLow = 0x01,
	kMedium = 0x02,
	kHigh = 0x03,
	kCritical = 0x04,
	// All received enum values that are not listed above will be mapped
	// to kUnknownEnumValue. This is a helper enum value that should only
	// be used by code to process how it handles receiving and unknown
	// enum value. This specific should never be transmitted.
	kUnknownEnumValue = 5,
	};

	enum class MeasurementMediumEnum : uint8_t
	{
	kAir = 0x00,
	kWater = 0x01,
	kSoil = 0x02,
	// All received enum values that are not listed above will be mapped
	// to kUnknownEnumValue. This is a helper enum value that should only
	// be used by code to process how it handles receiving and unknown
	// enum value. This specific should never be transmitted.
	kUnknownEnumValue = 3,
	};

	enum class MeasurementUnitEnum : uint8_t
	{
	kPpm = 0x00,
	kPpb = 0x01,
	kPpt = 0x02,
	kMgm3 = 0x03,
	kUgm3 = 0x04,
	kNgm3 = 0x05,
	kPm3 = 0x06,
	kBqm3 = 0x07,
	// All received enum values that are not listed above will be mapped
	// to kUnknownEnumValue. This is a helper enum value that should only
	// be used by code to process how it handles receiving and unknown
	// enum value. This specific should never be transmitted.
	kUnknownEnumValue = 8,
	};

	enum class Feature : uint32_t
	{
	kNumericMeasurement = 0x1,
	kLevelIndication = 0x2,
	kMediumLevel = 0x4,
	kCriticalLevel = 0x8,
	kPeakMeasurement = 0x10,
	kAverageMeasurement = 0x20,
	};

	namespace Attributes {

	namespace MeasuredValue {
	static constexpr AttributeId Id = 0x00000000;
	// struct TypeInfo
	// {
	// using Type = DataModel::Nullable<float>;
	// using DecodableType = DataModel::Nullable<float>;
	// using DecodableArgType = const DataModel::Nullable<float> &;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace MeasuredValue

	namespace MinMeasuredValue {
	static constexpr AttributeId Id = 0x00000001;
	// struct TypeInfo
	// {
	// using Type = DataModel::Nullable<float>;
	// using DecodableType = DataModel::Nullable<float>;
	// using DecodableArgType = const DataModel::Nullable<float> &;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace MinMeasuredValue

	namespace MaxMeasuredValue {
	static constexpr AttributeId Id = 0x00000002;
	// struct TypeInfo
	// {
	// using Type = DataModel::Nullable<float>;
	// using DecodableType = DataModel::Nullable<float>;
	// using DecodableArgType = const DataModel::Nullable<float> &;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace MaxMeasuredValue

	namespace PeakMeasuredValue {
	static constexpr AttributeId Id = 0x00000003;
	// struct TypeInfo
	// {
	// using Type = DataModel::Nullable<float>;
	// using DecodableType = DataModel::Nullable<float>;
	// using DecodableArgType = const DataModel::Nullable<float> &;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace PeakMeasuredValue

	namespace PeakMeasuredValueWindow {
	static constexpr AttributeId Id = 0x00000004;
	// struct TypeInfo
	// {
	// using Type = uint32_t;
	// using DecodableType = uint32_t;
	// using DecodableArgType = uint32_t;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace PeakMeasuredValueWindow

	namespace AverageMeasuredValue {
	static constexpr AttributeId Id = 0x00000005;
	// struct TypeInfo
	// {
	// using Type = DataModel::Nullable<float>;
	// using DecodableType = DataModel::Nullable<float>;
	// using DecodableArgType = const DataModel::Nullable<float> &;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace AverageMeasuredValue

	namespace AverageMeasuredValueWindow {
	static constexpr AttributeId Id = 0x00000006;
	// struct TypeInfo
	// {
	// using Type = uint32_t;
	// using DecodableType = uint32_t;
	// using DecodableArgType = uint32_t;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace AverageMeasuredValueWindow

	namespace Uncertainty {
	static constexpr AttributeId Id = 0x00000007;
	// struct TypeInfo
	// {
	// using Type = float;
	// using DecodableType = float;
	// using DecodableArgType = float;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace Uncertainty

	namespace MeasurementUnit {
	static constexpr AttributeId Id = 0x00000008;
	// struct TypeInfo
	// {
	// using Type = MeasurementUnitEnum;
	// using DecodableType = MeasurementUnitEnum;
	// using DecodableArgType = MeasurementUnitEnum;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace MeasurementUnit

	namespace MeasurementMedium {
	static constexpr AttributeId Id = 0x00000009;
	// struct TypeInfo
	// {
	// using Type = MeasurementMediumEnum;
	// using DecodableType = MeasurementMediumEnum;
	// using DecodableArgType = MeasurementMediumEnum;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace MeasurementMedium

	namespace LevelValue {
	static constexpr AttributeId Id = 0x0000000A;
	// struct TypeInfo
	// {
	// using Type = LevelValueEnum;
	// using DecodableType = LevelValueEnum;
	// using DecodableArgType = LevelValueEnum;

	// static constexpr AttributeId GetAttributeId() { return Id; }
	// static constexpr bool MustUseTimedWrite() { return false; }
	// };
	} // namespace LevelValue

	namespace GeneratedCommandList {
	static constexpr AttributeId Id = Globals::Attributes::GeneratedCommandList::Id;
	} // namespace GeneratedCommandList

	namespace AcceptedCommandList {
	static constexpr AttributeId Id = Globals::Attributes::AcceptedCommandList::Id;
	} // namespace AcceptedCommandList

	namespace AttributeList {
	static constexpr AttributeId Id = Globals::Attributes::AttributeList::Id;
	} // namespace AttributeList

	namespace FeatureMap {
	static constexpr AttributeId Id = Globals::Attributes::FeatureMap::Id;
	} // namespace FeatureMap

	namespace ClusterRevision {
	static constexpr AttributeId Id = Globals::Attributes::ClusterRevision::Id;
	} // namespace ClusterRevision

	} // namespace Attributes
	} // namespace ConcentrationMeasurement
	} // namespace Clusters
	} // namespace app
	} // namespace chip