plc4go/protocols/cbus/readwrite/model/AirConditioningData.go - plc4x - Git at Google

 /*
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements.  See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership.  The ASF licenses this file
  * to you 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
  *
  *   https://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.
  */

 package model

 import (
 	"context"
 	"fmt"

 	"github.com/pkg/errors"
 	"github.com/rs/zerolog"

 	. "github.com/apache/plc4x/plc4go/spi/codegen/fields"
 	. "github.com/apache/plc4x/plc4go/spi/codegen/io"
 	"github.com/apache/plc4x/plc4go/spi/utils"
 )

 // Code generated by code-generation. DO NOT EDIT.

 // AirConditioningData is the corresponding interface of AirConditioningData
 type AirConditioningData interface {
 	AirConditioningDataContract
 	AirConditioningDataRequirements
 	fmt.Stringer
 	utils.LengthAware
 	utils.Serializable
 	utils.Copyable
 	// IsAirConditioningData is a marker method to prevent unintentional type checks (interfaces of same signature)
 	IsAirConditioningData()
 	// CreateBuilder creates a AirConditioningDataBuilder
 	CreateAirConditioningDataBuilder() AirConditioningDataBuilder
 }

 // AirConditioningDataContract provides a set of functions which can be overwritten by a sub struct
 type AirConditioningDataContract interface {
 	// GetCommandTypeContainer returns CommandTypeContainer (property field)
 	GetCommandTypeContainer() AirConditioningCommandTypeContainer
 	// GetCommandType returns CommandType (virtual field)
 	GetCommandType() AirConditioningCommandType
 	// IsAirConditioningData is a marker method to prevent unintentional type checks (interfaces of same signature)
 	IsAirConditioningData()
 	// CreateBuilder creates a AirConditioningDataBuilder
 	CreateAirConditioningDataBuilder() AirConditioningDataBuilder
 }

 // AirConditioningDataRequirements provides a set of functions which need to be implemented by a sub struct
 type AirConditioningDataRequirements interface {
 	GetLengthInBits(ctx context.Context) uint16
 	GetLengthInBytes(ctx context.Context) uint16
 	// GetCommandType returns CommandType (discriminator field)
 	GetCommandType() AirConditioningCommandType
 }

 // _AirConditioningData is the data-structure of this message
 type _AirConditioningData struct {
 	_SubType interface {
 		AirConditioningDataContract
 		AirConditioningDataRequirements
 	}
 	CommandTypeContainer AirConditioningCommandTypeContainer
 }

 var _ AirConditioningDataContract = (*_AirConditioningData)(nil)

 // NewAirConditioningData factory function for _AirConditioningData
 func NewAirConditioningData(commandTypeContainer AirConditioningCommandTypeContainer) *_AirConditioningData {
 	return &_AirConditioningData{CommandTypeContainer: commandTypeContainer}
 }

 ///////////////////////////////////////////////////////////
 ///////////////////////////////////////////////////////////
 /////////////////////// Builder
 ///////////////////////

 // AirConditioningDataBuilder is a builder for AirConditioningData
 type AirConditioningDataBuilder interface {
 	utils.Copyable
 	// WithMandatoryFields adds all mandatory fields (convenience for using multiple builder calls)
 	WithMandatoryFields(commandTypeContainer AirConditioningCommandTypeContainer) AirConditioningDataBuilder
 	// WithCommandTypeContainer adds CommandTypeContainer (property field)
 	WithCommandTypeContainer(AirConditioningCommandTypeContainer) AirConditioningDataBuilder
 	// AsAirConditioningDataHvacScheduleEntry converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataHvacScheduleEntry() AirConditioningDataHvacScheduleEntryBuilder
 	// AsAirConditioningDataHumidityScheduleEntry converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataHumidityScheduleEntry() AirConditioningDataHumidityScheduleEntryBuilder
 	// AsAirConditioningDataRefresh converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataRefresh() AirConditioningDataRefreshBuilder
 	// AsAirConditioningDataZoneHvacPlantStatus converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataZoneHvacPlantStatus() AirConditioningDataZoneHvacPlantStatusBuilder
 	// AsAirConditioningDataZoneHumidityPlantStatus converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataZoneHumidityPlantStatus() AirConditioningDataZoneHumidityPlantStatusBuilder
 	// AsAirConditioningDataZoneTemperature converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataZoneTemperature() AirConditioningDataZoneTemperatureBuilder
 	// AsAirConditioningDataZoneHumidity converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataZoneHumidity() AirConditioningDataZoneHumidityBuilder
 	// AsAirConditioningDataSetZoneGroupOff converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetZoneGroupOff() AirConditioningDataSetZoneGroupOffBuilder
 	// AsAirConditioningDataSetZoneGroupOn converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetZoneGroupOn() AirConditioningDataSetZoneGroupOnBuilder
 	// AsAirConditioningDataSetZoneHvacMode converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetZoneHvacMode() AirConditioningDataSetZoneHvacModeBuilder
 	// AsAirConditioningDataSetPlantHvacLevel converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetPlantHvacLevel() AirConditioningDataSetPlantHvacLevelBuilder
 	// AsAirConditioningDataSetZoneHumidityMode converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetZoneHumidityMode() AirConditioningDataSetZoneHumidityModeBuilder
 	// AsAirConditioningDataSetPlantHumidityLevel converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetPlantHumidityLevel() AirConditioningDataSetPlantHumidityLevelBuilder
 	// AsAirConditioningDataSetHvacUpperGuardLimit converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetHvacUpperGuardLimit() AirConditioningDataSetHvacUpperGuardLimitBuilder
 	// AsAirConditioningDataSetHvacLowerGuardLimit converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetHvacLowerGuardLimit() AirConditioningDataSetHvacLowerGuardLimitBuilder
 	// AsAirConditioningDataSetHvacSetbackLimit converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetHvacSetbackLimit() AirConditioningDataSetHvacSetbackLimitBuilder
 	// AsAirConditioningDataSetHumidityUpperGuardLimit converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetHumidityUpperGuardLimit() AirConditioningDataSetHumidityUpperGuardLimitBuilder
 	// AsAirConditioningDataSetHumidityLowerGuardLimit converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetHumidityLowerGuardLimit() AirConditioningDataSetHumidityLowerGuardLimitBuilder
 	// AsAirConditioningDataSetHumiditySetbackLimit converts this build to a subType of AirConditioningData. It is always possible to return to current builder using Done()
 	AsAirConditioningDataSetHumiditySetbackLimit() AirConditioningDataSetHumiditySetbackLimitBuilder
 	// Build builds the AirConditioningData or returns an error if something is wrong
 	PartialBuild() (AirConditioningDataContract, error)
 	// MustBuild does the same as Build but panics on error
 	PartialMustBuild() AirConditioningDataContract
 	// Build builds the AirConditioningData or returns an error if something is wrong
 	Build() (AirConditioningData, error)
 	// MustBuild does the same as Build but panics on error
 	MustBuild() AirConditioningData
 }

 // NewAirConditioningDataBuilder() creates a AirConditioningDataBuilder
 func NewAirConditioningDataBuilder() AirConditioningDataBuilder {
 	return &_AirConditioningDataBuilder{_AirConditioningData: new(_AirConditioningData)}
 }

 type _AirConditioningDataChildBuilder interface {
 	utils.Copyable
 	setParent(AirConditioningDataContract)
 	buildForAirConditioningData() (AirConditioningData, error)
 }

 type _AirConditioningDataBuilder struct {
 	*_AirConditioningData

 	childBuilder _AirConditioningDataChildBuilder

 	err *utils.MultiError
 }

 var _ (AirConditioningDataBuilder) = (*_AirConditioningDataBuilder)(nil)

 func (b *_AirConditioningDataBuilder) WithMandatoryFields(commandTypeContainer AirConditioningCommandTypeContainer) AirConditioningDataBuilder {
 	return b.WithCommandTypeContainer(commandTypeContainer)
 }

 func (b *_AirConditioningDataBuilder) WithCommandTypeContainer(commandTypeContainer AirConditioningCommandTypeContainer) AirConditioningDataBuilder {
 	b.CommandTypeContainer = commandTypeContainer
 	return b
 }

 func (b *_AirConditioningDataBuilder) PartialBuild() (AirConditioningDataContract, error) {
 	if b.err != nil {
 		return nil, errors.Wrap(b.err, "error occurred during build")
 	}
 	return b._AirConditioningData.deepCopy(), nil
 }

 func (b *_AirConditioningDataBuilder) PartialMustBuild() AirConditioningDataContract {
 	build, err := b.PartialBuild()
 	if err != nil {
 		panic(err)
 	}
 	return build
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataHvacScheduleEntry() AirConditioningDataHvacScheduleEntryBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataHvacScheduleEntryBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataHvacScheduleEntryBuilder().(*_AirConditioningDataHvacScheduleEntryBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataHumidityScheduleEntry() AirConditioningDataHumidityScheduleEntryBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataHumidityScheduleEntryBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataHumidityScheduleEntryBuilder().(*_AirConditioningDataHumidityScheduleEntryBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataRefresh() AirConditioningDataRefreshBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataRefreshBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataRefreshBuilder().(*_AirConditioningDataRefreshBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataZoneHvacPlantStatus() AirConditioningDataZoneHvacPlantStatusBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataZoneHvacPlantStatusBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataZoneHvacPlantStatusBuilder().(*_AirConditioningDataZoneHvacPlantStatusBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataZoneHumidityPlantStatus() AirConditioningDataZoneHumidityPlantStatusBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataZoneHumidityPlantStatusBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataZoneHumidityPlantStatusBuilder().(*_AirConditioningDataZoneHumidityPlantStatusBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataZoneTemperature() AirConditioningDataZoneTemperatureBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataZoneTemperatureBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataZoneTemperatureBuilder().(*_AirConditioningDataZoneTemperatureBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataZoneHumidity() AirConditioningDataZoneHumidityBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataZoneHumidityBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataZoneHumidityBuilder().(*_AirConditioningDataZoneHumidityBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetZoneGroupOff() AirConditioningDataSetZoneGroupOffBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetZoneGroupOffBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetZoneGroupOffBuilder().(*_AirConditioningDataSetZoneGroupOffBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetZoneGroupOn() AirConditioningDataSetZoneGroupOnBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetZoneGroupOnBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetZoneGroupOnBuilder().(*_AirConditioningDataSetZoneGroupOnBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetZoneHvacMode() AirConditioningDataSetZoneHvacModeBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetZoneHvacModeBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetZoneHvacModeBuilder().(*_AirConditioningDataSetZoneHvacModeBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetPlantHvacLevel() AirConditioningDataSetPlantHvacLevelBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetPlantHvacLevelBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetPlantHvacLevelBuilder().(*_AirConditioningDataSetPlantHvacLevelBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetZoneHumidityMode() AirConditioningDataSetZoneHumidityModeBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetZoneHumidityModeBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetZoneHumidityModeBuilder().(*_AirConditioningDataSetZoneHumidityModeBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetPlantHumidityLevel() AirConditioningDataSetPlantHumidityLevelBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetPlantHumidityLevelBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetPlantHumidityLevelBuilder().(*_AirConditioningDataSetPlantHumidityLevelBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetHvacUpperGuardLimit() AirConditioningDataSetHvacUpperGuardLimitBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetHvacUpperGuardLimitBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetHvacUpperGuardLimitBuilder().(*_AirConditioningDataSetHvacUpperGuardLimitBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetHvacLowerGuardLimit() AirConditioningDataSetHvacLowerGuardLimitBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetHvacLowerGuardLimitBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetHvacLowerGuardLimitBuilder().(*_AirConditioningDataSetHvacLowerGuardLimitBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetHvacSetbackLimit() AirConditioningDataSetHvacSetbackLimitBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetHvacSetbackLimitBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetHvacSetbackLimitBuilder().(*_AirConditioningDataSetHvacSetbackLimitBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetHumidityUpperGuardLimit() AirConditioningDataSetHumidityUpperGuardLimitBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetHumidityUpperGuardLimitBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetHumidityUpperGuardLimitBuilder().(*_AirConditioningDataSetHumidityUpperGuardLimitBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetHumidityLowerGuardLimit() AirConditioningDataSetHumidityLowerGuardLimitBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetHumidityLowerGuardLimitBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetHumidityLowerGuardLimitBuilder().(*_AirConditioningDataSetHumidityLowerGuardLimitBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) AsAirConditioningDataSetHumiditySetbackLimit() AirConditioningDataSetHumiditySetbackLimitBuilder {
 	if cb, ok := b.childBuilder.(AirConditioningDataSetHumiditySetbackLimitBuilder); ok {
 		return cb
 	}
 	cb := NewAirConditioningDataSetHumiditySetbackLimitBuilder().(*_AirConditioningDataSetHumiditySetbackLimitBuilder)
 	cb.parentBuilder = b
 	b.childBuilder = cb
 	return cb
 }

 func (b *_AirConditioningDataBuilder) Build() (AirConditioningData, error) {
 	v, err := b.PartialBuild()
 	if err != nil {
 		return nil, errors.Wrap(err, "error occurred during partial build")
 	}
 	if b.childBuilder == nil {
 		return nil, errors.New("no child builder present")
 	}
 	b.childBuilder.setParent(v)
 	return b.childBuilder.buildForAirConditioningData()
 }

 func (b *_AirConditioningDataBuilder) MustBuild() AirConditioningData {
 	build, err := b.Build()
 	if err != nil {
 		panic(err)
 	}
 	return build
 }

 func (b *_AirConditioningDataBuilder) DeepCopy() any {
 	_copy := b.CreateAirConditioningDataBuilder().(*_AirConditioningDataBuilder)
 	_copy.childBuilder = b.childBuilder.DeepCopy().(_AirConditioningDataChildBuilder)
 	_copy.childBuilder.setParent(_copy)
 	if b.err != nil {
 		_copy.err = b.err.DeepCopy().(*utils.MultiError)
 	}
 	return _copy
 }

 // CreateAirConditioningDataBuilder creates a AirConditioningDataBuilder
 func (b *_AirConditioningData) CreateAirConditioningDataBuilder() AirConditioningDataBuilder {
 	if b == nil {
 		return NewAirConditioningDataBuilder()
 	}
 	return &_AirConditioningDataBuilder{_AirConditioningData: b.deepCopy()}
 }

 ///////////////////////
 ///////////////////////
 ///////////////////////////////////////////////////////////
 ///////////////////////////////////////////////////////////

 ///////////////////////////////////////////////////////////
 ///////////////////////////////////////////////////////////
 /////////////////////// Accessors for property fields.
 ///////////////////////

 func (m *_AirConditioningData) GetCommandTypeContainer() AirConditioningCommandTypeContainer {
 	return m.CommandTypeContainer
 }

 ///////////////////////
 ///////////////////////
 ///////////////////////////////////////////////////////////
 ///////////////////////////////////////////////////////////
 ///////////////////////////////////////////////////////////
 ///////////////////////////////////////////////////////////
 /////////////////////// Accessors for virtual fields.
 ///////////////////////

 func (pm *_AirConditioningData) GetCommandType() AirConditioningCommandType {
 	m := pm._SubType
 	ctx := context.Background()
 	_ = ctx
 	return CastAirConditioningCommandType(m.GetCommandTypeContainer().CommandType())
 }

 ///////////////////////
 ///////////////////////
 ///////////////////////////////////////////////////////////
 ///////////////////////////////////////////////////////////

 // Deprecated: use the interface for direct cast
 func CastAirConditioningData(structType any) AirConditioningData {
 	if casted, ok := structType.(AirConditioningData); ok {
 		return casted
 	}
 	if casted, ok := structType.(*AirConditioningData); ok {
 		return *casted
 	}
 	return nil
 }

 func (m *_AirConditioningData) GetTypeName() string {
 	return "AirConditioningData"
 }

 func (m *_AirConditioningData) getLengthInBits(ctx context.Context) uint16 {
 	lengthInBits := uint16(0)

 	// Simple field (commandTypeContainer)
 	lengthInBits += 8

 	// A virtual field doesn't have any in- or output.

 	return lengthInBits
 }

 func (m *_AirConditioningData) GetLengthInBits(ctx context.Context) uint16 {
 	return m._SubType.GetLengthInBits(ctx)
 }

 func (m *_AirConditioningData) GetLengthInBytes(ctx context.Context) uint16 {
 	return m._SubType.GetLengthInBits(ctx) / 8
 }

 func AirConditioningDataParse[T AirConditioningData](ctx context.Context, theBytes []byte) (T, error) {
 	return AirConditioningDataParseWithBuffer[T](ctx, utils.NewReadBufferByteBased(theBytes))
 }

 func AirConditioningDataParseWithBufferProducer[T AirConditioningData]() func(ctx context.Context, readBuffer utils.ReadBuffer) (T, error) {
 	return func(ctx context.Context, readBuffer utils.ReadBuffer) (T, error) {
 		v, err := AirConditioningDataParseWithBuffer[T](ctx, readBuffer)
 		if err != nil {
 			var zero T
 			return zero, err
 		}
 		return v, nil
 	}
 }

 func AirConditioningDataParseWithBuffer[T AirConditioningData](ctx context.Context, readBuffer utils.ReadBuffer) (T, error) {
 	v, err := (&_AirConditioningData{}).parse(ctx, readBuffer)
 	if err != nil {
 		var zero T
 		return zero, err
 	}
 	vc, ok := v.(T)
 	if !ok {
 		var zero T
 		return zero, errors.Errorf("Unexpected type %T. Expected type %T", v, *new(T))
 	}
 	return vc, nil
 }

 func (m *_AirConditioningData) parse(ctx context.Context, readBuffer utils.ReadBuffer) (__airConditioningData AirConditioningData, err error) {
 	positionAware := readBuffer
 	_ = positionAware
 	if pullErr := readBuffer.PullContext("AirConditioningData"); pullErr != nil {
 		return nil, errors.Wrap(pullErr, "Error pulling for AirConditioningData")
 	}
 	currentPos := positionAware.GetPos()
 	_ = currentPos

 	// Validation
 	if !(KnowsAirConditioningCommandTypeContainer(ctx, readBuffer)) {
 		return nil, errors.WithStack(utils.ParseAssertError{Message: "no command type could be found"})
 	}

 	commandTypeContainer, err := ReadEnumField[AirConditioningCommandTypeContainer](ctx, "commandTypeContainer", "AirConditioningCommandTypeContainer", ReadEnum(AirConditioningCommandTypeContainerByValue, ReadUnsignedByte(readBuffer, uint8(8))))
 	if err != nil {
 		return nil, errors.Wrap(err, fmt.Sprintf("Error parsing 'commandTypeContainer' field"))
 	}
 	m.CommandTypeContainer = commandTypeContainer

 	commandType, err := ReadVirtualField[AirConditioningCommandType](ctx, "commandType", (*AirConditioningCommandType)(nil), commandTypeContainer.CommandType())
 	if err != nil {
 		return nil, errors.Wrap(err, fmt.Sprintf("Error parsing 'commandType' field"))
 	}
 	_ = commandType

 	// Switch Field (Depending on the discriminator values, passes the instantiation to a sub-type)
 	var _child AirConditioningData
 	switch {
 	case commandType == AirConditioningCommandType_HVAC_SCHEDULE_ENTRY: // AirConditioningDataHvacScheduleEntry
 		if _child, err = new(_AirConditioningDataHvacScheduleEntry).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataHvacScheduleEntry for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_HUMIDITY_SCHEDULE_ENTRY: // AirConditioningDataHumidityScheduleEntry
 		if _child, err = new(_AirConditioningDataHumidityScheduleEntry).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataHumidityScheduleEntry for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_REFRESH: // AirConditioningDataRefresh
 		if _child, err = new(_AirConditioningDataRefresh).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataRefresh for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_ZONE_HVAC_PLANT_STATUS: // AirConditioningDataZoneHvacPlantStatus
 		if _child, err = new(_AirConditioningDataZoneHvacPlantStatus).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataZoneHvacPlantStatus for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_ZONE_HUMIDITY_PLANT_STATUS: // AirConditioningDataZoneHumidityPlantStatus
 		if _child, err = new(_AirConditioningDataZoneHumidityPlantStatus).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataZoneHumidityPlantStatus for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_ZONE_TEMPERATURE: // AirConditioningDataZoneTemperature
 		if _child, err = new(_AirConditioningDataZoneTemperature).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataZoneTemperature for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_ZONE_HUMIDITY: // AirConditioningDataZoneHumidity
 		if _child, err = new(_AirConditioningDataZoneHumidity).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataZoneHumidity for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_ZONE_GROUP_OFF: // AirConditioningDataSetZoneGroupOff
 		if _child, err = new(_AirConditioningDataSetZoneGroupOff).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetZoneGroupOff for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_ZONE_GROUP_ON: // AirConditioningDataSetZoneGroupOn
 		if _child, err = new(_AirConditioningDataSetZoneGroupOn).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetZoneGroupOn for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_ZONE_HVAC_MODE: // AirConditioningDataSetZoneHvacMode
 		if _child, err = new(_AirConditioningDataSetZoneHvacMode).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetZoneHvacMode for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_PLANT_HVAC_LEVEL: // AirConditioningDataSetPlantHvacLevel
 		if _child, err = new(_AirConditioningDataSetPlantHvacLevel).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetPlantHvacLevel for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_ZONE_HUMIDITY_MODE: // AirConditioningDataSetZoneHumidityMode
 		if _child, err = new(_AirConditioningDataSetZoneHumidityMode).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetZoneHumidityMode for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_PLANT_HUMIDITY_LEVEL: // AirConditioningDataSetPlantHumidityLevel
 		if _child, err = new(_AirConditioningDataSetPlantHumidityLevel).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetPlantHumidityLevel for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_HVAC_UPPER_GUARD_LIMIT: // AirConditioningDataSetHvacUpperGuardLimit
 		if _child, err = new(_AirConditioningDataSetHvacUpperGuardLimit).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetHvacUpperGuardLimit for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_HVAC_LOWER_GUARD_LIMIT: // AirConditioningDataSetHvacLowerGuardLimit
 		if _child, err = new(_AirConditioningDataSetHvacLowerGuardLimit).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetHvacLowerGuardLimit for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_HVAC_SETBACK_LIMIT: // AirConditioningDataSetHvacSetbackLimit
 		if _child, err = new(_AirConditioningDataSetHvacSetbackLimit).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetHvacSetbackLimit for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_HUMIDITY_UPPER_GUARD_LIMIT: // AirConditioningDataSetHumidityUpperGuardLimit
 		if _child, err = new(_AirConditioningDataSetHumidityUpperGuardLimit).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetHumidityUpperGuardLimit for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_HUMIDITY_LOWER_GUARD_LIMIT: // AirConditioningDataSetHumidityLowerGuardLimit
 		if _child, err = new(_AirConditioningDataSetHumidityLowerGuardLimit).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetHumidityLowerGuardLimit for type-switch of AirConditioningData")
 		}
 	case commandType == AirConditioningCommandType_SET_HUMIDITY_SETBACK_LIMIT: // AirConditioningDataSetHumiditySetbackLimit
 		if _child, err = new(_AirConditioningDataSetHumiditySetbackLimit).parse(ctx, readBuffer, m); err != nil {
 			return nil, errors.Wrap(err, "Error parsing sub-type AirConditioningDataSetHumiditySetbackLimit for type-switch of AirConditioningData")
 		}
 	default:
 		return nil, errors.Errorf("Unmapped type for parameters [commandType=%v]", commandType)
 	}

 	if closeErr := readBuffer.CloseContext("AirConditioningData"); closeErr != nil {
 		return nil, errors.Wrap(closeErr, "Error closing for AirConditioningData")
 	}

 	return _child, nil
 }

 func (pm *_AirConditioningData) serializeParent(ctx context.Context, writeBuffer utils.WriteBuffer, child AirConditioningData, serializeChildFunction func() error) error {
 	// We redirect all calls through client as some methods are only implemented there
 	m := child
 	_ = m
 	positionAware := writeBuffer
 	_ = positionAware
 	log := zerolog.Ctx(ctx)
 	_ = log
 	if pushErr := writeBuffer.PushContext("AirConditioningData"); pushErr != nil {
 		return errors.Wrap(pushErr, "Error pushing for AirConditioningData")
 	}

 	if err := WriteSimpleEnumField[AirConditioningCommandTypeContainer](ctx, "commandTypeContainer", "AirConditioningCommandTypeContainer", m.GetCommandTypeContainer(), WriteEnum[AirConditioningCommandTypeContainer, uint8](AirConditioningCommandTypeContainer.GetValue, AirConditioningCommandTypeContainer.PLC4XEnumName, WriteUnsignedByte(writeBuffer, 8))); err != nil {
 		return errors.Wrap(err, "Error serializing 'commandTypeContainer' field")
 	}
 	// Virtual field
 	commandType := m.GetCommandType()
 	_ = commandType
 	if _commandTypeErr := writeBuffer.WriteVirtual(ctx, "commandType", m.GetCommandType()); _commandTypeErr != nil {
 		return errors.Wrap(_commandTypeErr, "Error serializing 'commandType' field")
 	}

 	// Switch field (Depending on the discriminator values, passes the serialization to a sub-type)
 	if _typeSwitchErr := serializeChildFunction(); _typeSwitchErr != nil {
 		return errors.Wrap(_typeSwitchErr, "Error serializing sub-type field")
 	}

 	if popErr := writeBuffer.PopContext("AirConditioningData"); popErr != nil {
 		return errors.Wrap(popErr, "Error popping for AirConditioningData")
 	}
 	return nil
 }

 func (m *_AirConditioningData) IsAirConditioningData() {}

 func (m *_AirConditioningData) DeepCopy() any {
 	return m.deepCopy()
 }

 func (m *_AirConditioningData) deepCopy() *_AirConditioningData {
 	if m == nil {
 		return nil
 	}
 	_AirConditioningDataCopy := &_AirConditioningData{
 		nil, // will be set by child
 		m.CommandTypeContainer,
 	}
 	return _AirConditioningDataCopy
 }