Documentation ¶
Overview ¶
Package types provides the data structures corresponding to the meta-model.
Provide an implementation of the Asset Administration Shell (AAS) V3.0.
The presented version of the Metamodel is related to the work of aas-core-works, which can be found here: https://github.com/aas-core-works.
The presented content is neither related to the IDTA nor Plattform Industrie 4.0 and does not represent an official publication.
We diverge from the book in the following points.
We did not implement the following constraints as they are too general and can not be formalized as part of the core library, but affects external components such as AAS registry or AAS server:
- Constraint AASd-022
We did not implement the following constraints since they depend on registry and de-referencing of IReference objects:
- Constraint AASd-006
- Constraint AASd-007
- Constraint AASc-3a-003
Some constraints are not enforceable as they depend on the wider context such as language understanding, so we could not formalize them:
Constraint AASd-012: This constraint requires that the texts inside `Multi_language_property` shall have the same meanings in the separate languages. This cannot be tested.
Constraint AASd-116: In the book, Constraint AASd-116 imposes a case-insensitive equality against `globalAssetId`. This is culturally-dependent, and depends on the system settings. For example, the case-folding for the letters "i" and "I" is different in Turkish from English.
We implement the constraint as case-sensitive instead to allow for interoperability across different culture settings.
Furthermore, we diverge from the book in the following points regarding the enumerations. We have to implement subsets of enumerations as sets as common programming languages do not support inheritance of enumerations. The relationship between the properties and the sets is defined through invariants. This causes the following divergences:
We decided therefore to remove the enumeration `DataTypeDefRDF` and keep only DataTypeDefXSD as enumeration. Otherwise, we would have to write redundant invariants all over the meta-model because `DataTypeDefRDF` is actually never used in any type definition.
The enumeration AASSubmodelElements is used in two different contexts. One context is the definition of key types in a reference. Another context is the definition of element types in a ISubmodelElementList.
To avoid confusion, we introduce two separate enumerations for the separate contexts. Firstly, a set of KeyTypes, [aasconstants.AASSubmodelElementsAsKeys] to represent the first context (key type in a reference). Secondly, the enumeration AASSubmodelElements is kept as designator for [ISubmodelElementList.TypeValueListElement].
The specification introduces several types of `Lang_string_set`. These types differ between the allowed length of their text inside the singular `Lang_string` objects. Since the native representation of `Lang_string_set` as `List` of `Lang_string` is required by specification, it is impossible to introduce separate `Lang_string_set` types. Therefore, the distinction is drawn here between the `Lang_string` types.
`DefinitionTypeIEC61360` is represented as a `List` of ILangStringDefinitionTypeIEC61360
`MultiLanguageNameType` is represented as a `List` of ILangStringNameType
`PreferredNameTypeIEC61360` is represented as a `List` of ILangStringPreferredNameTypeIEC61360
`ShortNameTypeIEC61360` is represented as a `List` of ILangStringShortNameTypeIEC61360
`MultiLanguageTextType` is represented as a `List` of ILangStringTextType
Furthermore, since `Lang_string` is not used anywhere, we rename it to IAbstractLangString.
Concerning the data specifications, we embed them within IHasDataSpecification instead of referencing them via an external reference. The working group decided to change the rules for serialization after the book was published. The data specifications are critical in applications, but there is no possibility to access them through a data channel as they are not part of an environment.
Index ¶
- Variables
- func IsAbstractLangString(that IClass) (ok bool)
- func IsAdministrativeInformation(that IClass) (ok bool)
- func IsAnnotatedRelationshipElement(that IClass) (ok bool)
- func IsAssetAdministrationShell(that IClass) (ok bool)
- func IsAssetInformation(that IClass) (ok bool)
- func IsBasicEventElement(that IClass) (ok bool)
- func IsBlob(that IClass) (ok bool)
- func IsCapability(that IClass) (ok bool)
- func IsConceptDescription(that IClass) (ok bool)
- func IsDataElement(that IClass) (ok bool)
- func IsDataSpecificationContent(that IClass) (ok bool)
- func IsDataSpecificationIEC61360(that IClass) (ok bool)
- func IsEmbeddedDataSpecification(that IClass) (ok bool)
- func IsEntity(that IClass) (ok bool)
- func IsEnvironment(that IClass) (ok bool)
- func IsEventElement(that IClass) (ok bool)
- func IsEventPayload(that IClass) (ok bool)
- func IsExtension(that IClass) (ok bool)
- func IsFile(that IClass) (ok bool)
- func IsHasDataSpecification(that IClass) (ok bool)
- func IsHasExtensions(that IClass) (ok bool)
- func IsHasKind(that IClass) (ok bool)
- func IsHasSemantics(that IClass) (ok bool)
- func IsIdentifiable(that IClass) (ok bool)
- func IsKey(that IClass) (ok bool)
- func IsLangStringDefinitionTypeIEC61360(that IClass) (ok bool)
- func IsLangStringNameType(that IClass) (ok bool)
- func IsLangStringPreferredNameTypeIEC61360(that IClass) (ok bool)
- func IsLangStringShortNameTypeIEC61360(that IClass) (ok bool)
- func IsLangStringTextType(that IClass) (ok bool)
- func IsLevelType(that IClass) (ok bool)
- func IsMultiLanguageProperty(that IClass) (ok bool)
- func IsOperation(that IClass) (ok bool)
- func IsOperationVariable(that IClass) (ok bool)
- func IsProperty(that IClass) (ok bool)
- func IsQualifiable(that IClass) (ok bool)
- func IsQualifier(that IClass) (ok bool)
- func IsRange(that IClass) (ok bool)
- func IsReferable(that IClass) (ok bool)
- func IsReference(that IClass) (ok bool)
- func IsReferenceElement(that IClass) (ok bool)
- func IsRelationshipElement(that IClass) (ok bool)
- func IsResource(that IClass) (ok bool)
- func IsSpecificAssetID(that IClass) (ok bool)
- func IsSubmodel(that IClass) (ok bool)
- func IsSubmodelElement(that IClass) (ok bool)
- func IsSubmodelElementCollection(that IClass) (ok bool)
- func IsSubmodelElementList(that IClass) (ok bool)
- func IsValueList(that IClass) (ok bool)
- func IsValueReferencePair(that IClass) (ok bool)
- type AASSubmodelElements
- type AdministrativeInformation
- func (ai *AdministrativeInformation) Creator() IReference
- func (ai *AdministrativeInformation) Descend(action func(IClass) bool) (abort bool)
- func (ai *AdministrativeInformation) DescendOnce(action func(IClass) bool) (abort bool)
- func (ai *AdministrativeInformation) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (ai *AdministrativeInformation) ModelType() ModelType
- func (ai *AdministrativeInformation) Revision() *string
- func (ai *AdministrativeInformation) SetCreator(value IReference)
- func (ai *AdministrativeInformation) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (ai *AdministrativeInformation) SetRevision(value *string)
- func (ai *AdministrativeInformation) SetTemplateID(value *string)
- func (ai *AdministrativeInformation) SetVersion(value *string)
- func (ai *AdministrativeInformation) TemplateID() *string
- func (ai *AdministrativeInformation) Version() *string
- type AnnotatedRelationshipElement
- func (are *AnnotatedRelationshipElement) Annotations() []IDataElement
- func (are *AnnotatedRelationshipElement) Category() *string
- func (are *AnnotatedRelationshipElement) Descend(action func(IClass) bool) (abort bool)
- func (are *AnnotatedRelationshipElement) DescendOnce(action func(IClass) bool) (abort bool)
- func (are *AnnotatedRelationshipElement) Description() []ILangStringTextType
- func (are *AnnotatedRelationshipElement) DisplayName() []ILangStringNameType
- func (are *AnnotatedRelationshipElement) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (are *AnnotatedRelationshipElement) Extensions() []IExtension
- func (are *AnnotatedRelationshipElement) First() IReference
- func (are *AnnotatedRelationshipElement) IDShort() *string
- func (are *AnnotatedRelationshipElement) ModelType() ModelType
- func (are *AnnotatedRelationshipElement) Qualifiers() []IQualifier
- func (are *AnnotatedRelationshipElement) Second() IReference
- func (are *AnnotatedRelationshipElement) SemanticID() IReference
- func (are *AnnotatedRelationshipElement) SetAnnotations(value []IDataElement)
- func (are *AnnotatedRelationshipElement) SetCategory(value *string)
- func (are *AnnotatedRelationshipElement) SetDescription(value []ILangStringTextType)
- func (are *AnnotatedRelationshipElement) SetDisplayName(value []ILangStringNameType)
- func (are *AnnotatedRelationshipElement) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (are *AnnotatedRelationshipElement) SetExtensions(value []IExtension)
- func (are *AnnotatedRelationshipElement) SetFirst(value IReference)
- func (are *AnnotatedRelationshipElement) SetIDShort(value *string)
- func (are *AnnotatedRelationshipElement) SetQualifiers(value []IQualifier)
- func (are *AnnotatedRelationshipElement) SetSecond(value IReference)
- func (are *AnnotatedRelationshipElement) SetSemanticID(value IReference)
- func (are *AnnotatedRelationshipElement) SetSupplementalSemanticIDs(value []IReference)
- func (are *AnnotatedRelationshipElement) SupplementalSemanticIDs() []IReference
- type AssetAdministrationShell
- func (aas *AssetAdministrationShell) Administration() IAdministrativeInformation
- func (aas *AssetAdministrationShell) AssetInformation() IAssetInformation
- func (aas *AssetAdministrationShell) Category() *string
- func (aas *AssetAdministrationShell) DerivedFrom() IReference
- func (aas *AssetAdministrationShell) Descend(action func(IClass) bool) (abort bool)
- func (aas *AssetAdministrationShell) DescendOnce(action func(IClass) bool) (abort bool)
- func (aas *AssetAdministrationShell) Description() []ILangStringTextType
- func (aas *AssetAdministrationShell) DisplayName() []ILangStringNameType
- func (aas *AssetAdministrationShell) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (aas *AssetAdministrationShell) Extensions() []IExtension
- func (aas *AssetAdministrationShell) ID() string
- func (aas *AssetAdministrationShell) IDShort() *string
- func (aas *AssetAdministrationShell) ModelType() ModelType
- func (aas *AssetAdministrationShell) SetAdministration(value IAdministrativeInformation)
- func (aas *AssetAdministrationShell) SetAssetInformation(value IAssetInformation)
- func (aas *AssetAdministrationShell) SetCategory(value *string)
- func (aas *AssetAdministrationShell) SetDerivedFrom(value IReference)
- func (aas *AssetAdministrationShell) SetDescription(value []ILangStringTextType)
- func (aas *AssetAdministrationShell) SetDisplayName(value []ILangStringNameType)
- func (aas *AssetAdministrationShell) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (aas *AssetAdministrationShell) SetExtensions(value []IExtension)
- func (aas *AssetAdministrationShell) SetID(value string)
- func (aas *AssetAdministrationShell) SetIDShort(value *string)
- func (aas *AssetAdministrationShell) SetSubmodels(value []IReference)
- func (aas *AssetAdministrationShell) Submodels() []IReference
- type AssetInformation
- func (ai *AssetInformation) AssetKind() AssetKind
- func (ai *AssetInformation) AssetType() *string
- func (ai *AssetInformation) DefaultThumbnail() IResource
- func (ai *AssetInformation) Descend(action func(IClass) bool) (abort bool)
- func (ai *AssetInformation) DescendOnce(action func(IClass) bool) (abort bool)
- func (ai *AssetInformation) GlobalAssetID() *string
- func (ai *AssetInformation) ModelType() ModelType
- func (ai *AssetInformation) SetAssetKind(value AssetKind)
- func (ai *AssetInformation) SetAssetType(value *string)
- func (ai *AssetInformation) SetDefaultThumbnail(value IResource)
- func (ai *AssetInformation) SetGlobalAssetID(value *string)
- func (ai *AssetInformation) SetSpecificAssetIDs(value []ISpecificAssetID)
- func (ai *AssetInformation) SpecificAssetIDs() []ISpecificAssetID
- type AssetKind
- type BasicEventElement
- func (bee *BasicEventElement) Category() *string
- func (bee *BasicEventElement) Descend(action func(IClass) bool) (abort bool)
- func (bee *BasicEventElement) DescendOnce(action func(IClass) bool) (abort bool)
- func (bee *BasicEventElement) Description() []ILangStringTextType
- func (bee *BasicEventElement) Direction() Direction
- func (bee *BasicEventElement) DisplayName() []ILangStringNameType
- func (bee *BasicEventElement) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (bee *BasicEventElement) Extensions() []IExtension
- func (bee *BasicEventElement) IDShort() *string
- func (bee *BasicEventElement) LastUpdate() *string
- func (bee *BasicEventElement) MaxInterval() *string
- func (bee *BasicEventElement) MessageBroker() IReference
- func (bee *BasicEventElement) MessageTopic() *string
- func (bee *BasicEventElement) MinInterval() *string
- func (bee *BasicEventElement) ModelType() ModelType
- func (bee *BasicEventElement) Observed() IReference
- func (bee *BasicEventElement) Qualifiers() []IQualifier
- func (bee *BasicEventElement) SemanticID() IReference
- func (bee *BasicEventElement) SetCategory(value *string)
- func (bee *BasicEventElement) SetDescription(value []ILangStringTextType)
- func (bee *BasicEventElement) SetDirection(value Direction)
- func (bee *BasicEventElement) SetDisplayName(value []ILangStringNameType)
- func (bee *BasicEventElement) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (bee *BasicEventElement) SetExtensions(value []IExtension)
- func (bee *BasicEventElement) SetIDShort(value *string)
- func (bee *BasicEventElement) SetLastUpdate(value *string)
- func (bee *BasicEventElement) SetMaxInterval(value *string)
- func (bee *BasicEventElement) SetMessageBroker(value IReference)
- func (bee *BasicEventElement) SetMessageTopic(value *string)
- func (bee *BasicEventElement) SetMinInterval(value *string)
- func (bee *BasicEventElement) SetObserved(value IReference)
- func (bee *BasicEventElement) SetQualifiers(value []IQualifier)
- func (bee *BasicEventElement) SetSemanticID(value IReference)
- func (bee *BasicEventElement) SetState(value StateOfEvent)
- func (bee *BasicEventElement) SetSupplementalSemanticIDs(value []IReference)
- func (bee *BasicEventElement) State() StateOfEvent
- func (bee *BasicEventElement) SupplementalSemanticIDs() []IReference
- type Blob
- func (b *Blob) Category() *string
- func (b *Blob) CategoryOrDefault() string
- func (b *Blob) ContentType() string
- func (b *Blob) Descend(action func(IClass) bool) (abort bool)
- func (b *Blob) DescendOnce(action func(IClass) bool) (abort bool)
- func (b *Blob) Description() []ILangStringTextType
- func (b *Blob) DisplayName() []ILangStringNameType
- func (b *Blob) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (b *Blob) Extensions() []IExtension
- func (b *Blob) IDShort() *string
- func (b *Blob) ModelType() ModelType
- func (b *Blob) Qualifiers() []IQualifier
- func (b *Blob) SemanticID() IReference
- func (b *Blob) SetCategory(value *string)
- func (b *Blob) SetContentType(value string)
- func (b *Blob) SetDescription(value []ILangStringTextType)
- func (b *Blob) SetDisplayName(value []ILangStringNameType)
- func (b *Blob) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (b *Blob) SetExtensions(value []IExtension)
- func (b *Blob) SetIDShort(value *string)
- func (b *Blob) SetQualifiers(value []IQualifier)
- func (b *Blob) SetSemanticID(value IReference)
- func (b *Blob) SetSupplementalSemanticIDs(value []IReference)
- func (b *Blob) SetValue(value []byte)
- func (b *Blob) SupplementalSemanticIDs() []IReference
- func (b *Blob) Value() []byte
- type Capability
- func (c *Capability) Category() *string
- func (c *Capability) Descend(action func(IClass) bool) (abort bool)
- func (c *Capability) DescendOnce(action func(IClass) bool) (abort bool)
- func (c *Capability) Description() []ILangStringTextType
- func (c *Capability) DisplayName() []ILangStringNameType
- func (c *Capability) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (c *Capability) Extensions() []IExtension
- func (c *Capability) IDShort() *string
- func (c *Capability) ModelType() ModelType
- func (c *Capability) Qualifiers() []IQualifier
- func (c *Capability) SemanticID() IReference
- func (c *Capability) SetCategory(value *string)
- func (c *Capability) SetDescription(value []ILangStringTextType)
- func (c *Capability) SetDisplayName(value []ILangStringNameType)
- func (c *Capability) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (c *Capability) SetExtensions(value []IExtension)
- func (c *Capability) SetIDShort(value *string)
- func (c *Capability) SetQualifiers(value []IQualifier)
- func (c *Capability) SetSemanticID(value IReference)
- func (c *Capability) SetSupplementalSemanticIDs(value []IReference)
- func (c *Capability) SupplementalSemanticIDs() []IReference
- type ConceptDescription
- func (cd *ConceptDescription) Administration() IAdministrativeInformation
- func (cd *ConceptDescription) Category() *string
- func (cd *ConceptDescription) Descend(action func(IClass) bool) (abort bool)
- func (cd *ConceptDescription) DescendOnce(action func(IClass) bool) (abort bool)
- func (cd *ConceptDescription) Description() []ILangStringTextType
- func (cd *ConceptDescription) DisplayName() []ILangStringNameType
- func (cd *ConceptDescription) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (cd *ConceptDescription) Extensions() []IExtension
- func (cd *ConceptDescription) ID() string
- func (cd *ConceptDescription) IDShort() *string
- func (cd *ConceptDescription) IsCaseOf() []IReference
- func (cd *ConceptDescription) ModelType() ModelType
- func (cd *ConceptDescription) SetAdministration(value IAdministrativeInformation)
- func (cd *ConceptDescription) SetCategory(value *string)
- func (cd *ConceptDescription) SetDescription(value []ILangStringTextType)
- func (cd *ConceptDescription) SetDisplayName(value []ILangStringNameType)
- func (cd *ConceptDescription) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (cd *ConceptDescription) SetExtensions(value []IExtension)
- func (cd *ConceptDescription) SetID(value string)
- func (cd *ConceptDescription) SetIDShort(value *string)
- func (cd *ConceptDescription) SetIsCaseOf(value []IReference)
- type DataSpecificationIEC61360
- func (dsi6 *DataSpecificationIEC61360) DataType() *DataTypeIEC61360
- func (dsi6 *DataSpecificationIEC61360) Definition() []ILangStringDefinitionTypeIEC61360
- func (dsi6 *DataSpecificationIEC61360) Descend(action func(IClass) bool) (abort bool)
- func (dsi6 *DataSpecificationIEC61360) DescendOnce(action func(IClass) bool) (abort bool)
- func (dsi6 *DataSpecificationIEC61360) LevelType() ILevelType
- func (dsi6 *DataSpecificationIEC61360) ModelType() ModelType
- func (dsi6 *DataSpecificationIEC61360) PreferredName() []ILangStringPreferredNameTypeIEC61360
- func (dsi6 *DataSpecificationIEC61360) SetDataType(value *DataTypeIEC61360)
- func (dsi6 *DataSpecificationIEC61360) SetDefinition(value []ILangStringDefinitionTypeIEC61360)
- func (dsi6 *DataSpecificationIEC61360) SetLevelType(value ILevelType)
- func (dsi6 *DataSpecificationIEC61360) SetPreferredName(value []ILangStringPreferredNameTypeIEC61360)
- func (dsi6 *DataSpecificationIEC61360) SetShortName(value []ILangStringShortNameTypeIEC61360)
- func (dsi6 *DataSpecificationIEC61360) SetSourceOfDefinition(value *string)
- func (dsi6 *DataSpecificationIEC61360) SetSymbol(value *string)
- func (dsi6 *DataSpecificationIEC61360) SetUnit(value *string)
- func (dsi6 *DataSpecificationIEC61360) SetUnitID(value IReference)
- func (dsi6 *DataSpecificationIEC61360) SetValue(value *string)
- func (dsi6 *DataSpecificationIEC61360) SetValueFormat(value *string)
- func (dsi6 *DataSpecificationIEC61360) SetValueList(value IValueList)
- func (dsi6 *DataSpecificationIEC61360) ShortName() []ILangStringShortNameTypeIEC61360
- func (dsi6 *DataSpecificationIEC61360) SourceOfDefinition() *string
- func (dsi6 *DataSpecificationIEC61360) Symbol() *string
- func (dsi6 *DataSpecificationIEC61360) Unit() *string
- func (dsi6 *DataSpecificationIEC61360) UnitID() IReference
- func (dsi6 *DataSpecificationIEC61360) Value() *string
- func (dsi6 *DataSpecificationIEC61360) ValueFormat() *string
- func (dsi6 *DataSpecificationIEC61360) ValueList() IValueList
- type DataTypeDefXSD
- type DataTypeIEC61360
- type Direction
- type EmbeddedDataSpecification
- func (eds *EmbeddedDataSpecification) DataSpecification() IReference
- func (eds *EmbeddedDataSpecification) DataSpecificationContent() IDataSpecificationContent
- func (eds *EmbeddedDataSpecification) Descend(action func(IClass) bool) (abort bool)
- func (eds *EmbeddedDataSpecification) DescendOnce(action func(IClass) bool) (abort bool)
- func (eds *EmbeddedDataSpecification) ModelType() ModelType
- func (eds *EmbeddedDataSpecification) SetDataSpecification(value IReference)
- func (eds *EmbeddedDataSpecification) SetDataSpecificationContent(value IDataSpecificationContent)
- type Entity
- func (e *Entity) Category() *string
- func (e *Entity) Descend(action func(IClass) bool) (abort bool)
- func (e *Entity) DescendOnce(action func(IClass) bool) (abort bool)
- func (e *Entity) Description() []ILangStringTextType
- func (e *Entity) DisplayName() []ILangStringNameType
- func (e *Entity) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (e *Entity) EntityType() EntityType
- func (e *Entity) Extensions() []IExtension
- func (e *Entity) GlobalAssetID() *string
- func (e *Entity) IDShort() *string
- func (e *Entity) ModelType() ModelType
- func (e *Entity) Qualifiers() []IQualifier
- func (e *Entity) SemanticID() IReference
- func (e *Entity) SetCategory(value *string)
- func (e *Entity) SetDescription(value []ILangStringTextType)
- func (e *Entity) SetDisplayName(value []ILangStringNameType)
- func (e *Entity) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (e *Entity) SetEntityType(value EntityType)
- func (e *Entity) SetExtensions(value []IExtension)
- func (e *Entity) SetGlobalAssetID(value *string)
- func (e *Entity) SetIDShort(value *string)
- func (e *Entity) SetQualifiers(value []IQualifier)
- func (e *Entity) SetSemanticID(value IReference)
- func (e *Entity) SetSpecificAssetIDs(value []ISpecificAssetID)
- func (e *Entity) SetStatements(value []ISubmodelElement)
- func (e *Entity) SetSupplementalSemanticIDs(value []IReference)
- func (e *Entity) SpecificAssetIDs() []ISpecificAssetID
- func (e *Entity) Statements() []ISubmodelElement
- func (e *Entity) SupplementalSemanticIDs() []IReference
- type EntityType
- type Environment
- func (e *Environment) AssetAdministrationShells() []IAssetAdministrationShell
- func (e *Environment) ConceptDescriptions() []IConceptDescription
- func (e *Environment) Descend(action func(IClass) bool) (abort bool)
- func (e *Environment) DescendOnce(action func(IClass) bool) (abort bool)
- func (e *Environment) ModelType() ModelType
- func (e *Environment) SetAssetAdministrationShells(value []IAssetAdministrationShell)
- func (e *Environment) SetConceptDescriptions(value []IConceptDescription)
- func (e *Environment) SetSubmodels(value []ISubmodel)
- func (e *Environment) Submodels() []ISubmodel
- type EventPayload
- func (ep *EventPayload) Descend(action func(IClass) bool) (abort bool)
- func (ep *EventPayload) DescendOnce(action func(IClass) bool) (abort bool)
- func (ep *EventPayload) ModelType() ModelType
- func (ep *EventPayload) ObservableReference() IReference
- func (ep *EventPayload) ObservableSemanticID() IReference
- func (ep *EventPayload) Payload() []byte
- func (ep *EventPayload) SetObservableReference(value IReference)
- func (ep *EventPayload) SetObservableSemanticID(value IReference)
- func (ep *EventPayload) SetPayload(value []byte)
- func (ep *EventPayload) SetSource(value IReference)
- func (ep *EventPayload) SetSourceSemanticID(value IReference)
- func (ep *EventPayload) SetSubjectID(value IReference)
- func (ep *EventPayload) SetTimeStamp(value string)
- func (ep *EventPayload) SetTopic(value *string)
- func (ep *EventPayload) Source() IReference
- func (ep *EventPayload) SourceSemanticID() IReference
- func (ep *EventPayload) SubjectID() IReference
- func (ep *EventPayload) TimeStamp() string
- func (ep *EventPayload) Topic() *string
- type Extension
- func (e *Extension) Descend(action func(IClass) bool) (abort bool)
- func (e *Extension) DescendOnce(action func(IClass) bool) (abort bool)
- func (e *Extension) ModelType() ModelType
- func (e *Extension) Name() string
- func (e *Extension) RefersTo() []IReference
- func (e *Extension) SemanticID() IReference
- func (e *Extension) SetName(value string)
- func (e *Extension) SetRefersTo(value []IReference)
- func (e *Extension) SetSemanticID(value IReference)
- func (e *Extension) SetSupplementalSemanticIDs(value []IReference)
- func (e *Extension) SetValue(value *string)
- func (e *Extension) SetValueType(value *DataTypeDefXSD)
- func (e *Extension) SupplementalSemanticIDs() []IReference
- func (e *Extension) Value() *string
- func (e *Extension) ValueType() *DataTypeDefXSD
- func (e *Extension) ValueTypeOrDefault() DataTypeDefXSD
- type File
- func (f *File) Category() *string
- func (f *File) CategoryOrDefault() string
- func (f *File) ContentType() string
- func (f *File) Descend(action func(IClass) bool) (abort bool)
- func (f *File) DescendOnce(action func(IClass) bool) (abort bool)
- func (f *File) Description() []ILangStringTextType
- func (f *File) DisplayName() []ILangStringNameType
- func (f *File) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (f *File) Extensions() []IExtension
- func (f *File) IDShort() *string
- func (f *File) ModelType() ModelType
- func (f *File) Qualifiers() []IQualifier
- func (f *File) SemanticID() IReference
- func (f *File) SetCategory(value *string)
- func (f *File) SetContentType(value string)
- func (f *File) SetDescription(value []ILangStringTextType)
- func (f *File) SetDisplayName(value []ILangStringNameType)
- func (f *File) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (f *File) SetExtensions(value []IExtension)
- func (f *File) SetIDShort(value *string)
- func (f *File) SetQualifiers(value []IQualifier)
- func (f *File) SetSemanticID(value IReference)
- func (f *File) SetSupplementalSemanticIDs(value []IReference)
- func (f *File) SetValue(value *string)
- func (f *File) SupplementalSemanticIDs() []IReference
- func (f *File) Value() *string
- type IAbstractLangString
- type IAdministrativeInformation
- type IAnnotatedRelationshipElement
- type IAssetAdministrationShell
- type IAssetInformation
- type IBasicEventElement
- type IBlob
- type ICapability
- type IClass
- type IConceptDescription
- type IDataElement
- type IDataSpecificationContent
- type IDataSpecificationIEC61360
- type IEmbeddedDataSpecification
- type IEntity
- type IEnvironment
- type IEventElement
- type IEventPayload
- type IExtension
- type IFile
- type IHasDataSpecification
- type IHasExtensions
- type IHasKind
- type IHasSemantics
- type IIdentifiable
- type IKey
- type ILangStringDefinitionTypeIEC61360
- type ILangStringNameType
- type ILangStringPreferredNameTypeIEC61360
- type ILangStringShortNameTypeIEC61360
- type ILangStringTextType
- type ILevelType
- type IMultiLanguageProperty
- type IOperation
- type IOperationVariable
- type IProperty
- type IQualifiable
- type IQualifier
- type IRange
- type IReferable
- type IReference
- type IReferenceElement
- type IRelationshipElement
- type IResource
- type ISpecificAssetID
- type ISubmodel
- type ISubmodelElement
- type ISubmodelElementCollection
- type ISubmodelElementList
- type IValueList
- type IValueReferencePair
- type Key
- type KeyTypes
- type LangStringDefinitionTypeIEC61360
- func (lsdti6 *LangStringDefinitionTypeIEC61360) Descend(action func(IClass) bool) (abort bool)
- func (lsdti6 *LangStringDefinitionTypeIEC61360) DescendOnce(action func(IClass) bool) (abort bool)
- func (lsdti6 *LangStringDefinitionTypeIEC61360) Language() string
- func (lsdti6 *LangStringDefinitionTypeIEC61360) ModelType() ModelType
- func (lsdti6 *LangStringDefinitionTypeIEC61360) SetLanguage(value string)
- func (lsdti6 *LangStringDefinitionTypeIEC61360) SetText(value string)
- func (lsdti6 *LangStringDefinitionTypeIEC61360) Text() string
- type LangStringNameType
- func (lsnt *LangStringNameType) Descend(action func(IClass) bool) (abort bool)
- func (lsnt *LangStringNameType) DescendOnce(action func(IClass) bool) (abort bool)
- func (lsnt *LangStringNameType) Language() string
- func (lsnt *LangStringNameType) ModelType() ModelType
- func (lsnt *LangStringNameType) SetLanguage(value string)
- func (lsnt *LangStringNameType) SetText(value string)
- func (lsnt *LangStringNameType) Text() string
- type LangStringPreferredNameTypeIEC61360
- func (lspnti6 *LangStringPreferredNameTypeIEC61360) Descend(action func(IClass) bool) (abort bool)
- func (lspnti6 *LangStringPreferredNameTypeIEC61360) DescendOnce(action func(IClass) bool) (abort bool)
- func (lspnti6 *LangStringPreferredNameTypeIEC61360) Language() string
- func (lspnti6 *LangStringPreferredNameTypeIEC61360) ModelType() ModelType
- func (lspnti6 *LangStringPreferredNameTypeIEC61360) SetLanguage(value string)
- func (lspnti6 *LangStringPreferredNameTypeIEC61360) SetText(value string)
- func (lspnti6 *LangStringPreferredNameTypeIEC61360) Text() string
- type LangStringShortNameTypeIEC61360
- func (lssnti6 *LangStringShortNameTypeIEC61360) Descend(action func(IClass) bool) (abort bool)
- func (lssnti6 *LangStringShortNameTypeIEC61360) DescendOnce(action func(IClass) bool) (abort bool)
- func (lssnti6 *LangStringShortNameTypeIEC61360) Language() string
- func (lssnti6 *LangStringShortNameTypeIEC61360) ModelType() ModelType
- func (lssnti6 *LangStringShortNameTypeIEC61360) SetLanguage(value string)
- func (lssnti6 *LangStringShortNameTypeIEC61360) SetText(value string)
- func (lssnti6 *LangStringShortNameTypeIEC61360) Text() string
- type LangStringTextType
- func (lstt *LangStringTextType) Descend(action func(IClass) bool) (abort bool)
- func (lstt *LangStringTextType) DescendOnce(action func(IClass) bool) (abort bool)
- func (lstt *LangStringTextType) Language() string
- func (lstt *LangStringTextType) ModelType() ModelType
- func (lstt *LangStringTextType) SetLanguage(value string)
- func (lstt *LangStringTextType) SetText(value string)
- func (lstt *LangStringTextType) Text() string
- type LevelType
- func (lt *LevelType) Descend(action func(IClass) bool) (abort bool)
- func (lt *LevelType) DescendOnce(action func(IClass) bool) (abort bool)
- func (lt *LevelType) Max() bool
- func (lt *LevelType) Min() bool
- func (lt *LevelType) ModelType() ModelType
- func (lt *LevelType) Nom() bool
- func (lt *LevelType) SetMax(value bool)
- func (lt *LevelType) SetMin(value bool)
- func (lt *LevelType) SetNom(value bool)
- func (lt *LevelType) SetTyp(value bool)
- func (lt *LevelType) Typ() bool
- type ModelType
- type ModellingKind
- type MultiLanguageProperty
- func (mlp *MultiLanguageProperty) Category() *string
- func (mlp *MultiLanguageProperty) CategoryOrDefault() string
- func (mlp *MultiLanguageProperty) Descend(action func(IClass) bool) (abort bool)
- func (mlp *MultiLanguageProperty) DescendOnce(action func(IClass) bool) (abort bool)
- func (mlp *MultiLanguageProperty) Description() []ILangStringTextType
- func (mlp *MultiLanguageProperty) DisplayName() []ILangStringNameType
- func (mlp *MultiLanguageProperty) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (mlp *MultiLanguageProperty) Extensions() []IExtension
- func (mlp *MultiLanguageProperty) IDShort() *string
- func (mlp *MultiLanguageProperty) ModelType() ModelType
- func (mlp *MultiLanguageProperty) Qualifiers() []IQualifier
- func (mlp *MultiLanguageProperty) SemanticID() IReference
- func (mlp *MultiLanguageProperty) SetCategory(value *string)
- func (mlp *MultiLanguageProperty) SetDescription(value []ILangStringTextType)
- func (mlp *MultiLanguageProperty) SetDisplayName(value []ILangStringNameType)
- func (mlp *MultiLanguageProperty) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (mlp *MultiLanguageProperty) SetExtensions(value []IExtension)
- func (mlp *MultiLanguageProperty) SetIDShort(value *string)
- func (mlp *MultiLanguageProperty) SetQualifiers(value []IQualifier)
- func (mlp *MultiLanguageProperty) SetSemanticID(value IReference)
- func (mlp *MultiLanguageProperty) SetSupplementalSemanticIDs(value []IReference)
- func (mlp *MultiLanguageProperty) SetValue(value []ILangStringTextType)
- func (mlp *MultiLanguageProperty) SetValueID(value IReference)
- func (mlp *MultiLanguageProperty) SupplementalSemanticIDs() []IReference
- func (mlp *MultiLanguageProperty) Value() []ILangStringTextType
- func (mlp *MultiLanguageProperty) ValueID() IReference
- type Operation
- func (o *Operation) Category() *string
- func (o *Operation) Descend(action func(IClass) bool) (abort bool)
- func (o *Operation) DescendOnce(action func(IClass) bool) (abort bool)
- func (o *Operation) Description() []ILangStringTextType
- func (o *Operation) DisplayName() []ILangStringNameType
- func (o *Operation) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (o *Operation) Extensions() []IExtension
- func (o *Operation) IDShort() *string
- func (o *Operation) InoutputVariables() []IOperationVariable
- func (o *Operation) InputVariables() []IOperationVariable
- func (o *Operation) ModelType() ModelType
- func (o *Operation) OutputVariables() []IOperationVariable
- func (o *Operation) Qualifiers() []IQualifier
- func (o *Operation) SemanticID() IReference
- func (o *Operation) SetCategory(value *string)
- func (o *Operation) SetDescription(value []ILangStringTextType)
- func (o *Operation) SetDisplayName(value []ILangStringNameType)
- func (o *Operation) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (o *Operation) SetExtensions(value []IExtension)
- func (o *Operation) SetIDShort(value *string)
- func (o *Operation) SetInoutputVariables(value []IOperationVariable)
- func (o *Operation) SetInputVariables(value []IOperationVariable)
- func (o *Operation) SetOutputVariables(value []IOperationVariable)
- func (o *Operation) SetQualifiers(value []IQualifier)
- func (o *Operation) SetSemanticID(value IReference)
- func (o *Operation) SetSupplementalSemanticIDs(value []IReference)
- func (o *Operation) SupplementalSemanticIDs() []IReference
- type OperationVariable
- func (ov *OperationVariable) Descend(action func(IClass) bool) (abort bool)
- func (ov *OperationVariable) DescendOnce(action func(IClass) bool) (abort bool)
- func (ov *OperationVariable) ModelType() ModelType
- func (ov *OperationVariable) SetValue(value ISubmodelElement)
- func (ov *OperationVariable) Value() ISubmodelElement
- type Property
- func (p *Property) Category() *string
- func (p *Property) CategoryOrDefault() string
- func (p *Property) Descend(action func(IClass) bool) (abort bool)
- func (p *Property) DescendOnce(action func(IClass) bool) (abort bool)
- func (p *Property) Description() []ILangStringTextType
- func (p *Property) DisplayName() []ILangStringNameType
- func (p *Property) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (p *Property) Extensions() []IExtension
- func (p *Property) IDShort() *string
- func (p *Property) ModelType() ModelType
- func (p *Property) Qualifiers() []IQualifier
- func (p *Property) SemanticID() IReference
- func (p *Property) SetCategory(value *string)
- func (p *Property) SetDescription(value []ILangStringTextType)
- func (p *Property) SetDisplayName(value []ILangStringNameType)
- func (p *Property) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (p *Property) SetExtensions(value []IExtension)
- func (p *Property) SetIDShort(value *string)
- func (p *Property) SetQualifiers(value []IQualifier)
- func (p *Property) SetSemanticID(value IReference)
- func (p *Property) SetSupplementalSemanticIDs(value []IReference)
- func (p *Property) SetValue(value *string)
- func (p *Property) SetValueID(value IReference)
- func (p *Property) SetValueType(value DataTypeDefXSD)
- func (p *Property) SupplementalSemanticIDs() []IReference
- func (p *Property) Value() *string
- func (p *Property) ValueID() IReference
- func (p *Property) ValueType() DataTypeDefXSD
- type Qualifier
- func (q *Qualifier) Descend(action func(IClass) bool) (abort bool)
- func (q *Qualifier) DescendOnce(action func(IClass) bool) (abort bool)
- func (q *Qualifier) Kind() *QualifierKind
- func (q *Qualifier) KindOrDefault() QualifierKind
- func (q *Qualifier) ModelType() ModelType
- func (q *Qualifier) SemanticID() IReference
- func (q *Qualifier) SetKind(value *QualifierKind)
- func (q *Qualifier) SetSemanticID(value IReference)
- func (q *Qualifier) SetSupplementalSemanticIDs(value []IReference)
- func (q *Qualifier) SetType(value string)
- func (q *Qualifier) SetValue(value *string)
- func (q *Qualifier) SetValueID(value IReference)
- func (q *Qualifier) SetValueType(value DataTypeDefXSD)
- func (q *Qualifier) SupplementalSemanticIDs() []IReference
- func (q *Qualifier) Type() string
- func (q *Qualifier) Value() *string
- func (q *Qualifier) ValueID() IReference
- func (q *Qualifier) ValueType() DataTypeDefXSD
- type QualifierKind
- type Range
- func (r *Range) Category() *string
- func (r *Range) CategoryOrDefault() string
- func (r *Range) Descend(action func(IClass) bool) (abort bool)
- func (r *Range) DescendOnce(action func(IClass) bool) (abort bool)
- func (r *Range) Description() []ILangStringTextType
- func (r *Range) DisplayName() []ILangStringNameType
- func (r *Range) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (r *Range) Extensions() []IExtension
- func (r *Range) IDShort() *string
- func (r *Range) Max() *string
- func (r *Range) Min() *string
- func (r *Range) ModelType() ModelType
- func (r *Range) Qualifiers() []IQualifier
- func (r *Range) SemanticID() IReference
- func (r *Range) SetCategory(value *string)
- func (r *Range) SetDescription(value []ILangStringTextType)
- func (r *Range) SetDisplayName(value []ILangStringNameType)
- func (r *Range) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (r *Range) SetExtensions(value []IExtension)
- func (r *Range) SetIDShort(value *string)
- func (r *Range) SetMax(value *string)
- func (r *Range) SetMin(value *string)
- func (r *Range) SetQualifiers(value []IQualifier)
- func (r *Range) SetSemanticID(value IReference)
- func (r *Range) SetSupplementalSemanticIDs(value []IReference)
- func (r *Range) SetValueType(value DataTypeDefXSD)
- func (r *Range) SupplementalSemanticIDs() []IReference
- func (r *Range) ValueType() DataTypeDefXSD
- type Reference
- func (r *Reference) Descend(action func(IClass) bool) (abort bool)
- func (r *Reference) DescendOnce(action func(IClass) bool) (abort bool)
- func (r *Reference) Keys() []IKey
- func (r *Reference) ModelType() ModelType
- func (r *Reference) ReferredSemanticID() IReference
- func (r *Reference) SetKeys(value []IKey)
- func (r *Reference) SetReferredSemanticID(value IReference)
- func (r *Reference) SetType(value ReferenceTypes)
- func (r *Reference) Type() ReferenceTypes
- type ReferenceElement
- func (re *ReferenceElement) Category() *string
- func (re *ReferenceElement) CategoryOrDefault() string
- func (re *ReferenceElement) Descend(action func(IClass) bool) (abort bool)
- func (re *ReferenceElement) DescendOnce(action func(IClass) bool) (abort bool)
- func (re *ReferenceElement) Description() []ILangStringTextType
- func (re *ReferenceElement) DisplayName() []ILangStringNameType
- func (re *ReferenceElement) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (re *ReferenceElement) Extensions() []IExtension
- func (re *ReferenceElement) IDShort() *string
- func (re *ReferenceElement) ModelType() ModelType
- func (re *ReferenceElement) Qualifiers() []IQualifier
- func (re *ReferenceElement) SemanticID() IReference
- func (re *ReferenceElement) SetCategory(value *string)
- func (re *ReferenceElement) SetDescription(value []ILangStringTextType)
- func (re *ReferenceElement) SetDisplayName(value []ILangStringNameType)
- func (re *ReferenceElement) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (re *ReferenceElement) SetExtensions(value []IExtension)
- func (re *ReferenceElement) SetIDShort(value *string)
- func (re *ReferenceElement) SetQualifiers(value []IQualifier)
- func (re *ReferenceElement) SetSemanticID(value IReference)
- func (re *ReferenceElement) SetSupplementalSemanticIDs(value []IReference)
- func (re *ReferenceElement) SetValue(value IReference)
- func (re *ReferenceElement) SupplementalSemanticIDs() []IReference
- func (re *ReferenceElement) Value() IReference
- type ReferenceTypes
- type RelationshipElement
- func (re *RelationshipElement) Category() *string
- func (re *RelationshipElement) Descend(action func(IClass) bool) (abort bool)
- func (re *RelationshipElement) DescendOnce(action func(IClass) bool) (abort bool)
- func (re *RelationshipElement) Description() []ILangStringTextType
- func (re *RelationshipElement) DisplayName() []ILangStringNameType
- func (re *RelationshipElement) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (re *RelationshipElement) Extensions() []IExtension
- func (re *RelationshipElement) First() IReference
- func (re *RelationshipElement) IDShort() *string
- func (re *RelationshipElement) ModelType() ModelType
- func (re *RelationshipElement) Qualifiers() []IQualifier
- func (re *RelationshipElement) Second() IReference
- func (re *RelationshipElement) SemanticID() IReference
- func (re *RelationshipElement) SetCategory(value *string)
- func (re *RelationshipElement) SetDescription(value []ILangStringTextType)
- func (re *RelationshipElement) SetDisplayName(value []ILangStringNameType)
- func (re *RelationshipElement) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (re *RelationshipElement) SetExtensions(value []IExtension)
- func (re *RelationshipElement) SetFirst(value IReference)
- func (re *RelationshipElement) SetIDShort(value *string)
- func (re *RelationshipElement) SetQualifiers(value []IQualifier)
- func (re *RelationshipElement) SetSecond(value IReference)
- func (re *RelationshipElement) SetSemanticID(value IReference)
- func (re *RelationshipElement) SetSupplementalSemanticIDs(value []IReference)
- func (re *RelationshipElement) SupplementalSemanticIDs() []IReference
- type Resource
- func (r *Resource) ContentType() *string
- func (r *Resource) Descend(action func(IClass) bool) (abort bool)
- func (r *Resource) DescendOnce(action func(IClass) bool) (abort bool)
- func (r *Resource) ModelType() ModelType
- func (r *Resource) Path() string
- func (r *Resource) SetContentType(value *string)
- func (r *Resource) SetPath(value string)
- type SpecificAssetID
- func (sai *SpecificAssetID) Descend(action func(IClass) bool) (abort bool)
- func (sai *SpecificAssetID) DescendOnce(action func(IClass) bool) (abort bool)
- func (sai *SpecificAssetID) ExternalSubjectID() IReference
- func (sai *SpecificAssetID) ModelType() ModelType
- func (sai *SpecificAssetID) Name() string
- func (sai *SpecificAssetID) SemanticID() IReference
- func (sai *SpecificAssetID) SetExternalSubjectID(value IReference)
- func (sai *SpecificAssetID) SetName(value string)
- func (sai *SpecificAssetID) SetSemanticID(value IReference)
- func (sai *SpecificAssetID) SetSupplementalSemanticIDs(value []IReference)
- func (sai *SpecificAssetID) SetValue(value string)
- func (sai *SpecificAssetID) SupplementalSemanticIDs() []IReference
- func (sai *SpecificAssetID) Value() string
- type StateOfEvent
- type Submodel
- func (s *Submodel) Administration() IAdministrativeInformation
- func (s *Submodel) Category() *string
- func (s *Submodel) Descend(action func(IClass) bool) (abort bool)
- func (s *Submodel) DescendOnce(action func(IClass) bool) (abort bool)
- func (s *Submodel) Description() []ILangStringTextType
- func (s *Submodel) DisplayName() []ILangStringNameType
- func (s *Submodel) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (s *Submodel) Extensions() []IExtension
- func (s *Submodel) ID() string
- func (s *Submodel) IDShort() *string
- func (s *Submodel) Kind() *ModellingKind
- func (s *Submodel) KindOrDefault() ModellingKind
- func (s *Submodel) ModelType() ModelType
- func (s *Submodel) Qualifiers() []IQualifier
- func (s *Submodel) SemanticID() IReference
- func (s *Submodel) SetAdministration(value IAdministrativeInformation)
- func (s *Submodel) SetCategory(value *string)
- func (s *Submodel) SetDescription(value []ILangStringTextType)
- func (s *Submodel) SetDisplayName(value []ILangStringNameType)
- func (s *Submodel) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (s *Submodel) SetExtensions(value []IExtension)
- func (s *Submodel) SetID(value string)
- func (s *Submodel) SetIDShort(value *string)
- func (s *Submodel) SetKind(value *ModellingKind)
- func (s *Submodel) SetQualifiers(value []IQualifier)
- func (s *Submodel) SetSemanticID(value IReference)
- func (s *Submodel) SetSubmodelElements(value []ISubmodelElement)
- func (s *Submodel) SetSupplementalSemanticIDs(value []IReference)
- func (s *Submodel) SubmodelElements() []ISubmodelElement
- func (s *Submodel) SupplementalSemanticIDs() []IReference
- type SubmodelElementCollection
- func (sec *SubmodelElementCollection) Category() *string
- func (sec *SubmodelElementCollection) Descend(action func(IClass) bool) (abort bool)
- func (sec *SubmodelElementCollection) DescendOnce(action func(IClass) bool) (abort bool)
- func (sec *SubmodelElementCollection) Description() []ILangStringTextType
- func (sec *SubmodelElementCollection) DisplayName() []ILangStringNameType
- func (sec *SubmodelElementCollection) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (sec *SubmodelElementCollection) Extensions() []IExtension
- func (sec *SubmodelElementCollection) IDShort() *string
- func (sec *SubmodelElementCollection) ModelType() ModelType
- func (sec *SubmodelElementCollection) Qualifiers() []IQualifier
- func (sec *SubmodelElementCollection) SemanticID() IReference
- func (sec *SubmodelElementCollection) SetCategory(value *string)
- func (sec *SubmodelElementCollection) SetDescription(value []ILangStringTextType)
- func (sec *SubmodelElementCollection) SetDisplayName(value []ILangStringNameType)
- func (sec *SubmodelElementCollection) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (sec *SubmodelElementCollection) SetExtensions(value []IExtension)
- func (sec *SubmodelElementCollection) SetIDShort(value *string)
- func (sec *SubmodelElementCollection) SetQualifiers(value []IQualifier)
- func (sec *SubmodelElementCollection) SetSemanticID(value IReference)
- func (sec *SubmodelElementCollection) SetSupplementalSemanticIDs(value []IReference)
- func (sec *SubmodelElementCollection) SetValue(value []ISubmodelElement)
- func (sec *SubmodelElementCollection) SupplementalSemanticIDs() []IReference
- func (sec *SubmodelElementCollection) Value() []ISubmodelElement
- type SubmodelElementList
- func (sel *SubmodelElementList) Category() *string
- func (sel *SubmodelElementList) Descend(action func(IClass) bool) (abort bool)
- func (sel *SubmodelElementList) DescendOnce(action func(IClass) bool) (abort bool)
- func (sel *SubmodelElementList) Description() []ILangStringTextType
- func (sel *SubmodelElementList) DisplayName() []ILangStringNameType
- func (sel *SubmodelElementList) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
- func (sel *SubmodelElementList) Extensions() []IExtension
- func (sel *SubmodelElementList) IDShort() *string
- func (sel *SubmodelElementList) ModelType() ModelType
- func (sel *SubmodelElementList) OrderRelevant() *bool
- func (sel *SubmodelElementList) OrderRelevantOrDefault() bool
- func (sel *SubmodelElementList) Qualifiers() []IQualifier
- func (sel *SubmodelElementList) SemanticID() IReference
- func (sel *SubmodelElementList) SemanticIDListElement() IReference
- func (sel *SubmodelElementList) SetCategory(value *string)
- func (sel *SubmodelElementList) SetDescription(value []ILangStringTextType)
- func (sel *SubmodelElementList) SetDisplayName(value []ILangStringNameType)
- func (sel *SubmodelElementList) SetEmbeddedDataSpecifications(value []IEmbeddedDataSpecification)
- func (sel *SubmodelElementList) SetExtensions(value []IExtension)
- func (sel *SubmodelElementList) SetIDShort(value *string)
- func (sel *SubmodelElementList) SetOrderRelevant(value *bool)
- func (sel *SubmodelElementList) SetQualifiers(value []IQualifier)
- func (sel *SubmodelElementList) SetSemanticID(value IReference)
- func (sel *SubmodelElementList) SetSemanticIDListElement(value IReference)
- func (sel *SubmodelElementList) SetSupplementalSemanticIDs(value []IReference)
- func (sel *SubmodelElementList) SetTypeValueListElement(value AASSubmodelElements)
- func (sel *SubmodelElementList) SetValue(value []ISubmodelElement)
- func (sel *SubmodelElementList) SetValueTypeListElement(value *DataTypeDefXSD)
- func (sel *SubmodelElementList) SupplementalSemanticIDs() []IReference
- func (sel *SubmodelElementList) TypeValueListElement() AASSubmodelElements
- func (sel *SubmodelElementList) Value() []ISubmodelElement
- func (sel *SubmodelElementList) ValueTypeListElement() *DataTypeDefXSD
- type ValueList
- func (vl *ValueList) Descend(action func(IClass) bool) (abort bool)
- func (vl *ValueList) DescendOnce(action func(IClass) bool) (abort bool)
- func (vl *ValueList) ModelType() ModelType
- func (vl *ValueList) SetValueReferencePairs(value []IValueReferencePair)
- func (vl *ValueList) ValueReferencePairs() []IValueReferencePair
- type ValueReferencePair
- func (vrp *ValueReferencePair) Descend(action func(IClass) bool) (abort bool)
- func (vrp *ValueReferencePair) DescendOnce(action func(IClass) bool) (abort bool)
- func (vrp *ValueReferencePair) ModelType() ModelType
- func (vrp *ValueReferencePair) SetValue(value string)
- func (vrp *ValueReferencePair) SetValueID(value IReference)
- func (vrp *ValueReferencePair) Value() string
- func (vrp *ValueReferencePair) ValueID() IReference
Constants ¶
This section is empty.
Variables ¶
var LiteralsOfAASSubmodelElements = [...]AASSubmodelElements{ AASSubmodelElementsAnnotatedRelationshipElement, AASSubmodelElementsBasicEventElement, AASSubmodelElementsBlob, AASSubmodelElementsCapability, AASSubmodelElementsDataElement, AASSubmodelElementsEntity, AASSubmodelElementsEventElement, AASSubmodelElementsFile, AASSubmodelElementsMultiLanguageProperty, AASSubmodelElementsOperation, AASSubmodelElementsProperty, AASSubmodelElementsRange, AASSubmodelElementsReferenceElement, AASSubmodelElementsRelationshipElement, AASSubmodelElementsSubmodelElement, AASSubmodelElementsSubmodelElementList, AASSubmodelElementsSubmodelElementCollection, }
List the literals of AASSubmodelElements.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
var LiteralsOfAssetKind = [...]AssetKind{ AssetKindType, AssetKindInstance, AssetKindNotApplicable, }
List the literals of AssetKind.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
var LiteralsOfDataTypeDefXSD = [...]DataTypeDefXSD{ DataTypeDefXSDAnyURI, DataTypeDefXSDBase64Binary, DataTypeDefXSDBoolean, DataTypeDefXSDByte, DataTypeDefXSDDate, DataTypeDefXSDDateTime, DataTypeDefXSDDecimal, DataTypeDefXSDDouble, DataTypeDefXSDDuration, DataTypeDefXSDFloat, DataTypeDefXSDGDay, DataTypeDefXSDGMonth, DataTypeDefXSDGMonthDay, DataTypeDefXSDGYear, DataTypeDefXSDGYearMonth, DataTypeDefXSDHexBinary, DataTypeDefXSDInt, DataTypeDefXSDInteger, DataTypeDefXSDLong, DataTypeDefXSDNegativeInteger, DataTypeDefXSDNonNegativeInteger, DataTypeDefXSDNonPositiveInteger, DataTypeDefXSDPositiveInteger, DataTypeDefXSDShort, DataTypeDefXSDString, DataTypeDefXSDTime, DataTypeDefXSDUnsignedByte, DataTypeDefXSDUnsignedInt, DataTypeDefXSDUnsignedLong, DataTypeDefXSDUnsignedShort, }
List the literals of DataTypeDefXSD.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
var LiteralsOfDataTypeIEC61360 = [...]DataTypeIEC61360{ DataTypeIEC61360Date, DataTypeIEC61360String, DataTypeIEC61360StringTranslatable, DataTypeIEC61360IntegerMeasure, DataTypeIEC61360IntegerCount, DataTypeIEC61360IntegerCurrency, DataTypeIEC61360RealMeasure, DataTypeIEC61360RealCount, DataTypeIEC61360RealCurrency, DataTypeIEC61360Boolean, DataTypeIEC61360IRI, DataTypeIEC61360IRDI, DataTypeIEC61360Rational, DataTypeIEC61360RationalMeasure, DataTypeIEC61360Time, DataTypeIEC61360Timestamp, DataTypeIEC61360File, DataTypeIEC61360HTML, DataTypeIEC61360Blob, }
List the literals of DataTypeIEC61360.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
var LiteralsOfDirection = [...]Direction{ DirectionInput, DirectionOutput, }
List the literals of Direction.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
var LiteralsOfEntityType = [...]EntityType{ EntityTypeCoManagedEntity, EntityTypeSelfManagedEntity, }
List the literals of EntityType.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
var LiteralsOfKeyTypes = [...]KeyTypes{ KeyTypesAnnotatedRelationshipElement, KeyTypesAssetAdministrationShell, KeyTypesBasicEventElement, KeyTypesBlob, KeyTypesCapability, KeyTypesConceptDescription, KeyTypesDataElement, KeyTypesEntity, KeyTypesEventElement, KeyTypesFile, KeyTypesFragmentReference, KeyTypesGlobalReference, KeyTypesIdentifiable, KeyTypesMultiLanguageProperty, KeyTypesOperation, KeyTypesProperty, KeyTypesRange, KeyTypesReferable, KeyTypesReferenceElement, KeyTypesRelationshipElement, KeyTypesSubmodel, KeyTypesSubmodelElement, KeyTypesSubmodelElementCollection, KeyTypesSubmodelElementList, }
List the literals of KeyTypes.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
var LiteralsOfModellingKind = [...]ModellingKind{ ModellingKindTemplate, ModellingKindInstance, }
List the literals of ModellingKind.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
var LiteralsOfQualifierKind = [...]QualifierKind{ QualifierKindValueQualifier, QualifierKindConceptQualifier, QualifierKindTemplateQualifier, }
List the literals of QualifierKind.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
var LiteralsOfReferenceTypes = [...]ReferenceTypes{ ReferenceTypesExternalReference, ReferenceTypesModelReference, }
List the literals of ReferenceTypes.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
var LiteralsOfStateOfEvent = [...]StateOfEvent{ StateOfEventOn, StateOfEventOff, }
List the literals of StateOfEvent.
Golang does not provide an elegant way to iterate over the literals, so this array helps you avoid common errors and pitfalls.
Please do not modify the array in the caller's code.
Functions ¶
func IsAbstractLangString ¶
Check whether the instance corresponds to [aastypes.IAbstractLangString] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsAdministrativeInformation ¶
Check whether the instance corresponds to [aastypes.IAdministrativeInformation] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsAnnotatedRelationshipElement ¶
Check whether the instance corresponds to [aastypes.IAnnotatedRelationshipElement] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsAssetAdministrationShell ¶
Check whether the instance corresponds to [aastypes.IAssetAdministrationShell] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsAssetInformation ¶
Check whether the instance corresponds to [aastypes.IAssetInformation] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsBasicEventElement ¶
Check whether the instance corresponds to [aastypes.IBasicEventElement] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsBlob ¶
Check whether the instance corresponds to [aastypes.IBlob] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsCapability ¶
Check whether the instance corresponds to [aastypes.ICapability] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsConceptDescription ¶
Check whether the instance corresponds to [aastypes.IConceptDescription] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsDataElement ¶
Check whether the instance corresponds to [aastypes.IDataElement] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsDataSpecificationContent ¶
Check whether the instance corresponds to [aastypes.IDataSpecificationContent] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsDataSpecificationIEC61360 ¶
Check whether the instance corresponds to [aastypes.IDataSpecificationIEC61360] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsEmbeddedDataSpecification ¶
Check whether the instance corresponds to [aastypes.IEmbeddedDataSpecification] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsEntity ¶
Check whether the instance corresponds to [aastypes.IEntity] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsEnvironment ¶
Check whether the instance corresponds to [aastypes.IEnvironment] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsEventElement ¶
Check whether the instance corresponds to [aastypes.IEventElement] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsEventPayload ¶
Check whether the instance corresponds to [aastypes.IEventPayload] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsExtension ¶
Check whether the instance corresponds to [aastypes.IExtension] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsFile ¶
Check whether the instance corresponds to [aastypes.IFile] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsHasDataSpecification ¶
Check whether the instance corresponds to [aastypes.IHasDataSpecification] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsHasExtensions ¶
Check whether the instance corresponds to [aastypes.IHasExtensions] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsHasKind ¶
Check whether the instance corresponds to [aastypes.IHasKind] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsHasSemantics ¶
Check whether the instance corresponds to [aastypes.IHasSemantics] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsIdentifiable ¶
Check whether the instance corresponds to [aastypes.IIdentifiable] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsKey ¶
Check whether the instance corresponds to [aastypes.IKey] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsLangStringDefinitionTypeIEC61360 ¶
Check whether the instance corresponds to [aastypes.ILangStringDefinitionTypeIEC61360] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsLangStringNameType ¶
Check whether the instance corresponds to [aastypes.ILangStringNameType] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsLangStringPreferredNameTypeIEC61360 ¶
Check whether the instance corresponds to [aastypes.ILangStringPreferredNameTypeIEC61360] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsLangStringShortNameTypeIEC61360 ¶
Check whether the instance corresponds to [aastypes.ILangStringShortNameTypeIEC61360] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsLangStringTextType ¶
Check whether the instance corresponds to [aastypes.ILangStringTextType] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsLevelType ¶
Check whether the instance corresponds to [aastypes.ILevelType] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsMultiLanguageProperty ¶
Check whether the instance corresponds to [aastypes.IMultiLanguageProperty] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsOperation ¶
Check whether the instance corresponds to [aastypes.IOperation] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsOperationVariable ¶
Check whether the instance corresponds to [aastypes.IOperationVariable] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsProperty ¶
Check whether the instance corresponds to [aastypes.IProperty] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsQualifiable ¶
Check whether the instance corresponds to [aastypes.IQualifiable] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsQualifier ¶
Check whether the instance corresponds to [aastypes.IQualifier] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsRange ¶
Check whether the instance corresponds to [aastypes.IRange] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsReferable ¶
Check whether the instance corresponds to [aastypes.IReferable] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsReference ¶
Check whether the instance corresponds to [aastypes.IReference] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsReferenceElement ¶
Check whether the instance corresponds to [aastypes.IReferenceElement] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsRelationshipElement ¶
Check whether the instance corresponds to [aastypes.IRelationshipElement] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsResource ¶
Check whether the instance corresponds to [aastypes.IResource] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsSpecificAssetID ¶
Check whether the instance corresponds to [aastypes.ISpecificAssetID] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsSubmodel ¶
Check whether the instance corresponds to [aastypes.ISubmodel] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsSubmodelElement ¶
Check whether the instance corresponds to [aastypes.ISubmodelElement] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsSubmodelElementCollection ¶
Check whether the instance corresponds to [aastypes.ISubmodelElementCollection] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsSubmodelElementList ¶
Check whether the instance corresponds to [aastypes.ISubmodelElementList] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsValueList ¶
Check whether the instance corresponds to [aastypes.IValueList] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
func IsValueReferencePair ¶
Check whether the instance corresponds to [aastypes.IValueReferencePair] based on its run-time model type.
The implementation uses a switch statements which is most probably compiled as an efficient jump table by the compiler.
Types ¶
type AASSubmodelElements ¶
type AASSubmodelElements int
Enumeration of all possible elements of a ISubmodelElementList.
const ( AASSubmodelElementsAnnotatedRelationshipElement AASSubmodelElements = iota AASSubmodelElementsBasicEventElement AASSubmodelElementsBlob AASSubmodelElementsCapability AASSubmodelElementsDataElement AASSubmodelElementsEntity AASSubmodelElementsEventElement AASSubmodelElementsFile AASSubmodelElementsMultiLanguageProperty AASSubmodelElementsOperation AASSubmodelElementsProperty AASSubmodelElementsRange AASSubmodelElementsReferenceElement AASSubmodelElementsRelationshipElement AASSubmodelElementsSubmodelElement AASSubmodelElementsSubmodelElementList AASSubmodelElementsSubmodelElementCollection )
type AdministrativeInformation ¶
type AdministrativeInformation struct {
// contains filtered or unexported fields
}
Implements IAdministrativeInformation.
func NewAdministrativeInformation ¶
func NewAdministrativeInformation() *AdministrativeInformation
Create a new instance of AdministrativeInformation with the given properties.
func (*AdministrativeInformation) Creator ¶
func (ai *AdministrativeInformation) Creator() IReference
func (*AdministrativeInformation) Descend ¶
func (ai *AdministrativeInformation) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from ai.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on ai.
func (*AdministrativeInformation) DescendOnce ¶
func (ai *AdministrativeInformation) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from ai.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on ai.
func (*AdministrativeInformation) EmbeddedDataSpecifications ¶
func (ai *AdministrativeInformation) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*AdministrativeInformation) ModelType ¶
func (ai *AdministrativeInformation) ModelType() ModelType
func (*AdministrativeInformation) Revision ¶
func (ai *AdministrativeInformation) Revision() *string
func (*AdministrativeInformation) SetCreator ¶
func (ai *AdministrativeInformation) SetCreator( value IReference, )
func (*AdministrativeInformation) SetEmbeddedDataSpecifications ¶
func (ai *AdministrativeInformation) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*AdministrativeInformation) SetRevision ¶
func (ai *AdministrativeInformation) SetRevision( value *string, )
func (*AdministrativeInformation) SetTemplateID ¶
func (ai *AdministrativeInformation) SetTemplateID( value *string, )
func (*AdministrativeInformation) SetVersion ¶
func (ai *AdministrativeInformation) SetVersion( value *string, )
func (*AdministrativeInformation) TemplateID ¶
func (ai *AdministrativeInformation) TemplateID() *string
func (*AdministrativeInformation) Version ¶
func (ai *AdministrativeInformation) Version() *string
type AnnotatedRelationshipElement ¶
type AnnotatedRelationshipElement struct {
// contains filtered or unexported fields
}
Implements IAnnotatedRelationshipElement.
func NewAnnotatedRelationshipElement ¶
func NewAnnotatedRelationshipElement( first IReference, second IReference, ) *AnnotatedRelationshipElement
Create a new instance of AnnotatedRelationshipElement with the given properties.
func (*AnnotatedRelationshipElement) Annotations ¶
func (are *AnnotatedRelationshipElement) Annotations() []IDataElement
func (*AnnotatedRelationshipElement) Category ¶
func (are *AnnotatedRelationshipElement) Category() *string
func (*AnnotatedRelationshipElement) Descend ¶
func (are *AnnotatedRelationshipElement) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from are.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on are.
func (*AnnotatedRelationshipElement) DescendOnce ¶
func (are *AnnotatedRelationshipElement) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from are.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on are.
func (*AnnotatedRelationshipElement) Description ¶
func (are *AnnotatedRelationshipElement) Description() []ILangStringTextType
func (*AnnotatedRelationshipElement) DisplayName ¶
func (are *AnnotatedRelationshipElement) DisplayName() []ILangStringNameType
func (*AnnotatedRelationshipElement) EmbeddedDataSpecifications ¶
func (are *AnnotatedRelationshipElement) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*AnnotatedRelationshipElement) Extensions ¶
func (are *AnnotatedRelationshipElement) Extensions() []IExtension
func (*AnnotatedRelationshipElement) First ¶
func (are *AnnotatedRelationshipElement) First() IReference
func (*AnnotatedRelationshipElement) IDShort ¶
func (are *AnnotatedRelationshipElement) IDShort() *string
func (*AnnotatedRelationshipElement) ModelType ¶
func (are *AnnotatedRelationshipElement) ModelType() ModelType
func (*AnnotatedRelationshipElement) Qualifiers ¶
func (are *AnnotatedRelationshipElement) Qualifiers() []IQualifier
func (*AnnotatedRelationshipElement) Second ¶
func (are *AnnotatedRelationshipElement) Second() IReference
func (*AnnotatedRelationshipElement) SemanticID ¶
func (are *AnnotatedRelationshipElement) SemanticID() IReference
func (*AnnotatedRelationshipElement) SetAnnotations ¶
func (are *AnnotatedRelationshipElement) SetAnnotations( value []IDataElement, )
func (*AnnotatedRelationshipElement) SetCategory ¶
func (are *AnnotatedRelationshipElement) SetCategory( value *string, )
func (*AnnotatedRelationshipElement) SetDescription ¶
func (are *AnnotatedRelationshipElement) SetDescription( value []ILangStringTextType, )
func (*AnnotatedRelationshipElement) SetDisplayName ¶
func (are *AnnotatedRelationshipElement) SetDisplayName( value []ILangStringNameType, )
func (*AnnotatedRelationshipElement) SetEmbeddedDataSpecifications ¶
func (are *AnnotatedRelationshipElement) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*AnnotatedRelationshipElement) SetExtensions ¶
func (are *AnnotatedRelationshipElement) SetExtensions( value []IExtension, )
func (*AnnotatedRelationshipElement) SetFirst ¶
func (are *AnnotatedRelationshipElement) SetFirst( value IReference, )
func (*AnnotatedRelationshipElement) SetIDShort ¶
func (are *AnnotatedRelationshipElement) SetIDShort( value *string, )
func (*AnnotatedRelationshipElement) SetQualifiers ¶
func (are *AnnotatedRelationshipElement) SetQualifiers( value []IQualifier, )
func (*AnnotatedRelationshipElement) SetSecond ¶
func (are *AnnotatedRelationshipElement) SetSecond( value IReference, )
func (*AnnotatedRelationshipElement) SetSemanticID ¶
func (are *AnnotatedRelationshipElement) SetSemanticID( value IReference, )
func (*AnnotatedRelationshipElement) SetSupplementalSemanticIDs ¶
func (are *AnnotatedRelationshipElement) SetSupplementalSemanticIDs( value []IReference, )
func (*AnnotatedRelationshipElement) SupplementalSemanticIDs ¶
func (are *AnnotatedRelationshipElement) SupplementalSemanticIDs() []IReference
type AssetAdministrationShell ¶
type AssetAdministrationShell struct {
// contains filtered or unexported fields
}
Implements IAssetAdministrationShell.
func NewAssetAdministrationShell ¶
func NewAssetAdministrationShell( id string, assetInformation IAssetInformation, ) *AssetAdministrationShell
Create a new instance of AssetAdministrationShell with the given properties.
func (*AssetAdministrationShell) Administration ¶
func (aas *AssetAdministrationShell) Administration() IAdministrativeInformation
func (*AssetAdministrationShell) AssetInformation ¶
func (aas *AssetAdministrationShell) AssetInformation() IAssetInformation
func (*AssetAdministrationShell) Category ¶
func (aas *AssetAdministrationShell) Category() *string
func (*AssetAdministrationShell) DerivedFrom ¶
func (aas *AssetAdministrationShell) DerivedFrom() IReference
func (*AssetAdministrationShell) Descend ¶
func (aas *AssetAdministrationShell) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from aas.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on aas.
func (*AssetAdministrationShell) DescendOnce ¶
func (aas *AssetAdministrationShell) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from aas.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on aas.
func (*AssetAdministrationShell) Description ¶
func (aas *AssetAdministrationShell) Description() []ILangStringTextType
func (*AssetAdministrationShell) DisplayName ¶
func (aas *AssetAdministrationShell) DisplayName() []ILangStringNameType
func (*AssetAdministrationShell) EmbeddedDataSpecifications ¶
func (aas *AssetAdministrationShell) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*AssetAdministrationShell) Extensions ¶
func (aas *AssetAdministrationShell) Extensions() []IExtension
func (*AssetAdministrationShell) ID ¶
func (aas *AssetAdministrationShell) ID() string
func (*AssetAdministrationShell) IDShort ¶
func (aas *AssetAdministrationShell) IDShort() *string
func (*AssetAdministrationShell) ModelType ¶
func (aas *AssetAdministrationShell) ModelType() ModelType
func (*AssetAdministrationShell) SetAdministration ¶
func (aas *AssetAdministrationShell) SetAdministration( value IAdministrativeInformation, )
func (*AssetAdministrationShell) SetAssetInformation ¶
func (aas *AssetAdministrationShell) SetAssetInformation( value IAssetInformation, )
func (*AssetAdministrationShell) SetCategory ¶
func (aas *AssetAdministrationShell) SetCategory( value *string, )
func (*AssetAdministrationShell) SetDerivedFrom ¶
func (aas *AssetAdministrationShell) SetDerivedFrom( value IReference, )
func (*AssetAdministrationShell) SetDescription ¶
func (aas *AssetAdministrationShell) SetDescription( value []ILangStringTextType, )
func (*AssetAdministrationShell) SetDisplayName ¶
func (aas *AssetAdministrationShell) SetDisplayName( value []ILangStringNameType, )
func (*AssetAdministrationShell) SetEmbeddedDataSpecifications ¶
func (aas *AssetAdministrationShell) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*AssetAdministrationShell) SetExtensions ¶
func (aas *AssetAdministrationShell) SetExtensions( value []IExtension, )
func (*AssetAdministrationShell) SetID ¶
func (aas *AssetAdministrationShell) SetID( value string, )
func (*AssetAdministrationShell) SetIDShort ¶
func (aas *AssetAdministrationShell) SetIDShort( value *string, )
func (*AssetAdministrationShell) SetSubmodels ¶
func (aas *AssetAdministrationShell) SetSubmodels( value []IReference, )
func (*AssetAdministrationShell) Submodels ¶
func (aas *AssetAdministrationShell) Submodels() []IReference
type AssetInformation ¶
type AssetInformation struct {
// contains filtered or unexported fields
}
Implements IAssetInformation.
func NewAssetInformation ¶
func NewAssetInformation( assetKind AssetKind, ) *AssetInformation
Create a new instance of AssetInformation with the given properties.
func (*AssetInformation) AssetKind ¶
func (ai *AssetInformation) AssetKind() AssetKind
func (*AssetInformation) AssetType ¶
func (ai *AssetInformation) AssetType() *string
func (*AssetInformation) DefaultThumbnail ¶
func (ai *AssetInformation) DefaultThumbnail() IResource
func (*AssetInformation) Descend ¶
func (ai *AssetInformation) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from ai.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on ai.
func (*AssetInformation) DescendOnce ¶
func (ai *AssetInformation) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from ai.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on ai.
func (*AssetInformation) GlobalAssetID ¶
func (ai *AssetInformation) GlobalAssetID() *string
func (*AssetInformation) ModelType ¶
func (ai *AssetInformation) ModelType() ModelType
func (*AssetInformation) SetAssetKind ¶
func (ai *AssetInformation) SetAssetKind( value AssetKind, )
func (*AssetInformation) SetAssetType ¶
func (ai *AssetInformation) SetAssetType( value *string, )
func (*AssetInformation) SetDefaultThumbnail ¶
func (ai *AssetInformation) SetDefaultThumbnail( value IResource, )
func (*AssetInformation) SetGlobalAssetID ¶
func (ai *AssetInformation) SetGlobalAssetID( value *string, )
func (*AssetInformation) SetSpecificAssetIDs ¶
func (ai *AssetInformation) SetSpecificAssetIDs( value []ISpecificAssetID, )
func (*AssetInformation) SpecificAssetIDs ¶
func (ai *AssetInformation) SpecificAssetIDs() []ISpecificAssetID
type AssetKind ¶
type AssetKind int
Enumeration for denoting whether an asset is a type asset or an instance asset.
type BasicEventElement ¶
type BasicEventElement struct {
// contains filtered or unexported fields
}
Implements IBasicEventElement.
func NewBasicEventElement ¶
func NewBasicEventElement( observed IReference, direction Direction, state StateOfEvent, ) *BasicEventElement
Create a new instance of BasicEventElement with the given properties.
func (*BasicEventElement) Category ¶
func (bee *BasicEventElement) Category() *string
func (*BasicEventElement) Descend ¶
func (bee *BasicEventElement) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from bee.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on bee.
func (*BasicEventElement) DescendOnce ¶
func (bee *BasicEventElement) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from bee.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on bee.
func (*BasicEventElement) Description ¶
func (bee *BasicEventElement) Description() []ILangStringTextType
func (*BasicEventElement) Direction ¶
func (bee *BasicEventElement) Direction() Direction
func (*BasicEventElement) DisplayName ¶
func (bee *BasicEventElement) DisplayName() []ILangStringNameType
func (*BasicEventElement) EmbeddedDataSpecifications ¶
func (bee *BasicEventElement) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*BasicEventElement) Extensions ¶
func (bee *BasicEventElement) Extensions() []IExtension
func (*BasicEventElement) IDShort ¶
func (bee *BasicEventElement) IDShort() *string
func (*BasicEventElement) LastUpdate ¶
func (bee *BasicEventElement) LastUpdate() *string
func (*BasicEventElement) MaxInterval ¶
func (bee *BasicEventElement) MaxInterval() *string
func (*BasicEventElement) MessageBroker ¶
func (bee *BasicEventElement) MessageBroker() IReference
func (*BasicEventElement) MessageTopic ¶
func (bee *BasicEventElement) MessageTopic() *string
func (*BasicEventElement) MinInterval ¶
func (bee *BasicEventElement) MinInterval() *string
func (*BasicEventElement) ModelType ¶
func (bee *BasicEventElement) ModelType() ModelType
func (*BasicEventElement) Observed ¶
func (bee *BasicEventElement) Observed() IReference
func (*BasicEventElement) Qualifiers ¶
func (bee *BasicEventElement) Qualifiers() []IQualifier
func (*BasicEventElement) SemanticID ¶
func (bee *BasicEventElement) SemanticID() IReference
func (*BasicEventElement) SetCategory ¶
func (bee *BasicEventElement) SetCategory( value *string, )
func (*BasicEventElement) SetDescription ¶
func (bee *BasicEventElement) SetDescription( value []ILangStringTextType, )
func (*BasicEventElement) SetDirection ¶
func (bee *BasicEventElement) SetDirection( value Direction, )
func (*BasicEventElement) SetDisplayName ¶
func (bee *BasicEventElement) SetDisplayName( value []ILangStringNameType, )
func (*BasicEventElement) SetEmbeddedDataSpecifications ¶
func (bee *BasicEventElement) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*BasicEventElement) SetExtensions ¶
func (bee *BasicEventElement) SetExtensions( value []IExtension, )
func (*BasicEventElement) SetIDShort ¶
func (bee *BasicEventElement) SetIDShort( value *string, )
func (*BasicEventElement) SetLastUpdate ¶
func (bee *BasicEventElement) SetLastUpdate( value *string, )
func (*BasicEventElement) SetMaxInterval ¶
func (bee *BasicEventElement) SetMaxInterval( value *string, )
func (*BasicEventElement) SetMessageBroker ¶
func (bee *BasicEventElement) SetMessageBroker( value IReference, )
func (*BasicEventElement) SetMessageTopic ¶
func (bee *BasicEventElement) SetMessageTopic( value *string, )
func (*BasicEventElement) SetMinInterval ¶
func (bee *BasicEventElement) SetMinInterval( value *string, )
func (*BasicEventElement) SetObserved ¶
func (bee *BasicEventElement) SetObserved( value IReference, )
func (*BasicEventElement) SetQualifiers ¶
func (bee *BasicEventElement) SetQualifiers( value []IQualifier, )
func (*BasicEventElement) SetSemanticID ¶
func (bee *BasicEventElement) SetSemanticID( value IReference, )
func (*BasicEventElement) SetState ¶
func (bee *BasicEventElement) SetState( value StateOfEvent, )
func (*BasicEventElement) SetSupplementalSemanticIDs ¶
func (bee *BasicEventElement) SetSupplementalSemanticIDs( value []IReference, )
func (*BasicEventElement) State ¶
func (bee *BasicEventElement) State() StateOfEvent
func (*BasicEventElement) SupplementalSemanticIDs ¶
func (bee *BasicEventElement) SupplementalSemanticIDs() []IReference
type Blob ¶
type Blob struct {
// contains filtered or unexported fields
}
Implements IBlob.
func (*Blob) CategoryOrDefault ¶
Return [IReferable.Category] or the default value if it has not been set.
func (*Blob) ContentType ¶
func (*Blob) Descend ¶
Apply the action recursively on the instances referenced from b.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on b.
func (*Blob) DescendOnce ¶
Apply the action on the instances referenced from b.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on b.
func (*Blob) Description ¶
func (b *Blob) Description() []ILangStringTextType
func (*Blob) DisplayName ¶
func (b *Blob) DisplayName() []ILangStringNameType
func (*Blob) EmbeddedDataSpecifications ¶
func (b *Blob) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*Blob) Extensions ¶
func (b *Blob) Extensions() []IExtension
func (*Blob) Qualifiers ¶
func (b *Blob) Qualifiers() []IQualifier
func (*Blob) SemanticID ¶
func (b *Blob) SemanticID() IReference
func (*Blob) SetCategory ¶
func (*Blob) SetContentType ¶
func (*Blob) SetDescription ¶
func (b *Blob) SetDescription( value []ILangStringTextType, )
func (*Blob) SetDisplayName ¶
func (b *Blob) SetDisplayName( value []ILangStringNameType, )
func (*Blob) SetEmbeddedDataSpecifications ¶
func (b *Blob) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*Blob) SetExtensions ¶
func (b *Blob) SetExtensions( value []IExtension, )
func (*Blob) SetIDShort ¶
func (*Blob) SetQualifiers ¶
func (b *Blob) SetQualifiers( value []IQualifier, )
func (*Blob) SetSemanticID ¶
func (b *Blob) SetSemanticID( value IReference, )
func (*Blob) SetSupplementalSemanticIDs ¶
func (b *Blob) SetSupplementalSemanticIDs( value []IReference, )
func (*Blob) SupplementalSemanticIDs ¶
func (b *Blob) SupplementalSemanticIDs() []IReference
type Capability ¶
type Capability struct {
// contains filtered or unexported fields
}
Implements ICapability.
func NewCapability ¶
func NewCapability() *Capability
Create a new instance of Capability with the given properties.
func (*Capability) Category ¶
func (c *Capability) Category() *string
func (*Capability) Descend ¶
func (c *Capability) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from c.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on c.
func (*Capability) DescendOnce ¶
func (c *Capability) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from c.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on c.
func (*Capability) Description ¶
func (c *Capability) Description() []ILangStringTextType
func (*Capability) DisplayName ¶
func (c *Capability) DisplayName() []ILangStringNameType
func (*Capability) EmbeddedDataSpecifications ¶
func (c *Capability) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*Capability) Extensions ¶
func (c *Capability) Extensions() []IExtension
func (*Capability) IDShort ¶
func (c *Capability) IDShort() *string
func (*Capability) ModelType ¶
func (c *Capability) ModelType() ModelType
func (*Capability) Qualifiers ¶
func (c *Capability) Qualifiers() []IQualifier
func (*Capability) SemanticID ¶
func (c *Capability) SemanticID() IReference
func (*Capability) SetCategory ¶
func (c *Capability) SetCategory( value *string, )
func (*Capability) SetDescription ¶
func (c *Capability) SetDescription( value []ILangStringTextType, )
func (*Capability) SetDisplayName ¶
func (c *Capability) SetDisplayName( value []ILangStringNameType, )
func (*Capability) SetEmbeddedDataSpecifications ¶
func (c *Capability) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*Capability) SetExtensions ¶
func (c *Capability) SetExtensions( value []IExtension, )
func (*Capability) SetIDShort ¶
func (c *Capability) SetIDShort( value *string, )
func (*Capability) SetQualifiers ¶
func (c *Capability) SetQualifiers( value []IQualifier, )
func (*Capability) SetSemanticID ¶
func (c *Capability) SetSemanticID( value IReference, )
func (*Capability) SetSupplementalSemanticIDs ¶
func (c *Capability) SetSupplementalSemanticIDs( value []IReference, )
func (*Capability) SupplementalSemanticIDs ¶
func (c *Capability) SupplementalSemanticIDs() []IReference
type ConceptDescription ¶
type ConceptDescription struct {
// contains filtered or unexported fields
}
Implements IConceptDescription.
func NewConceptDescription ¶
func NewConceptDescription( id string, ) *ConceptDescription
Create a new instance of ConceptDescription with the given properties.
func (*ConceptDescription) Administration ¶
func (cd *ConceptDescription) Administration() IAdministrativeInformation
func (*ConceptDescription) Category ¶
func (cd *ConceptDescription) Category() *string
func (*ConceptDescription) Descend ¶
func (cd *ConceptDescription) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from cd.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on cd.
func (*ConceptDescription) DescendOnce ¶
func (cd *ConceptDescription) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from cd.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on cd.
func (*ConceptDescription) Description ¶
func (cd *ConceptDescription) Description() []ILangStringTextType
func (*ConceptDescription) DisplayName ¶
func (cd *ConceptDescription) DisplayName() []ILangStringNameType
func (*ConceptDescription) EmbeddedDataSpecifications ¶
func (cd *ConceptDescription) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*ConceptDescription) Extensions ¶
func (cd *ConceptDescription) Extensions() []IExtension
func (*ConceptDescription) ID ¶
func (cd *ConceptDescription) ID() string
func (*ConceptDescription) IDShort ¶
func (cd *ConceptDescription) IDShort() *string
func (*ConceptDescription) IsCaseOf ¶
func (cd *ConceptDescription) IsCaseOf() []IReference
func (*ConceptDescription) ModelType ¶
func (cd *ConceptDescription) ModelType() ModelType
func (*ConceptDescription) SetAdministration ¶
func (cd *ConceptDescription) SetAdministration( value IAdministrativeInformation, )
func (*ConceptDescription) SetCategory ¶
func (cd *ConceptDescription) SetCategory( value *string, )
func (*ConceptDescription) SetDescription ¶
func (cd *ConceptDescription) SetDescription( value []ILangStringTextType, )
func (*ConceptDescription) SetDisplayName ¶
func (cd *ConceptDescription) SetDisplayName( value []ILangStringNameType, )
func (*ConceptDescription) SetEmbeddedDataSpecifications ¶
func (cd *ConceptDescription) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*ConceptDescription) SetExtensions ¶
func (cd *ConceptDescription) SetExtensions( value []IExtension, )
func (*ConceptDescription) SetID ¶
func (cd *ConceptDescription) SetID( value string, )
func (*ConceptDescription) SetIDShort ¶
func (cd *ConceptDescription) SetIDShort( value *string, )
func (*ConceptDescription) SetIsCaseOf ¶
func (cd *ConceptDescription) SetIsCaseOf( value []IReference, )
type DataSpecificationIEC61360 ¶
type DataSpecificationIEC61360 struct {
// contains filtered or unexported fields
}
Implements IDataSpecificationIEC61360.
func NewDataSpecificationIEC61360 ¶
func NewDataSpecificationIEC61360( preferredName []ILangStringPreferredNameTypeIEC61360, ) *DataSpecificationIEC61360
Create a new instance of DataSpecificationIEC61360 with the given properties.
func (*DataSpecificationIEC61360) DataType ¶
func (dsi6 *DataSpecificationIEC61360) DataType() *DataTypeIEC61360
func (*DataSpecificationIEC61360) Definition ¶
func (dsi6 *DataSpecificationIEC61360) Definition() []ILangStringDefinitionTypeIEC61360
func (*DataSpecificationIEC61360) Descend ¶
func (dsi6 *DataSpecificationIEC61360) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from dsi6.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on dsi6.
func (*DataSpecificationIEC61360) DescendOnce ¶
func (dsi6 *DataSpecificationIEC61360) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from dsi6.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on dsi6.
func (*DataSpecificationIEC61360) LevelType ¶
func (dsi6 *DataSpecificationIEC61360) LevelType() ILevelType
func (*DataSpecificationIEC61360) ModelType ¶
func (dsi6 *DataSpecificationIEC61360) ModelType() ModelType
func (*DataSpecificationIEC61360) PreferredName ¶
func (dsi6 *DataSpecificationIEC61360) PreferredName() []ILangStringPreferredNameTypeIEC61360
func (*DataSpecificationIEC61360) SetDataType ¶
func (dsi6 *DataSpecificationIEC61360) SetDataType( value *DataTypeIEC61360, )
func (*DataSpecificationIEC61360) SetDefinition ¶
func (dsi6 *DataSpecificationIEC61360) SetDefinition( value []ILangStringDefinitionTypeIEC61360, )
func (*DataSpecificationIEC61360) SetLevelType ¶
func (dsi6 *DataSpecificationIEC61360) SetLevelType( value ILevelType, )
func (*DataSpecificationIEC61360) SetPreferredName ¶
func (dsi6 *DataSpecificationIEC61360) SetPreferredName( value []ILangStringPreferredNameTypeIEC61360, )
func (*DataSpecificationIEC61360) SetShortName ¶
func (dsi6 *DataSpecificationIEC61360) SetShortName( value []ILangStringShortNameTypeIEC61360, )
func (*DataSpecificationIEC61360) SetSourceOfDefinition ¶
func (dsi6 *DataSpecificationIEC61360) SetSourceOfDefinition( value *string, )
func (*DataSpecificationIEC61360) SetSymbol ¶
func (dsi6 *DataSpecificationIEC61360) SetSymbol( value *string, )
func (*DataSpecificationIEC61360) SetUnit ¶
func (dsi6 *DataSpecificationIEC61360) SetUnit( value *string, )
func (*DataSpecificationIEC61360) SetUnitID ¶
func (dsi6 *DataSpecificationIEC61360) SetUnitID( value IReference, )
func (*DataSpecificationIEC61360) SetValue ¶
func (dsi6 *DataSpecificationIEC61360) SetValue( value *string, )
func (*DataSpecificationIEC61360) SetValueFormat ¶
func (dsi6 *DataSpecificationIEC61360) SetValueFormat( value *string, )
func (*DataSpecificationIEC61360) SetValueList ¶
func (dsi6 *DataSpecificationIEC61360) SetValueList( value IValueList, )
func (*DataSpecificationIEC61360) ShortName ¶
func (dsi6 *DataSpecificationIEC61360) ShortName() []ILangStringShortNameTypeIEC61360
func (*DataSpecificationIEC61360) SourceOfDefinition ¶
func (dsi6 *DataSpecificationIEC61360) SourceOfDefinition() *string
func (*DataSpecificationIEC61360) Symbol ¶
func (dsi6 *DataSpecificationIEC61360) Symbol() *string
func (*DataSpecificationIEC61360) Unit ¶
func (dsi6 *DataSpecificationIEC61360) Unit() *string
func (*DataSpecificationIEC61360) UnitID ¶
func (dsi6 *DataSpecificationIEC61360) UnitID() IReference
func (*DataSpecificationIEC61360) Value ¶
func (dsi6 *DataSpecificationIEC61360) Value() *string
func (*DataSpecificationIEC61360) ValueFormat ¶
func (dsi6 *DataSpecificationIEC61360) ValueFormat() *string
func (*DataSpecificationIEC61360) ValueList ¶
func (dsi6 *DataSpecificationIEC61360) ValueList() IValueList
type DataTypeDefXSD ¶
type DataTypeDefXSD int
Enumeration listing all XSD anySimpleTypes
const ( DataTypeDefXSDAnyURI DataTypeDefXSD = iota DataTypeDefXSDBase64Binary DataTypeDefXSDBoolean DataTypeDefXSDByte DataTypeDefXSDDate DataTypeDefXSDDateTime DataTypeDefXSDDecimal DataTypeDefXSDDouble DataTypeDefXSDDuration DataTypeDefXSDFloat DataTypeDefXSDGDay DataTypeDefXSDGMonth DataTypeDefXSDGMonthDay DataTypeDefXSDGYear DataTypeDefXSDGYearMonth DataTypeDefXSDHexBinary DataTypeDefXSDInt DataTypeDefXSDInteger DataTypeDefXSDLong DataTypeDefXSDNegativeInteger DataTypeDefXSDNonNegativeInteger DataTypeDefXSDNonPositiveInteger DataTypeDefXSDPositiveInteger DataTypeDefXSDShort DataTypeDefXSDString DataTypeDefXSDTime DataTypeDefXSDUnsignedByte DataTypeDefXSDUnsignedInt DataTypeDefXSDUnsignedLong DataTypeDefXSDUnsignedShort )
type DataTypeIEC61360 ¶
type DataTypeIEC61360 int
const ( // values containing a calendar date, conformant to ISO 8601:2004 Format yyyy-mm-dd // Example from IEC 61360-1:2017: "1999-05-31" is the [DATE] representation of: // "31 May 1999". DataTypeIEC61360Date DataTypeIEC61360 = iota // values consisting of sequence of characters but cannot be translated into other // languages DataTypeIEC61360String // values containing string but shall be represented as different string in different // languages DataTypeIEC61360StringTranslatable // values containing values that are measure of type INTEGER. In addition such a value // comes with a physical unit. DataTypeIEC61360IntegerMeasure // values containing values of type INTEGER but are no currencies or measures DataTypeIEC61360IntegerCount // values containing values of type INTEGER that are currencies DataTypeIEC61360IntegerCurrency // values containing values that are measures of type REAL. In addition such a value // comes with a physical unit. DataTypeIEC61360RealMeasure // values containing numbers that can be written as a terminating or non-terminating // decimal; a rational or irrational number but are no currencies or measures DataTypeIEC61360RealCount // values containing values of type REAL that are currencies DataTypeIEC61360RealCurrency // values representing truth of logic or Boolean algebra (TRUE, FALSE) DataTypeIEC61360Boolean // values containing values of type STRING conformant to Rfc 3987 // // NOTE: In IEC61360-1 (2017) only URI is supported. // An IRI type allows in particular to express an URL or an URI. DataTypeIEC61360IRI // values conforming to ISO/IEC 11179 series global identifier sequences // // IRDI can be used instead of the more specific data types ICID or ISO29002_IRDI. // // ICID values are value conformant to an IRDI, where the delimiter between RAI and ID // is “#” while the delimiter between DI and VI is confined to “##” // // ISO29002_IRDI values are values containing a global identifier that identifies an // administrated item in a registry. The structure of this identifier complies with // identifier syntax defined in ISO/TS 29002-5. The identifier shall fulfil the // requirements specified in ISO/TS 29002-5 for an "international registration data // identifier" (IRDI). DataTypeIEC61360IRDI // values containing values of type rational DataTypeIEC61360Rational // values containing values of type rational. In addition such a value comes with a // physical unit. DataTypeIEC61360RationalMeasure // values containing a time, conformant to ISO 8601:2004 but restricted to what is // allowed in the corresponding type in xml. // // Format hh:mm (ECLASS) // // Example from IEC 61360-1:2017: "13:20:00-05:00" is the [TIME] representation of: // 1.20 p.m. for Eastern Standard Time, which is 5 hours behind Coordinated // Universal Time (UTC). DataTypeIEC61360Time // values containing a time, conformant to ISO 8601:2004 but restricted to what is // allowed in the corresponding type in xml. // // Format yyyy-mm-dd hh:mm (ECLASS) DataTypeIEC61360Timestamp // values containing an address to a file. The values are of type URI and can represent // an absolute or relative path. // // NOTE: IEC61360 does not support the file type. DataTypeIEC61360File // Values containing string with any sequence of characters, using the syntax of HTML5 // (see W3C Recommendation 28:2014) DataTypeIEC61360HTML // values containing the content of a file. Values may be binaries. // // HTML conformant to HTML5 is a special blob. // // In IEC61360 binary is for a sequence of bits, each bit being represented by “0” and // “1” only. A binary is a blob but a blob may also contain other source code. DataTypeIEC61360Blob )
type Direction ¶
type Direction int
Direction
NOTE: This element is experimental and therefore may be subject to change or may be removed completely in future versions of the meta-model.
type EmbeddedDataSpecification ¶
type EmbeddedDataSpecification struct {
// contains filtered or unexported fields
}
Implements IEmbeddedDataSpecification.
func NewEmbeddedDataSpecification ¶
func NewEmbeddedDataSpecification( dataSpecificationContent IDataSpecificationContent, ) *EmbeddedDataSpecification
Create a new instance of EmbeddedDataSpecification with the given properties.
func (*EmbeddedDataSpecification) DataSpecification ¶
func (eds *EmbeddedDataSpecification) DataSpecification() IReference
func (*EmbeddedDataSpecification) DataSpecificationContent ¶
func (eds *EmbeddedDataSpecification) DataSpecificationContent() IDataSpecificationContent
func (*EmbeddedDataSpecification) Descend ¶
func (eds *EmbeddedDataSpecification) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from eds.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on eds.
func (*EmbeddedDataSpecification) DescendOnce ¶
func (eds *EmbeddedDataSpecification) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from eds.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on eds.
func (*EmbeddedDataSpecification) ModelType ¶
func (eds *EmbeddedDataSpecification) ModelType() ModelType
func (*EmbeddedDataSpecification) SetDataSpecification ¶
func (eds *EmbeddedDataSpecification) SetDataSpecification( value IReference, )
func (*EmbeddedDataSpecification) SetDataSpecificationContent ¶
func (eds *EmbeddedDataSpecification) SetDataSpecificationContent( value IDataSpecificationContent, )
type Entity ¶
type Entity struct {
// contains filtered or unexported fields
}
Implements IEntity.
func NewEntity ¶
func NewEntity( entityType EntityType, ) *Entity
Create a new instance of Entity with the given properties.
func (*Entity) Descend ¶
Apply the action recursively on the instances referenced from e.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on e.
func (*Entity) DescendOnce ¶
Apply the action on the instances referenced from e.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on e.
func (*Entity) Description ¶
func (e *Entity) Description() []ILangStringTextType
func (*Entity) DisplayName ¶
func (e *Entity) DisplayName() []ILangStringNameType
func (*Entity) EmbeddedDataSpecifications ¶
func (e *Entity) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*Entity) EntityType ¶
func (e *Entity) EntityType() EntityType
func (*Entity) Extensions ¶
func (e *Entity) Extensions() []IExtension
func (*Entity) GlobalAssetID ¶
func (*Entity) Qualifiers ¶
func (e *Entity) Qualifiers() []IQualifier
func (*Entity) SemanticID ¶
func (e *Entity) SemanticID() IReference
func (*Entity) SetCategory ¶
func (*Entity) SetDescription ¶
func (e *Entity) SetDescription( value []ILangStringTextType, )
func (*Entity) SetDisplayName ¶
func (e *Entity) SetDisplayName( value []ILangStringNameType, )
func (*Entity) SetEmbeddedDataSpecifications ¶
func (e *Entity) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*Entity) SetEntityType ¶
func (e *Entity) SetEntityType( value EntityType, )
func (*Entity) SetExtensions ¶
func (e *Entity) SetExtensions( value []IExtension, )
func (*Entity) SetGlobalAssetID ¶
func (*Entity) SetIDShort ¶
func (*Entity) SetQualifiers ¶
func (e *Entity) SetQualifiers( value []IQualifier, )
func (*Entity) SetSemanticID ¶
func (e *Entity) SetSemanticID( value IReference, )
func (*Entity) SetSpecificAssetIDs ¶
func (e *Entity) SetSpecificAssetIDs( value []ISpecificAssetID, )
func (*Entity) SetStatements ¶
func (e *Entity) SetStatements( value []ISubmodelElement, )
func (*Entity) SetSupplementalSemanticIDs ¶
func (e *Entity) SetSupplementalSemanticIDs( value []IReference, )
func (*Entity) SpecificAssetIDs ¶
func (e *Entity) SpecificAssetIDs() []ISpecificAssetID
func (*Entity) Statements ¶
func (e *Entity) Statements() []ISubmodelElement
func (*Entity) SupplementalSemanticIDs ¶
func (e *Entity) SupplementalSemanticIDs() []IReference
type EntityType ¶
type EntityType int
Enumeration for denoting whether an entity is a self-managed entity or a co-managed entity.
const ( // For co-managed entities there is no separate AAS. Co-managed entities need to be // part of a self-managed entity. EntityTypeCoManagedEntity EntityType = iota // Self-Managed Entities have their own AAS but can be part of the bill of material of // a composite self-managed entity. // // The asset of an I4.0 Component is a self-managed entity per definition. EntityTypeSelfManagedEntity )
type Environment ¶
type Environment struct {
// contains filtered or unexported fields
}
Implements IEnvironment.
func NewEnvironment ¶
func NewEnvironment() *Environment
Create a new instance of Environment with the given properties.
func (*Environment) AssetAdministrationShells ¶
func (e *Environment) AssetAdministrationShells() []IAssetAdministrationShell
func (*Environment) ConceptDescriptions ¶
func (e *Environment) ConceptDescriptions() []IConceptDescription
func (*Environment) Descend ¶
func (e *Environment) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from e.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on e.
func (*Environment) DescendOnce ¶
func (e *Environment) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from e.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on e.
func (*Environment) ModelType ¶
func (e *Environment) ModelType() ModelType
func (*Environment) SetAssetAdministrationShells ¶
func (e *Environment) SetAssetAdministrationShells( value []IAssetAdministrationShell, )
func (*Environment) SetConceptDescriptions ¶
func (e *Environment) SetConceptDescriptions( value []IConceptDescription, )
func (*Environment) SetSubmodels ¶
func (e *Environment) SetSubmodels( value []ISubmodel, )
func (*Environment) Submodels ¶
func (e *Environment) Submodels() []ISubmodel
type EventPayload ¶
type EventPayload struct {
// contains filtered or unexported fields
}
Implements IEventPayload.
func NewEventPayload ¶
func NewEventPayload( source IReference, observableReference IReference, timeStamp string, ) *EventPayload
Create a new instance of EventPayload with the given properties.
func (*EventPayload) Descend ¶
func (ep *EventPayload) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from ep.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on ep.
func (*EventPayload) DescendOnce ¶
func (ep *EventPayload) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from ep.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on ep.
func (*EventPayload) ModelType ¶
func (ep *EventPayload) ModelType() ModelType
func (*EventPayload) ObservableReference ¶
func (ep *EventPayload) ObservableReference() IReference
func (*EventPayload) ObservableSemanticID ¶
func (ep *EventPayload) ObservableSemanticID() IReference
func (*EventPayload) Payload ¶
func (ep *EventPayload) Payload() []byte
func (*EventPayload) SetObservableReference ¶
func (ep *EventPayload) SetObservableReference( value IReference, )
func (*EventPayload) SetObservableSemanticID ¶
func (ep *EventPayload) SetObservableSemanticID( value IReference, )
func (*EventPayload) SetPayload ¶
func (ep *EventPayload) SetPayload( value []byte, )
func (*EventPayload) SetSource ¶
func (ep *EventPayload) SetSource( value IReference, )
func (*EventPayload) SetSourceSemanticID ¶
func (ep *EventPayload) SetSourceSemanticID( value IReference, )
func (*EventPayload) SetSubjectID ¶
func (ep *EventPayload) SetSubjectID( value IReference, )
func (*EventPayload) SetTimeStamp ¶
func (ep *EventPayload) SetTimeStamp( value string, )
func (*EventPayload) SetTopic ¶
func (ep *EventPayload) SetTopic( value *string, )
func (*EventPayload) Source ¶
func (ep *EventPayload) Source() IReference
func (*EventPayload) SourceSemanticID ¶
func (ep *EventPayload) SourceSemanticID() IReference
func (*EventPayload) SubjectID ¶
func (ep *EventPayload) SubjectID() IReference
func (*EventPayload) TimeStamp ¶
func (ep *EventPayload) TimeStamp() string
func (*EventPayload) Topic ¶
func (ep *EventPayload) Topic() *string
type Extension ¶
type Extension struct {
// contains filtered or unexported fields
}
Implements IExtension.
func NewExtension ¶
Create a new instance of Extension with the given properties.
func (*Extension) Descend ¶
Apply the action recursively on the instances referenced from e.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on e.
func (*Extension) DescendOnce ¶
Apply the action on the instances referenced from e.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on e.
func (*Extension) RefersTo ¶
func (e *Extension) RefersTo() []IReference
func (*Extension) SemanticID ¶
func (e *Extension) SemanticID() IReference
func (*Extension) SetRefersTo ¶
func (e *Extension) SetRefersTo( value []IReference, )
func (*Extension) SetSemanticID ¶
func (e *Extension) SetSemanticID( value IReference, )
func (*Extension) SetSupplementalSemanticIDs ¶
func (e *Extension) SetSupplementalSemanticIDs( value []IReference, )
func (*Extension) SetValueType ¶
func (e *Extension) SetValueType( value *DataTypeDefXSD, )
func (*Extension) SupplementalSemanticIDs ¶
func (e *Extension) SupplementalSemanticIDs() []IReference
func (*Extension) ValueType ¶
func (e *Extension) ValueType() *DataTypeDefXSD
func (*Extension) ValueTypeOrDefault ¶
func (e *Extension) ValueTypeOrDefault() DataTypeDefXSD
Return [IExtension.ValueType] or the default value if it has not been set.
type File ¶
type File struct {
// contains filtered or unexported fields
}
Implements IFile.
func (*File) CategoryOrDefault ¶
Return [IReferable.Category] or the default value if it has not been set.
func (*File) ContentType ¶
func (*File) Descend ¶
Apply the action recursively on the instances referenced from f.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on f.
func (*File) DescendOnce ¶
Apply the action on the instances referenced from f.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on f.
func (*File) Description ¶
func (f *File) Description() []ILangStringTextType
func (*File) DisplayName ¶
func (f *File) DisplayName() []ILangStringNameType
func (*File) EmbeddedDataSpecifications ¶
func (f *File) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*File) Extensions ¶
func (f *File) Extensions() []IExtension
func (*File) Qualifiers ¶
func (f *File) Qualifiers() []IQualifier
func (*File) SemanticID ¶
func (f *File) SemanticID() IReference
func (*File) SetCategory ¶
func (*File) SetContentType ¶
func (*File) SetDescription ¶
func (f *File) SetDescription( value []ILangStringTextType, )
func (*File) SetDisplayName ¶
func (f *File) SetDisplayName( value []ILangStringNameType, )
func (*File) SetEmbeddedDataSpecifications ¶
func (f *File) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*File) SetExtensions ¶
func (f *File) SetExtensions( value []IExtension, )
func (*File) SetIDShort ¶
func (*File) SetQualifiers ¶
func (f *File) SetQualifiers( value []IQualifier, )
func (*File) SetSemanticID ¶
func (f *File) SetSemanticID( value IReference, )
func (*File) SetSupplementalSemanticIDs ¶
func (f *File) SetSupplementalSemanticIDs( value []IReference, )
func (*File) SupplementalSemanticIDs ¶
func (f *File) SupplementalSemanticIDs() []IReference
type IAbstractLangString ¶
type IAbstractLangString interface { IClass // Language tag conforming to BCP 47 Language() string SetLanguage( value string, ) // Text in the [IAbstractLangString.Language] Text() string SetText( value string, ) }
Strings with language tags
type IAdministrativeInformation ¶
type IAdministrativeInformation interface { IHasDataSpecification // Version of the element. Version() *string SetVersion( value *string, ) // Revision of the element. Revision() *string SetRevision( value *string, ) // The subject ID of the subject responsible for making the element. Creator() IReference SetCreator( value IReference, ) // Identifier of the template that guided the creation of the element. // // NOTE: In case of a submodel the [IAdministrativeInformation.TemplateID] is the identifier // of the submodel template ID that guided the creation of the submodel // // NOTE: The [IAdministrativeInformation.TemplateID] is not relevant for validation in Submodels. // For validation the [ISubmodel.SemanticID] shall be used. // // NOTE: Usage of [IAdministrativeInformation.TemplateID] is not restricted to submodel instances. So also // the creation of submodel templates can be guided by another submodel template. TemplateID() *string SetTemplateID( value *string, ) }
Administrative meta-information for an element like version information.
Constraint AASd-005: If [IAdministrativeInformation.Version] is not specified then also [IAdministrativeInformation.Revision] shall be unspecified. This means, a revision requires a version. If there is no version there is no revision neither. Revision is optional.
type IAnnotatedRelationshipElement ¶
type IAnnotatedRelationshipElement interface { IRelationshipElement // A data element that represents an annotation that holds for the relationship // between the two elements Annotations() []IDataElement SetAnnotations( value []IDataElement, ) }
An annotated relationship element is a relationship element that can be annotated with additional data elements.
type IAssetAdministrationShell ¶
type IAssetAdministrationShell interface { IIdentifiable IHasDataSpecification // The reference to the AAS the AAS was derived from. DerivedFrom() IReference SetDerivedFrom( value IReference, ) // Meta-information about the asset the AAS is representing. AssetInformation() IAssetInformation SetAssetInformation( value IAssetInformation, ) // References to submodels of the AAS. // // A submodel is a description of an aspect of the asset the AAS is representing. // // The asset of an AAS is typically described by one or more submodels. // // Temporarily no submodel might be assigned to the AAS. Submodels() []IReference SetSubmodels( value []IReference, ) }
An asset administration shell.
type IAssetInformation ¶
type IAssetInformation interface { IClass // Denotes whether the Asset is of kind [AssetKindType] or // [AssetKindInstance]. AssetKind() AssetKind SetAssetKind( value AssetKind, ) // Global identifier of the asset the AAS is representing. // // This attribute is required as soon as the AAS is exchanged via partners in the life // cycle of the asset. In a first phase of the life cycle the asset might not yet have // a global ID but already an internal identifier. The internal identifier would be // modelled via [IAssetInformation.SpecificAssetIDs]. // // NOTE: This is a global reference. GlobalAssetID() *string SetGlobalAssetID( value *string, ) // Additional domain-specific, typically proprietary identifier for the asset like // e.g., serial number etc. SpecificAssetIDs() []ISpecificAssetID SetSpecificAssetIDs( value []ISpecificAssetID, ) // In case [IAssetInformation.AssetKind] is applicable the [IAssetInformation.AssetType] is the asset ID // of the type asset of the asset under consideration // as identified by [IAssetInformation.GlobalAssetID]. // // NOTE: In case [IAssetInformation.AssetKind] is "Instance" than the [IAssetInformation.AssetType] denotes // which "Type" the asset is of. But it is also possible // to have an [IAssetInformation.AssetType] of an asset of kind "Type". AssetType() *string SetAssetType( value *string, ) // Thumbnail of the asset represented by the Asset Administration Shell. // // Used as default. DefaultThumbnail() IResource SetDefaultThumbnail( value IResource, ) }
In IAssetInformation identifying meta data of the asset that is represented by an AAS is defined.
The asset may either represent an asset type or an asset instance.
The asset has a globally unique identifier plus – if needed – additional domain specific (proprietary) identifiers. However, to support the corner case of very first phase of lifecycle where a stabilised/constant_set global asset identifier does not already exist, the corresponding attribute [IAssetInformation.GlobalAssetID] is optional.
Constraint AASd-116: `globalAssetId` is a reserved key. If used as value for [ISpecificAssetID.Name] then [ISpecificAssetID.Value] shall be identical to [IAssetInformation.GlobalAssetID].
NOTE: Constraint AASd-116 is important to enable a generic search across global and specific asset IDs.
NOTE: In the book, Constraint AASd-116 imposes a case-insensitive equality against `globalAssetId`. This is culturally-dependent, and depends on the system settings. For example, the case-folding for the letters "i" and "I" is different in Turkish from English.
We implement the constraint as case-sensitive instead to allow for interoperability across different culture settings.
Constraint AASd-131: For IAssetInformation either the [IAssetInformation.GlobalAssetID] shall be defined or at least one item in [IAssetInformation.SpecificAssetIDs].
type IBasicEventElement ¶
type IBasicEventElement interface { IEventElement // Reference to the [IReferable], which defines the scope of the event. // Can be [IAssetAdministrationShell], [ISubmodel], or // [ISubmodelElement]. // // Reference to a referable, e.g., a data element or // a submodel, that is being observed. Observed() IReference SetObserved( value IReference, ) // Direction of event. // // Can be `{ Input, Output }`. Direction() Direction SetDirection( value Direction, ) // State of event. // // Can be `{ On, Off }`. State() StateOfEvent SetState( value StateOfEvent, ) // Information for the outer message infrastructure for scheduling the event to the // respective communication channel. MessageTopic() *string SetMessageTopic( value *string, ) // Information, which outer message infrastructure shall handle messages for // the [IEventElement]. Refers to a [ISubmodel], // [ISubmodelElementList], [ISubmodelElementCollection] or // [IEntity], which contains [IDataElement]'s describing // the proprietary specification for the message broker. // // NOTE: For different message infrastructure, e.g., OPC UA or MQTT or AMQP, this // proprietary specification could be standardized by having respective Submodels. MessageBroker() IReference SetMessageBroker( value IReference, ) // Timestamp in UTC, when the last event was received (input direction) or sent // (output direction). LastUpdate() *string SetLastUpdate( value *string, ) // For input direction, reports on the maximum frequency, the software entity behind // the respective Referable can handle input events. // // For output events, specifies the maximum frequency of outputting this event to // an outer infrastructure. // // Might be not specified, that is, there is no minimum interval. MinInterval() *string SetMinInterval( value *string, ) // For input direction: not applicable. // // For output direction: maximum interval in time, the respective Referable shall send // an update of the status of the event, even if no other trigger condition for // the event was not met. // // Might be not specified, that is, there is no maximum interval MaxInterval() *string SetMaxInterval( value *string, ) }
A basic event element.
NOTE: This element is experimental and therefore may be subject to change or may be removed completely in future versions of the meta-model.
type IBlob ¶
type IBlob interface { IDataElement // The value of the [IBlob] instance of a blob data element. // // NOTE: In contrast to the file property the file content is stored directly as value // in the [IBlob] data element. Value() []byte SetValue( value []byte, ) // Content type of the content of the [IBlob]. // // The content type (MIME type) states which file extensions the file can have. // // Valid values are content types like e.g. `application/json`, `application/xls`, // `image/jpg`. // // The allowed values are defined as in RFC2046. ContentType() string SetContentType( value string, ) CategoryOrDefault() string }
A IBlob is a data element that represents a file that is contained with its source code in the value attribute.
type ICapability ¶
type ICapability interface { ISubmodelElement }
A capability is the implementation-independent description of the potential of an asset to achieve a certain effect in the physical or virtual world.
NOTE: The [ICapability.SemanticID] of a capability is typically an ontology. Thus, reasoning on capabilities is enabled.
type IClass ¶
type IClass interface { // Return the concrete model type at run-time. // // Use the model type if you want to switch on the concrete model type // in efficient manner, as the compiler will most probably implement // the switch in form of a jump table. ModelType() ModelType // Apply the action on the instances referenced from this instance. // // If any of the actions returns abort `true`, the descent is immediately // stopped, and abort `true` is also returned. Otherwise, return abort `false`. // // We do not recurse into the referenced instances. // // The action is not applied on this instance. DescendOnce(action func(IClass) bool) (abort bool) // Apply the action recursively on the instances referenced from this instance. // // If any of the actions returns abort `true`, the descent is immediately // stopped, and abort `true` is also returned. Otherwise, return abort `false`. // // The action is not applied on this instance. Descend(action func(IClass) bool) (abort bool) }
Represent the most general interface of an AAS model.
type IConceptDescription ¶
type IConceptDescription interface { IIdentifiable IHasDataSpecification // Reference to an external definition the concept is compatible to or was derived // from. // // NOTE: It is recommended to use a global reference. // // NOTE: Compare to is-case-of relationship in ISO 13584-32 & IEC EN 61360 IsCaseOf() []IReference SetIsCaseOf( value []IReference, ) }
The semantics of a property or other elements that may have a semantic description is defined by a concept description.
The description of the concept should follow a standardized schema (realized as data specification template).
Constraint AASc-3a-004: For a IConceptDescription with [IConceptDescription.Category] `PROPERTY` or `VALUE` using data specification IEC61360, the [IDataSpecificationIEC61360.DataType] is mandatory and shall be one of: `DATE`, `STRING`, `STRING_TRANSLATABLE`, `INTEGER_MEASURE`, `INTEGER_COUNT`, `INTEGER_CURRENCY`, `REAL_MEASURE`, `REAL_COUNT`, `REAL_CURRENCY`, `BOOLEAN`, `RATIONAL`, `RATIONAL_MEASURE`, `TIME`, `TIMESTAMP`.
NOTE: Note: categories are deprecated since V3.0 of Part 1a of the document series "Details of the Asset Administration Shell".
Constraint AASc-3a-005: For a IConceptDescription with [IConceptDescription.Category] `REFERENCE` using data specification template IEC61360, the [IDataSpecificationIEC61360.DataType] shall be one of: `STRING`, `IRI`, `IRDI`.
NOTE: Note: categories are deprecated since V3.0 of Part 1a of the document series "Details of the Asset Administration Shell".
Constraint AASc-3a-006: For a IConceptDescription with [IConceptDescription.Category] `DOCUMENT` using data specification IEC61360, the [IDataSpecificationIEC61360.DataType] shall be one of `FILE`, `BLOB`, `HTML`
NOTE: Categories are deprecated since V3.0 of Part 1a of the document series "Details of the Asset Administration Shell".
Constraint AASc-3a-007: For a IConceptDescription with [IConceptDescription.Category] `QUALIFIER_TYPE` using data specification IEC61360, the [IDataSpecificationIEC61360.DataType] is mandatory and shall be defined.
NOTE: Categories are deprecated since V3.0 of Part 1a of the document series "Details of the Asset Administration Shell".
Constraint AASc-3a-008: For a IConceptDescription using data specification template IEC61360, [IDataSpecificationIEC61360.Definition] is mandatory and shall be defined at least in English.
Exception: The concept description describes a value, i.e. [IDataSpecificationIEC61360.Value] is defined.
Constraint AASc-3a-003: For a IConceptDescription using data specification template IEC61360, referenced via [IDataSpecificationIEC61360.ValueList] [IValueReferencePair.ValueID] the [IDataSpecificationIEC61360.Value] shall be set.
type IDataElement ¶
type IDataElement interface { ISubmodelElement CategoryOrDefault() string }
A data element is a submodel element that is not further composed out of other submodel elements.
A data element is a submodel element that has a value. The type of value differs for different subtypes of data elements.
Constraint AASd-090: For data elements [IDataElement.Category] shall be one of the following values: `CONSTANT`, `PARAMETER` or `VARIABLE`.
Default: `VARIABLE`
type IDataSpecificationContent ¶
type IDataSpecificationContent interface { IClass }
Data specification content is part of a data specification template and defines which additional attributes shall be added to the element instance that references the data specification template and meta information about the template itself.
Constraint AASc-3a-050: If the IDataSpecificationIEC61360 is used for an element, the value of [IHasDataSpecification.EmbeddedDataSpecifications] shall contain the global reference to the IRI of the corresponding data specification template https://admin-shell.io/DataSpecificationTemplates/DataSpecificationIEC61360/3/0
type IDataSpecificationIEC61360 ¶
type IDataSpecificationIEC61360 interface { IDataSpecificationContent // Preferred name // // NOTE: It is advised to keep the length of the name limited to 35 characters. // // Constraint AASc-3a-002: // [IDataSpecificationIEC61360.PreferredName] shall be provided at least in English. PreferredName() []ILangStringPreferredNameTypeIEC61360 SetPreferredName( value []ILangStringPreferredNameTypeIEC61360, ) // Short name ShortName() []ILangStringShortNameTypeIEC61360 SetShortName( value []ILangStringShortNameTypeIEC61360, ) // Unit Unit() *string SetUnit( value *string, ) // Unique unit id // // [IDataSpecificationIEC61360.Unit] and [IDataSpecificationIEC61360.UnitID] need to be consistent if both attributes // are set // // NOTE: It is recommended to use an external reference ID. UnitID() IReference SetUnitID( value IReference, ) // Source of definition SourceOfDefinition() *string SetSourceOfDefinition( value *string, ) // Symbol Symbol() *string SetSymbol( value *string, ) // Data Type DataType() *DataTypeIEC61360 SetDataType( value *DataTypeIEC61360, ) // Definition in different languages Definition() []ILangStringDefinitionTypeIEC61360 SetDefinition( value []ILangStringDefinitionTypeIEC61360, ) // Value Format // // NOTE: The value format is based on ISO 13584-42 and IEC 61360-2. ValueFormat() *string SetValueFormat( value *string, ) // List of allowed values ValueList() IValueList SetValueList( value IValueList, ) // Value Value() *string SetValue( value *string, ) // Set of levels. LevelType() ILevelType SetLevelType( value ILevelType, ) }
Content of data specification template for concept descriptions for properties, values and value lists conformant to IEC 61360.
NOTE: IEC61360 requires also a globally unique identifier for a concept description. This ID is not part of the data specification template. Instead the [IConceptDescription.ID] as inherited via IIdentifiable is used. Same holds for administrative information like the version and revision.
NOTE: [IConceptDescription.IDShort] and [IDataSpecificationIEC61360.ShortName] are very similar. However, in this case the decision was to add [IDataSpecificationIEC61360.ShortName] explicitly to the data specification. Same holds for [IConceptDescription.DisplayName] and [IDataSpecificationIEC61360.PreferredName]. Same holds for [IConceptDescription.Description] and [IDataSpecificationIEC61360.Definition].
Constraint AASc-3a-010: If [IDataSpecificationIEC61360.Value] is not empty then [IDataSpecificationIEC61360.ValueList] shall be empty and vice versa.
NOTE: It is also possible that both [IDataSpecificationIEC61360.Value] and [IDataSpecificationIEC61360.ValueList] are empty. This is the case for concept descriptions that define the semantics of a property but do not have an enumeration ([IDataSpecificationIEC61360.ValueList]) as data type.
NOTE: Although it is possible to define a IConceptDescription for a :attr:´value_list`, it is not possible to reuse this [IDataSpecificationIEC61360.ValueList]. It is only possible to directly add a [IDataSpecificationIEC61360.ValueList] as data type to a specific semantic definition of a property.
Constraint AASc-3a-009: If [IDataSpecificationIEC61360.DataType] one of: DataTypeIEC61360IntegerMeasure, DataTypeIEC61360RealMeasure, DataTypeIEC61360RationalMeasure, DataTypeIEC61360IntegerCurrency, DataTypeIEC61360RealCurrency, then [IDataSpecificationIEC61360.Unit] or [IDataSpecificationIEC61360.UnitID] shall be defined.
type IEmbeddedDataSpecification ¶
type IEmbeddedDataSpecification interface { IClass // Actual content of the data specification DataSpecificationContent() IDataSpecificationContent SetDataSpecificationContent( value IDataSpecificationContent, ) // Reference to the data specification DataSpecification() IReference SetDataSpecification( value IReference, ) }
Embed the content of a data specification.
type IEntity ¶
type IEntity interface { ISubmodelElement // Describes statements applicable to the entity by a set of submodel elements, // typically with a qualified value. Statements() []ISubmodelElement SetStatements( value []ISubmodelElement, ) // Describes whether the entity is a co-managed entity or a self-managed entity. EntityType() EntityType SetEntityType( value EntityType, ) // Global identifier of the asset the entity is representing. // // NOTE: This is a global reference. GlobalAssetID() *string SetGlobalAssetID( value *string, ) // Reference to a specific asset ID representing a supplementary identifier // of the asset represented by the Asset Administration Shell. SpecificAssetIDs() []ISpecificAssetID SetSpecificAssetIDs( value []ISpecificAssetID, ) }
An entity is a submodel element that is used to model entities.
Constraint AASd-014: Either the attribute [IEntity.GlobalAssetID] or [IEntity.SpecificAssetIDs] of an IEntity must be set if [IEntity.EntityType] is set to EntityTypeSelfManagedEntity. They are not existing otherwise.
type IEnvironment ¶
type IEnvironment interface { IClass // Asset administration shell AssetAdministrationShells() []IAssetAdministrationShell SetAssetAdministrationShells( value []IAssetAdministrationShell, ) // Submodel Submodels() []ISubmodel SetSubmodels( value []ISubmodel, ) // Concept description ConceptDescriptions() []IConceptDescription SetConceptDescriptions( value []IConceptDescription, ) }
Container for the sets of different identifiables.
NOTE: w.r.t. file exchange: There is exactly one environment independent on how many files the contained elements are split. If the file is split then there shall be no element with the same identifier in two different files.
type IEventElement ¶
type IEventElement interface { ISubmodelElement }
An event element.
NOTE: This element is experimental and therefore may be subject to change or may be removed completely in future versions of the meta-model.
type IEventPayload ¶
type IEventPayload interface { IClass // Reference to the source event element, including identification of // [IAssetAdministrationShell], [ISubmodel], // [ISubmodelElement]'s. Source() IReference SetSource( value IReference, ) // [IHasSemantics.SemanticID] of the source event element, if available // // NOTE: It is recommended to use a global reference. SourceSemanticID() IReference SetSourceSemanticID( value IReference, ) // Reference to the referable, which defines the scope of the event. // // Can be [IAssetAdministrationShell], [ISubmodel] or // [ISubmodelElement]. ObservableReference() IReference SetObservableReference( value IReference, ) // [IHasSemantics.SemanticID] of the referable which defines the scope of // the event, if available. // // NOTE: It is recommended to use a global reference. ObservableSemanticID() IReference SetObservableSemanticID( value IReference, ) // Information for the outer message infrastructure for scheduling the event to // the respective communication channel. Topic() *string SetTopic( value *string, ) // Subject, who/which initiated the creation. // // NOTE: This is an external reference. SubjectID() IReference SetSubjectID( value IReference, ) // Timestamp in UTC, when this event was triggered. TimeStamp() string SetTimeStamp( value string, ) // Event specific payload. Payload() []byte SetPayload( value []byte, ) }
Defines the necessary information of an event instance sent out or received.
NOTE: This element is experimental and therefore may be subject to change or may be removed completely in future versions of the meta-model.
type IExtension ¶
type IExtension interface { IHasSemantics // Name of the extension. // // Constraint AASd-077: // The name of an extension (Extension/name) within [IHasExtensions] needs // to be unique. Name() string SetName( value string, ) // Type of the value of the extension. // // Default: [DataTypeDefXSDString] ValueType() *DataTypeDefXSD SetValueType( value *DataTypeDefXSD, ) // Value of the extension Value() *string SetValue( value *string, ) // Reference to an element the extension refers to. RefersTo() []IReference SetRefersTo( value []IReference, ) ValueTypeOrDefault() DataTypeDefXSD }
Single extension of an element.
type IFile ¶
type IFile interface { IDataElement // Path and name of the referenced file (with file extension). // // The path can be absolute or relative. Value() *string SetValue( value *string, ) // Content type of the content of the file. // // The content type states which file extensions the file can have. ContentType() string SetContentType( value string, ) CategoryOrDefault() string }
A File is a data element that represents an address to a file (a locator).
The value is an URI that can represent an absolute or relative path.
type IHasDataSpecification ¶
type IHasDataSpecification interface { IClass // Embedded data specification. EmbeddedDataSpecifications() []IEmbeddedDataSpecification SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, ) }
Element that can be extended by using data specification templates.
A data specification template defines a named set of additional attributes an element may or shall have. The data specifications used are explicitly specified with their global ID.
type IHasExtensions ¶
type IHasExtensions interface { IClass // An extension of the element. Extensions() []IExtension SetExtensions( value []IExtension, ) }
Element that can be extended by proprietary extensions.
NOTE: Extensions are proprietary, i.e. they do not support global interoperability.
type IHasKind ¶
type IHasKind interface { IClass // Kind of the element: either type or instance. // // Default: [ModellingKindInstance] Kind() *ModellingKind SetKind( value *ModellingKind, ) KindOrDefault() ModellingKind }
An element with a kind is an element that can either represent a template or an instance.
Default for an element is that it is representing an instance.
type IHasSemantics ¶
type IHasSemantics interface { IClass // Identifier of the semantic definition of the element. It is called semantic ID // of the element or also main semantic ID of the element. // // NOTE: It is recommended to use a global reference. SemanticID() IReference SetSemanticID( value IReference, ) // Identifier of a supplemental semantic definition of the element. // It is called supplemental semantic ID of the element. // // NOTE: It is recommended to use a global reference. SupplementalSemanticIDs() []IReference SetSupplementalSemanticIDs( value []IReference, ) }
Element that can have a semantic definition plus some supplemental semantic definitions.
Constraint AASd-118: If there are ID [IHasSemantics.SupplementalSemanticIDs] defined then there shall be also a main semantic ID [IHasSemantics.SemanticID].
type IIdentifiable ¶
type IIdentifiable interface { IReferable // Administrative information of an identifiable element. // // NOTE: Some of the administrative information like the version number might need to // be part of the identification. Administration() IAdministrativeInformation SetAdministration( value IAdministrativeInformation, ) // The globally unique identification of the element. ID() string SetID( value string, ) }
An element that has a globally unique identifier.
type IKey ¶
type IKey interface { IClass // Denotes which kind of entity is referenced. // // In case [IKey.Type] = [KeyTypesGlobalReference], // the key represents a reference to a source that can be globally identified. // // In case [IKey.Type] = [KeyTypesFragmentReference] the key represents // a bookmark or a similar local identifier within its parent element as specified // by the key that precedes this key. // // In all other cases the key references a model element of the same or of another AAS. // The name of the model element is explicitly listed. Type() KeyTypes SetType( value KeyTypes, ) // The key value, for example an IRDI or an URI Value() string SetValue( value string, ) }
A key is a reference to an element by its ID.
type ILangStringDefinitionTypeIEC61360 ¶
type ILangStringDefinitionTypeIEC61360 interface { IAbstractLangString }
String with length 1023 maximum and minimum 1 characters and with language tags
type ILangStringNameType ¶
type ILangStringNameType interface { IAbstractLangString }
String with length 128 maximum and minimum 1 characters and with language tags
type ILangStringPreferredNameTypeIEC61360 ¶
type ILangStringPreferredNameTypeIEC61360 interface { IAbstractLangString }
String with length 255 maximum and minimum 1 characters and with language tags
NOTE: It is advised to keep the length of the name limited to 35 characters.
type ILangStringShortNameTypeIEC61360 ¶
type ILangStringShortNameTypeIEC61360 interface { IAbstractLangString }
String with length 18 maximum and minimum 1 characters and with language tags
type ILangStringTextType ¶
type ILangStringTextType interface { IAbstractLangString }
String with length 1023 maximum and minimum 1 characters and with language tags
type ILevelType ¶
type ILevelType interface { IClass // Minimum of the value Min() bool SetMin( value bool, ) // Nominal value (value as designated) Nom() bool SetNom( value bool, ) // Value as typically present Typ() bool SetTyp( value bool, ) // Maximum of the value Max() bool SetMax( value bool, ) }
Value represented by up to four variants of a numeric value in a specific role: `MIN`, `NOM`, `TYP` and `MAX`. True means that the value is available, false means the value is not available.
EXAMPLE from [IEC61360-1]: In the case of having a property which is of the LEVEL_TYPE min/max − expressing a range − only those two values need to be provided.
NOTE: This is how AAS deals with the following combinations of level types:
- Either all attributes are false. In this case the concept is mapped to a IProperty and level type is ignored.
- At most one of the attributes is set to true. In this case the concept is mapped to a IProperty.
- Min and max are set to true. In this case the concept is mapped to a IRange.
- More than one attribute is set to true but not min and max only (see second case). In this case the concept is mapped to a ISubmodelElementCollection with the corresponding number of Properties. Example: If attribute [ILevelType.Min] and [ILevelType.Nom] are set to true then the concept is mapped to a ISubmodelElementCollection with two Properties within: min and nom. The data type of both Properties is the same.
NOTE: In the cases 2. and 4. the [IProperty.SemanticID] of the Property or Properties within the ISubmodelElementCollection needs to include information about the level type. Otherwise, the semantics is not described in a unique way. Please refer to the specification.
type IMultiLanguageProperty ¶
type IMultiLanguageProperty interface { IDataElement // The value of the property instance. Value() []ILangStringTextType SetValue( value []ILangStringTextType, ) // Reference to the global unique ID of a coded value. // // NOTE: It is recommended to use a global reference. ValueID() IReference SetValueID( value IReference, ) CategoryOrDefault() string }
A property is a data element that has a multi-language value.
Constraint AASd-012: If both the [IMultiLanguageProperty.Value] and the [IMultiLanguageProperty.ValueID] are present then for each string in a specific language the meaning must be the same as specified in [IMultiLanguageProperty.ValueID].
type IOperation ¶
type IOperation interface { ISubmodelElement // Input parameter of the operation. InputVariables() []IOperationVariable SetInputVariables( value []IOperationVariable, ) // Output parameter of the operation. OutputVariables() []IOperationVariable SetOutputVariables( value []IOperationVariable, ) // Parameter that is input and output of the operation. InoutputVariables() []IOperationVariable SetInoutputVariables( value []IOperationVariable, ) }
An operation is a submodel element with input and output variables.
Constraint AASd-134: For an IOperation the [IReferable.IDShort] of all [IOperationVariable.Value]'s in [IOperation.InputVariables], [IOperation.OutputVariables] and [IOperation.InoutputVariables] shall be unique.
type IOperationVariable ¶
type IOperationVariable interface { IClass // Describes an argument or result of an operation via a submodel element Value() ISubmodelElement SetValue( value ISubmodelElement, ) }
The value of an operation variable is a submodel element that is used as input and/or output variable of an operation.
type IProperty ¶
type IProperty interface { IDataElement // Data type of the value ValueType() DataTypeDefXSD SetValueType( value DataTypeDefXSD, ) // The value of the property instance. Value() *string SetValue( value *string, ) // Reference to the global unique ID of a coded value. // // NOTE: It is recommended to use a global reference. ValueID() IReference SetValueID( value IReference, ) CategoryOrDefault() string }
A property is a data element that has a single value.
Constraint AASd-007: If both, the [IProperty.Value] and the [IProperty.ValueID] are present then the value of [IProperty.Value] needs to be identical to the value of the referenced coded value in [IProperty.ValueID].
type IQualifiable ¶
type IQualifiable interface { IClass // Additional qualification of a qualifiable element. // // Constraint AASd-021: // Every qualifiable can only have one qualifier with the same // [IQualifier.Type]. Qualifiers() []IQualifier SetQualifiers( value []IQualifier, ) }
The value of a qualifiable element may be further qualified by one or more qualifiers.
Constraint AASd-119: If any [IQualifier.Kind] value of [IQualifiable.Qualifiers] is equal to QualifierKindTemplateQualifier and the qualified element inherits from IHasKind then the qualified element shall be of kind Template ([IHasKind.Kind] = ModellingKindTemplate).
NOTE: This constraint is checked at ISubmodel.
type IQualifier ¶
type IQualifier interface { IHasSemantics // The qualifier kind describes the kind of the qualifier that is applied to the // element. // // Default: [QualifierKindConceptQualifier] Kind() *QualifierKind SetKind( value *QualifierKind, ) // The qualifier type describes the type of the qualifier that is applied to // the element. Type() string SetType( value string, ) // Data type of the qualifier value. ValueType() DataTypeDefXSD SetValueType( value DataTypeDefXSD, ) // The qualifier value is the value of the qualifier. Value() *string SetValue( value *string, ) // Reference to the global unique ID of a coded value. // // NOTE: It is recommended to use a global reference. ValueID() IReference SetValueID( value IReference, ) KindOrDefault() QualifierKind }
A qualifier is a type-value-pair that makes additional statements w.r.t. the value of the element.
Constraint AASd-006: If both the [IQualifier.Value] and the [IQualifier.ValueID] of a IQualifier are present then the [IQualifier.Value] needs to be identical to the value of the referenced coded value in [IQualifier.ValueID].
Constraint AASd-020: The value of [IQualifier.Value] shall be consistent to the data type as defined in [IQualifier.ValueType].
type IRange ¶
type IRange interface { IDataElement // Data type of the min und max ValueType() DataTypeDefXSD SetValueType( value DataTypeDefXSD, ) // The minimum value of the range. // // If the min value is missing, then the value is assumed to be negative infinite. Min() *string SetMin( value *string, ) // The maximum value of the range. // // If the max value is missing, then the value is assumed to be positive infinite. Max() *string SetMax( value *string, ) CategoryOrDefault() string }
A range data element is a data element that defines a range with min and max.
type IReferable ¶
type IReferable interface { IHasExtensions // The category is a value that gives further meta information // w.r.t. to the class of the element. // It affects the expected existence of attributes and the applicability of // constraints. // // NOTE: The category is not identical to the semantic definition // ([IHasSemantics]) of an element. The category e.g. could denote that // the element is a measurement value whereas the semantic definition of // the element would denote that it is the measured temperature. Category() *string SetCategory( value *string, ) // In case of identifiables this attribute is a short name of the element. // In case of referable this ID is an identifying string of the element within // its name space. // // NOTE: In case the element is a property and the property has a semantic definition // ([IHasSemantics.SemanticID]) conformant to IEC61360 // the [IReferable.IDShort] is typically identical to the short name in English. IDShort() *string SetIDShort( value *string, ) // Display name. Can be provided in several languages. DisplayName() []ILangStringNameType SetDisplayName( value []ILangStringNameType, ) // Description or comments on the element. // // The description can be provided in several languages. // // If no description is defined, then the definition of the concept // description that defines the semantics of the element is used. // // Additional information can be provided, e.g., if the element is // qualified and which qualifier types can be expected in which // context or which additional data specification templates are // provided. Description() []ILangStringTextType SetDescription( value []ILangStringTextType, ) }
An element that is referable by its [IReferable.IDShort].
This ID is not globally unique. This ID is unique within the name space of the element.
Constraint AASd-022: [IReferable.IDShort] of non-identifiable referables within the same name space shall be unique (case-sensitive).
type IReference ¶
type IReference interface { IClass // Type of the reference. // // Denotes, whether reference is an external reference or a model reference. Type() ReferenceTypes SetType( value ReferenceTypes, ) // [IHasSemantics.SemanticID] of the referenced model element // ([IReference.Type] = [ReferenceTypesModelReference]). // // For external references there typically is no semantic ID. // // NOTE: It is recommended to use a external reference. ReferredSemanticID() IReference SetReferredSemanticID( value IReference, ) // Unique references in their name space. Keys() []IKey SetKeys( value []IKey, ) }
Reference to either a model element of the same or another AAS or to an external entity.
A reference is an ordered list of keys.
A model reference is an ordered list of keys, each key referencing an element. The complete list of keys may for example be concatenated to a path that then gives unique access to an element.
An external reference is a reference to an external entity.
Constraint AASd-121: For IReference's the value of [IKey.Type] of the first key of " [IReference.Keys] shall be one of [aasconstants.GloballyIdentifiables].
Constraint AASd-122: For external references, i.e. IReference's with [IReference.Type] = ReferenceTypesExternalReference, the value of [IKey.Type] of the first key of [IReference.Keys] shall be one of [aasconstants.GenericGloballyIdentifiables].
Constraint AASd-123: For model references, i.e. IReference's with [IReference.Type] = ReferenceTypesModelReference, the value of [IKey.Type] of the first key of [IReference.Keys] shall be one of [aasconstants.AASIdentifiables].
Constraint AASd-124: For external references, i.e. IReference's with [IReference.Type] = ReferenceTypesExternalReference, the last key of [IReference.Keys] shall be either one of [aasconstants.GenericGloballyIdentifiables] or one of [aasconstants.GenericFragmentKeys].
Constraint AASd-125: For model references, i.e. IReference's with [IReference.Type] = ReferenceTypesModelReference, with more than one key in [IReference.Keys] the value of [IKey.Type] of each of the keys following the first key of [IReference.Keys] shall be one of [aasconstants.FragmentKeys].
NOTE: Constraint AASd-125 ensures that the shortest path is used.
Constraint AASd-126: For model references, i.e. IReference's with [IReference.Type] = ReferenceTypesModelReference, with more than one key in [IReference.Keys] the value of [IKey.Type] of the last key in the reference key chain may be one of [aasconstants.GenericFragmentKeys] or no key at all shall have a value out of [aasconstants.GenericFragmentKeys].
Constraint AASd-127: For model references, i.e. IReference's with [IReference.Type] = ReferenceTypesModelReference, with more than one key in [IReference.Keys] a key with [IKey.Type] KeyTypesFragmentReference shall be preceded by a key with [IKey.Type] KeyTypesFile or KeyTypesBlob. All other AAS fragments, i.e. [IKey.Type] values out of [aasconstants.AASSubmodelElementsAsKeys], do not support fragments.
NOTE: Which kind of fragments are supported depends on the content type and the specification of allowed fragment identifiers for the corresponding resource being referenced via the reference.
Constraint AASd-128: For model references, i.e. IReference's with [IReference.Type] = ReferenceTypesModelReference, the [IKey.Value] of a IKey preceded by a IKey with [IKey.Type] = KeyTypesSubmodelElementList is an integer number denoting the position in the array of the submodel element list.
type IReferenceElement ¶
type IReferenceElement interface { IDataElement // Global reference to an external object or entity or a logical reference to // another element within the same or another AAS (i.e. a model reference to // a Referable). Value() IReference SetValue( value IReference, ) CategoryOrDefault() string }
A reference element is a data element that defines a logical reference to another element within the same or another AAS or a reference to an external object or entity.
type IRelationshipElement ¶
type IRelationshipElement interface { ISubmodelElement // Reference to the first element in the relationship taking the role of the subject. First() IReference SetFirst( value IReference, ) // Reference to the second element in the relationship taking the role of the object. Second() IReference SetSecond( value IReference, ) }
A relationship element is used to define a relationship between two elements being either referable (model reference) or external (global reference).
type IResource ¶
type IResource interface { IClass // Path and name of the resource (with file extension). // // The path can be absolute or relative. Path() string SetPath( value string, ) // Content type of the content of the file. // // The content type states which file extensions the file can have. ContentType() *string SetContentType( value *string, ) }
Resource represents an address to a file (a locator). The value is an URI that can represent an absolute or relative path
type ISpecificAssetID ¶
type ISpecificAssetID interface { IHasSemantics // Name of the identifier Name() string SetName( value string, ) // The value of the specific asset identifier with the corresponding name. Value() string SetValue( value string, ) // The (external) subject the key belongs to or has meaning to. // // NOTE: This is a global reference. ExternalSubjectID() IReference SetExternalSubjectID( value IReference, ) }
A specific asset ID describes a generic supplementary identifying attribute of the asset.
The specific asset ID is not necessarily globally unique.
Constraint AASd-133: [ISpecificAssetID.ExternalSubjectID] shall be an external reference, i.e. [IReference.Type] = ReferenceTypesExternalReference.
type ISubmodel ¶
type ISubmodel interface { IIdentifiable IHasKind IHasSemantics IQualifiable IHasDataSpecification // A submodel consists of zero or more submodel elements. SubmodelElements() []ISubmodelElement SetSubmodelElements( value []ISubmodelElement, ) KindOrDefault() ModellingKind }
A submodel defines a specific aspect of the asset represented by the AAS.
A submodel is used to structure the digital representation and technical functionality of an Administration Shell into distinguishable parts. Each submodel refers to a well-defined domain or subject matter. Submodels can become standardized and, thus, become submodels templates.
type ISubmodelElement ¶
type ISubmodelElement interface { IReferable IHasSemantics IQualifiable IHasDataSpecification }
A submodel element is an element suitable for the description and differentiation of assets.
It is recommended to add a [IHasSemantics.SemanticID] to a submodel element.
Constraint AASd-129: If any [IQualifier.Kind] value of [ISubmodelElement.Qualifiers] (attribute qualifier inherited via Qualifiable) is equal to QualifierKindTemplateQualifier then the submodel element shall be part of a submodel template, i.e. a Submodel with [ISubmodel.Kind] (attribute kind inherited via IHasKind) value is equal to ModellingKindTemplate.
type ISubmodelElementCollection ¶
type ISubmodelElementCollection interface { ISubmodelElement // Submodel element contained in the collection. Value() []ISubmodelElement SetValue( value []ISubmodelElement, ) }
A submodel element collection is a kind of struct, i.e. a a logical encapsulation of multiple named values. It has a fixed number of submodel elements.
type ISubmodelElementList ¶
type ISubmodelElementList interface { ISubmodelElement // Defines whether order in list is relevant. If [ISubmodelElementList.OrderRelevant] = `False` // then the list is representing a set or a bag. // // Default: `True` OrderRelevant() *bool SetOrderRelevant( value *bool, ) // Semantic ID the submodel elements contained in the list match to. // // NOTE: It is recommended to use a global reference. SemanticIDListElement() IReference SetSemanticIDListElement( value IReference, ) // The submodel element type of the submodel elements contained in the list. TypeValueListElement() AASSubmodelElements SetTypeValueListElement( value AASSubmodelElements, ) // The value type of the submodel element contained in the list. ValueTypeListElement() *DataTypeDefXSD SetValueTypeListElement( value *DataTypeDefXSD, ) // Submodel element contained in the list. // // The list is ordered. Value() []ISubmodelElement SetValue( value []ISubmodelElement, ) OrderRelevantOrDefault() bool }
A submodel element list is an ordered list of submodel elements.
The numbering starts with zero (0).
Constraint AASd-107: If a first level child element in a ISubmodelElementList has a [IHasSemantics.SemanticID] it shall be identical to [ISubmodelElementList.SemanticIDListElement].
Constraint AASd-114: If two first level child elements in a ISubmodelElementList have a [IHasSemantics.SemanticID] then they shall be identical.
Constraint AASd-115: If a first level child element in a ISubmodelElementList does not specify a [IHasSemantics.SemanticID] then the value is assumed to be identical to [ISubmodelElementList.SemanticIDListElement].
Constraint AASd-120: The [ISubmodelElementList.IDShort] of a ISubmodelElement being a direct child of a ISubmodelElementList shall not be specified.
Constraint AASd-108: All first level child elements in a ISubmodelElementList shall have the same submodel element type as specified in [ISubmodelElementList.TypeValueListElement].
Constraint AASd-109: If [ISubmodelElementList.TypeValueListElement] is equal to AASSubmodelElementsProperty or AASSubmodelElementsRange [ISubmodelElementList.ValueTypeListElement] shall be set and all first level child elements in the ISubmodelElementList shall have the value type as specified in [ISubmodelElementList.ValueTypeListElement].
type IValueList ¶
type IValueList interface { IClass // A pair of a value together with its global unique id. ValueReferencePairs() []IValueReferencePair SetValueReferencePairs( value []IValueReferencePair, ) }
A set of value reference pairs.
type IValueReferencePair ¶
type IValueReferencePair interface { IClass // The value of the referenced concept definition of the value in [IValueReferencePair.ValueID]. Value() string SetValue( value string, ) // Global unique id of the value. // // NOTE: It is recommended to use a global reference. ValueID() IReference SetValueID( value IReference, ) }
A value reference pair within a value list. Each value has a global unique id defining its semantic.
type Key ¶
type Key struct {
// contains filtered or unexported fields
}
Implements IKey.
func (*Key) Descend ¶
Apply the action recursively on the instances referenced from k.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on k.
func (*Key) DescendOnce ¶
Apply the action on the instances referenced from k.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on k.
type KeyTypes ¶
type KeyTypes int
Enumeration of different key value types within a key.
const ( KeyTypesAnnotatedRelationshipElement KeyTypes = iota KeyTypesAssetAdministrationShell KeyTypesBasicEventElement KeyTypesBlob KeyTypesCapability KeyTypesConceptDescription // Data element. // // NOTE: Data Element is abstract, i.e. if a key uses [KeyTypesDataElement] // the reference may be a Property, a File etc. KeyTypesDataElement KeyTypesEntity // Event. // // NOTE: [IEventElement] is abstract. KeyTypesEventElement KeyTypesFile // Bookmark or a similar local identifier of a subordinate part of // a primary resource KeyTypesFragmentReference KeyTypesGlobalReference // Identifiable. // // NOTE: Identifiable is abstract, i.e. if a key uses “Identifiable” the reference // may be an Asset Administration Shell, a Submodel or a Concept Description. KeyTypesIdentifiable // Property with a value that can be provided in multiple languages KeyTypesMultiLanguageProperty KeyTypesOperation KeyTypesProperty // Range with min and max KeyTypesRange KeyTypesReferable // Reference KeyTypesReferenceElement // Relationship KeyTypesRelationshipElement KeyTypesSubmodel // Submodel Element // // NOTE: Submodel Element is abstract, i.e. if a key uses [KeyTypesSubmodelElement] // the reference may be a [IProperty], an [IOperation] etc. KeyTypesSubmodelElement // Struct of Submodel Elements KeyTypesSubmodelElementCollection // List of Submodel Elements KeyTypesSubmodelElementList )
type LangStringDefinitionTypeIEC61360 ¶
type LangStringDefinitionTypeIEC61360 struct {
// contains filtered or unexported fields
}
Implements ILangStringDefinitionTypeIEC61360.
func NewLangStringDefinitionTypeIEC61360 ¶
func NewLangStringDefinitionTypeIEC61360( language string, text string, ) *LangStringDefinitionTypeIEC61360
Create a new instance of LangStringDefinitionTypeIEC61360 with the given properties.
func (*LangStringDefinitionTypeIEC61360) Descend ¶
func (lsdti6 *LangStringDefinitionTypeIEC61360) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from lsdti6.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on lsdti6.
func (*LangStringDefinitionTypeIEC61360) DescendOnce ¶
func (lsdti6 *LangStringDefinitionTypeIEC61360) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from lsdti6.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on lsdti6.
func (*LangStringDefinitionTypeIEC61360) Language ¶
func (lsdti6 *LangStringDefinitionTypeIEC61360) Language() string
func (*LangStringDefinitionTypeIEC61360) ModelType ¶
func (lsdti6 *LangStringDefinitionTypeIEC61360) ModelType() ModelType
func (*LangStringDefinitionTypeIEC61360) SetLanguage ¶
func (lsdti6 *LangStringDefinitionTypeIEC61360) SetLanguage( value string, )
func (*LangStringDefinitionTypeIEC61360) SetText ¶
func (lsdti6 *LangStringDefinitionTypeIEC61360) SetText( value string, )
func (*LangStringDefinitionTypeIEC61360) Text ¶
func (lsdti6 *LangStringDefinitionTypeIEC61360) Text() string
type LangStringNameType ¶
type LangStringNameType struct {
// contains filtered or unexported fields
}
Implements ILangStringNameType.
func NewLangStringNameType ¶
func NewLangStringNameType( language string, text string, ) *LangStringNameType
Create a new instance of LangStringNameType with the given properties.
func (*LangStringNameType) Descend ¶
func (lsnt *LangStringNameType) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from lsnt.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on lsnt.
func (*LangStringNameType) DescendOnce ¶
func (lsnt *LangStringNameType) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from lsnt.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on lsnt.
func (*LangStringNameType) Language ¶
func (lsnt *LangStringNameType) Language() string
func (*LangStringNameType) ModelType ¶
func (lsnt *LangStringNameType) ModelType() ModelType
func (*LangStringNameType) SetLanguage ¶
func (lsnt *LangStringNameType) SetLanguage( value string, )
func (*LangStringNameType) SetText ¶
func (lsnt *LangStringNameType) SetText( value string, )
func (*LangStringNameType) Text ¶
func (lsnt *LangStringNameType) Text() string
type LangStringPreferredNameTypeIEC61360 ¶
type LangStringPreferredNameTypeIEC61360 struct {
// contains filtered or unexported fields
}
Implements ILangStringPreferredNameTypeIEC61360.
func NewLangStringPreferredNameTypeIEC61360 ¶
func NewLangStringPreferredNameTypeIEC61360( language string, text string, ) *LangStringPreferredNameTypeIEC61360
Create a new instance of LangStringPreferredNameTypeIEC61360 with the given properties.
func (*LangStringPreferredNameTypeIEC61360) Descend ¶
func (lspnti6 *LangStringPreferredNameTypeIEC61360) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from lspnti6.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on lspnti6.
func (*LangStringPreferredNameTypeIEC61360) DescendOnce ¶
func (lspnti6 *LangStringPreferredNameTypeIEC61360) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from lspnti6.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on lspnti6.
func (*LangStringPreferredNameTypeIEC61360) Language ¶
func (lspnti6 *LangStringPreferredNameTypeIEC61360) Language() string
func (*LangStringPreferredNameTypeIEC61360) ModelType ¶
func (lspnti6 *LangStringPreferredNameTypeIEC61360) ModelType() ModelType
func (*LangStringPreferredNameTypeIEC61360) SetLanguage ¶
func (lspnti6 *LangStringPreferredNameTypeIEC61360) SetLanguage( value string, )
func (*LangStringPreferredNameTypeIEC61360) SetText ¶
func (lspnti6 *LangStringPreferredNameTypeIEC61360) SetText( value string, )
func (*LangStringPreferredNameTypeIEC61360) Text ¶
func (lspnti6 *LangStringPreferredNameTypeIEC61360) Text() string
type LangStringShortNameTypeIEC61360 ¶
type LangStringShortNameTypeIEC61360 struct {
// contains filtered or unexported fields
}
Implements ILangStringShortNameTypeIEC61360.
func NewLangStringShortNameTypeIEC61360 ¶
func NewLangStringShortNameTypeIEC61360( language string, text string, ) *LangStringShortNameTypeIEC61360
Create a new instance of LangStringShortNameTypeIEC61360 with the given properties.
func (*LangStringShortNameTypeIEC61360) Descend ¶
func (lssnti6 *LangStringShortNameTypeIEC61360) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from lssnti6.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on lssnti6.
func (*LangStringShortNameTypeIEC61360) DescendOnce ¶
func (lssnti6 *LangStringShortNameTypeIEC61360) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from lssnti6.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on lssnti6.
func (*LangStringShortNameTypeIEC61360) Language ¶
func (lssnti6 *LangStringShortNameTypeIEC61360) Language() string
func (*LangStringShortNameTypeIEC61360) ModelType ¶
func (lssnti6 *LangStringShortNameTypeIEC61360) ModelType() ModelType
func (*LangStringShortNameTypeIEC61360) SetLanguage ¶
func (lssnti6 *LangStringShortNameTypeIEC61360) SetLanguage( value string, )
func (*LangStringShortNameTypeIEC61360) SetText ¶
func (lssnti6 *LangStringShortNameTypeIEC61360) SetText( value string, )
func (*LangStringShortNameTypeIEC61360) Text ¶
func (lssnti6 *LangStringShortNameTypeIEC61360) Text() string
type LangStringTextType ¶
type LangStringTextType struct {
// contains filtered or unexported fields
}
Implements ILangStringTextType.
func NewLangStringTextType ¶
func NewLangStringTextType( language string, text string, ) *LangStringTextType
Create a new instance of LangStringTextType with the given properties.
func (*LangStringTextType) Descend ¶
func (lstt *LangStringTextType) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from lstt.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on lstt.
func (*LangStringTextType) DescendOnce ¶
func (lstt *LangStringTextType) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from lstt.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on lstt.
func (*LangStringTextType) Language ¶
func (lstt *LangStringTextType) Language() string
func (*LangStringTextType) ModelType ¶
func (lstt *LangStringTextType) ModelType() ModelType
func (*LangStringTextType) SetLanguage ¶
func (lstt *LangStringTextType) SetLanguage( value string, )
func (*LangStringTextType) SetText ¶
func (lstt *LangStringTextType) SetText( value string, )
func (*LangStringTextType) Text ¶
func (lstt *LangStringTextType) Text() string
type LevelType ¶
type LevelType struct {
// contains filtered or unexported fields
}
Implements ILevelType.
func NewLevelType ¶
Create a new instance of LevelType with the given properties.
func (*LevelType) Descend ¶
Apply the action recursively on the instances referenced from lt.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on lt.
func (*LevelType) DescendOnce ¶
Apply the action on the instances referenced from lt.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on lt.
type ModelType ¶
type ModelType int
Enumerate the model types for faster type switches.
For example, you can use an array of function pointers to implement such a switch.
const ( ModelTypeExtension ModelType = iota ModelTypeAdministrativeInformation ModelTypeQualifier ModelTypeAssetAdministrationShell ModelTypeAssetInformation ModelTypeResource ModelTypeSpecificAssetID ModelTypeSubmodel ModelTypeRelationshipElement ModelTypeSubmodelElementList ModelTypeSubmodelElementCollection ModelTypeProperty ModelTypeMultiLanguageProperty ModelTypeRange ModelTypeReferenceElement ModelTypeBlob ModelTypeFile ModelTypeAnnotatedRelationshipElement ModelTypeEntity ModelTypeEventPayload ModelTypeBasicEventElement ModelTypeOperation ModelTypeOperationVariable ModelTypeCapability ModelTypeConceptDescription ModelTypeReference ModelTypeKey ModelTypeLangStringNameType ModelTypeLangStringTextType ModelTypeEnvironment ModelTypeEmbeddedDataSpecification ModelTypeLevelType ModelTypeValueReferencePair ModelTypeValueList ModelTypeLangStringPreferredNameTypeIEC61360 ModelTypeLangStringShortNameTypeIEC61360 ModelTypeLangStringDefinitionTypeIEC61360 ModelTypeDataSpecificationIEC61360 )
type ModellingKind ¶
type ModellingKind int
Enumeration for denoting whether an element is a template or an instance.
const ( // Specification of the common features of a structured element in sufficient detail // that such a instance can be instantiated using it ModellingKindTemplate ModellingKind = iota // Concrete, clearly identifiable element instance. Its creation and validation // may be guided by a corresponding element template. ModellingKindInstance )
type MultiLanguageProperty ¶
type MultiLanguageProperty struct {
// contains filtered or unexported fields
}
Implements IMultiLanguageProperty.
func NewMultiLanguageProperty ¶
func NewMultiLanguageProperty() *MultiLanguageProperty
Create a new instance of MultiLanguageProperty with the given properties.
func (*MultiLanguageProperty) Category ¶
func (mlp *MultiLanguageProperty) Category() *string
func (*MultiLanguageProperty) CategoryOrDefault ¶
func (mlp *MultiLanguageProperty) CategoryOrDefault() string
Return [IReferable.Category] or the default value if it has not been set.
func (*MultiLanguageProperty) Descend ¶
func (mlp *MultiLanguageProperty) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from mlp.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on mlp.
func (*MultiLanguageProperty) DescendOnce ¶
func (mlp *MultiLanguageProperty) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from mlp.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on mlp.
func (*MultiLanguageProperty) Description ¶
func (mlp *MultiLanguageProperty) Description() []ILangStringTextType
func (*MultiLanguageProperty) DisplayName ¶
func (mlp *MultiLanguageProperty) DisplayName() []ILangStringNameType
func (*MultiLanguageProperty) EmbeddedDataSpecifications ¶
func (mlp *MultiLanguageProperty) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*MultiLanguageProperty) Extensions ¶
func (mlp *MultiLanguageProperty) Extensions() []IExtension
func (*MultiLanguageProperty) IDShort ¶
func (mlp *MultiLanguageProperty) IDShort() *string
func (*MultiLanguageProperty) ModelType ¶
func (mlp *MultiLanguageProperty) ModelType() ModelType
func (*MultiLanguageProperty) Qualifiers ¶
func (mlp *MultiLanguageProperty) Qualifiers() []IQualifier
func (*MultiLanguageProperty) SemanticID ¶
func (mlp *MultiLanguageProperty) SemanticID() IReference
func (*MultiLanguageProperty) SetCategory ¶
func (mlp *MultiLanguageProperty) SetCategory( value *string, )
func (*MultiLanguageProperty) SetDescription ¶
func (mlp *MultiLanguageProperty) SetDescription( value []ILangStringTextType, )
func (*MultiLanguageProperty) SetDisplayName ¶
func (mlp *MultiLanguageProperty) SetDisplayName( value []ILangStringNameType, )
func (*MultiLanguageProperty) SetEmbeddedDataSpecifications ¶
func (mlp *MultiLanguageProperty) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*MultiLanguageProperty) SetExtensions ¶
func (mlp *MultiLanguageProperty) SetExtensions( value []IExtension, )
func (*MultiLanguageProperty) SetIDShort ¶
func (mlp *MultiLanguageProperty) SetIDShort( value *string, )
func (*MultiLanguageProperty) SetQualifiers ¶
func (mlp *MultiLanguageProperty) SetQualifiers( value []IQualifier, )
func (*MultiLanguageProperty) SetSemanticID ¶
func (mlp *MultiLanguageProperty) SetSemanticID( value IReference, )
func (*MultiLanguageProperty) SetSupplementalSemanticIDs ¶
func (mlp *MultiLanguageProperty) SetSupplementalSemanticIDs( value []IReference, )
func (*MultiLanguageProperty) SetValue ¶
func (mlp *MultiLanguageProperty) SetValue( value []ILangStringTextType, )
func (*MultiLanguageProperty) SetValueID ¶
func (mlp *MultiLanguageProperty) SetValueID( value IReference, )
func (*MultiLanguageProperty) SupplementalSemanticIDs ¶
func (mlp *MultiLanguageProperty) SupplementalSemanticIDs() []IReference
func (*MultiLanguageProperty) Value ¶
func (mlp *MultiLanguageProperty) Value() []ILangStringTextType
func (*MultiLanguageProperty) ValueID ¶
func (mlp *MultiLanguageProperty) ValueID() IReference
type Operation ¶
type Operation struct {
// contains filtered or unexported fields
}
Implements IOperation.
func NewOperation ¶
func NewOperation() *Operation
Create a new instance of Operation with the given properties.
func (*Operation) Descend ¶
Apply the action recursively on the instances referenced from o.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on o.
func (*Operation) DescendOnce ¶
Apply the action on the instances referenced from o.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on o.
func (*Operation) Description ¶
func (o *Operation) Description() []ILangStringTextType
func (*Operation) DisplayName ¶
func (o *Operation) DisplayName() []ILangStringNameType
func (*Operation) EmbeddedDataSpecifications ¶
func (o *Operation) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*Operation) Extensions ¶
func (o *Operation) Extensions() []IExtension
func (*Operation) InoutputVariables ¶
func (o *Operation) InoutputVariables() []IOperationVariable
func (*Operation) InputVariables ¶
func (o *Operation) InputVariables() []IOperationVariable
func (*Operation) OutputVariables ¶
func (o *Operation) OutputVariables() []IOperationVariable
func (*Operation) Qualifiers ¶
func (o *Operation) Qualifiers() []IQualifier
func (*Operation) SemanticID ¶
func (o *Operation) SemanticID() IReference
func (*Operation) SetCategory ¶
func (*Operation) SetDescription ¶
func (o *Operation) SetDescription( value []ILangStringTextType, )
func (*Operation) SetDisplayName ¶
func (o *Operation) SetDisplayName( value []ILangStringNameType, )
func (*Operation) SetEmbeddedDataSpecifications ¶
func (o *Operation) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*Operation) SetExtensions ¶
func (o *Operation) SetExtensions( value []IExtension, )
func (*Operation) SetIDShort ¶
func (*Operation) SetInoutputVariables ¶
func (o *Operation) SetInoutputVariables( value []IOperationVariable, )
func (*Operation) SetInputVariables ¶
func (o *Operation) SetInputVariables( value []IOperationVariable, )
func (*Operation) SetOutputVariables ¶
func (o *Operation) SetOutputVariables( value []IOperationVariable, )
func (*Operation) SetQualifiers ¶
func (o *Operation) SetQualifiers( value []IQualifier, )
func (*Operation) SetSemanticID ¶
func (o *Operation) SetSemanticID( value IReference, )
func (*Operation) SetSupplementalSemanticIDs ¶
func (o *Operation) SetSupplementalSemanticIDs( value []IReference, )
func (*Operation) SupplementalSemanticIDs ¶
func (o *Operation) SupplementalSemanticIDs() []IReference
type OperationVariable ¶
type OperationVariable struct {
// contains filtered or unexported fields
}
Implements IOperationVariable.
func NewOperationVariable ¶
func NewOperationVariable( value ISubmodelElement, ) *OperationVariable
Create a new instance of OperationVariable with the given properties.
func (*OperationVariable) Descend ¶
func (ov *OperationVariable) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from ov.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on ov.
func (*OperationVariable) DescendOnce ¶
func (ov *OperationVariable) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from ov.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on ov.
func (*OperationVariable) ModelType ¶
func (ov *OperationVariable) ModelType() ModelType
func (*OperationVariable) SetValue ¶
func (ov *OperationVariable) SetValue( value ISubmodelElement, )
func (*OperationVariable) Value ¶
func (ov *OperationVariable) Value() ISubmodelElement
type Property ¶
type Property struct {
// contains filtered or unexported fields
}
Implements IProperty.
func NewProperty ¶
func NewProperty( valueType DataTypeDefXSD, ) *Property
Create a new instance of Property with the given properties.
func (*Property) CategoryOrDefault ¶
Return [IReferable.Category] or the default value if it has not been set.
func (*Property) Descend ¶
Apply the action recursively on the instances referenced from p.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on p.
func (*Property) DescendOnce ¶
Apply the action on the instances referenced from p.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on p.
func (*Property) Description ¶
func (p *Property) Description() []ILangStringTextType
func (*Property) DisplayName ¶
func (p *Property) DisplayName() []ILangStringNameType
func (*Property) EmbeddedDataSpecifications ¶
func (p *Property) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*Property) Extensions ¶
func (p *Property) Extensions() []IExtension
func (*Property) Qualifiers ¶
func (p *Property) Qualifiers() []IQualifier
func (*Property) SemanticID ¶
func (p *Property) SemanticID() IReference
func (*Property) SetCategory ¶
func (*Property) SetDescription ¶
func (p *Property) SetDescription( value []ILangStringTextType, )
func (*Property) SetDisplayName ¶
func (p *Property) SetDisplayName( value []ILangStringNameType, )
func (*Property) SetEmbeddedDataSpecifications ¶
func (p *Property) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*Property) SetExtensions ¶
func (p *Property) SetExtensions( value []IExtension, )
func (*Property) SetIDShort ¶
func (*Property) SetQualifiers ¶
func (p *Property) SetQualifiers( value []IQualifier, )
func (*Property) SetSemanticID ¶
func (p *Property) SetSemanticID( value IReference, )
func (*Property) SetSupplementalSemanticIDs ¶
func (p *Property) SetSupplementalSemanticIDs( value []IReference, )
func (*Property) SetValueID ¶
func (p *Property) SetValueID( value IReference, )
func (*Property) SetValueType ¶
func (p *Property) SetValueType( value DataTypeDefXSD, )
func (*Property) SupplementalSemanticIDs ¶
func (p *Property) SupplementalSemanticIDs() []IReference
func (*Property) ValueID ¶
func (p *Property) ValueID() IReference
func (*Property) ValueType ¶
func (p *Property) ValueType() DataTypeDefXSD
type Qualifier ¶
type Qualifier struct {
// contains filtered or unexported fields
}
Implements IQualifier.
func NewQualifier ¶
func NewQualifier( typE string, valueType DataTypeDefXSD, ) *Qualifier
Create a new instance of Qualifier with the given properties.
func (*Qualifier) Descend ¶
Apply the action recursively on the instances referenced from q.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on q.
func (*Qualifier) DescendOnce ¶
Apply the action on the instances referenced from q.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on q.
func (*Qualifier) Kind ¶
func (q *Qualifier) Kind() *QualifierKind
func (*Qualifier) KindOrDefault ¶
func (q *Qualifier) KindOrDefault() QualifierKind
Return [IQualifier.Kind] or the default value if it has not been set.
func (*Qualifier) SemanticID ¶
func (q *Qualifier) SemanticID() IReference
func (*Qualifier) SetKind ¶
func (q *Qualifier) SetKind( value *QualifierKind, )
func (*Qualifier) SetSemanticID ¶
func (q *Qualifier) SetSemanticID( value IReference, )
func (*Qualifier) SetSupplementalSemanticIDs ¶
func (q *Qualifier) SetSupplementalSemanticIDs( value []IReference, )
func (*Qualifier) SetValueID ¶
func (q *Qualifier) SetValueID( value IReference, )
func (*Qualifier) SetValueType ¶
func (q *Qualifier) SetValueType( value DataTypeDefXSD, )
func (*Qualifier) SupplementalSemanticIDs ¶
func (q *Qualifier) SupplementalSemanticIDs() []IReference
func (*Qualifier) ValueID ¶
func (q *Qualifier) ValueID() IReference
func (*Qualifier) ValueType ¶
func (q *Qualifier) ValueType() DataTypeDefXSD
type QualifierKind ¶
type QualifierKind int
Enumeration for kinds of qualifiers.
NOTE: This element is experimental and therefore may be subject to change or may be removed completely in future versions of the meta-model.
const ( // qualifies the value of the element and can change during run-time. // // Value qualifiers are only applicable to elements with kind // [ModellingKindInstance]. QualifierKindValueQualifier QualifierKind = iota // qualifies the semantic definition the element is referring to // ([IHasSemantics.SemanticID]) QualifierKindConceptQualifier // qualifies the elements within a specific submodel on concept level. // // Template qualifiers are only applicable to elements with kind // [ModellingKindTemplate]. QualifierKindTemplateQualifier )
type Range ¶
type Range struct {
// contains filtered or unexported fields
}
Implements IRange.
func NewRange ¶
func NewRange( valueType DataTypeDefXSD, ) *Range
Create a new instance of Range with the given properties.
func (*Range) CategoryOrDefault ¶
Return [IReferable.Category] or the default value if it has not been set.
func (*Range) Descend ¶
Apply the action recursively on the instances referenced from r.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on r.
func (*Range) DescendOnce ¶
Apply the action on the instances referenced from r.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on r.
func (*Range) Description ¶
func (r *Range) Description() []ILangStringTextType
func (*Range) DisplayName ¶
func (r *Range) DisplayName() []ILangStringNameType
func (*Range) EmbeddedDataSpecifications ¶
func (r *Range) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*Range) Extensions ¶
func (r *Range) Extensions() []IExtension
func (*Range) Qualifiers ¶
func (r *Range) Qualifiers() []IQualifier
func (*Range) SemanticID ¶
func (r *Range) SemanticID() IReference
func (*Range) SetCategory ¶
func (*Range) SetDescription ¶
func (r *Range) SetDescription( value []ILangStringTextType, )
func (*Range) SetDisplayName ¶
func (r *Range) SetDisplayName( value []ILangStringNameType, )
func (*Range) SetEmbeddedDataSpecifications ¶
func (r *Range) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*Range) SetExtensions ¶
func (r *Range) SetExtensions( value []IExtension, )
func (*Range) SetIDShort ¶
func (*Range) SetQualifiers ¶
func (r *Range) SetQualifiers( value []IQualifier, )
func (*Range) SetSemanticID ¶
func (r *Range) SetSemanticID( value IReference, )
func (*Range) SetSupplementalSemanticIDs ¶
func (r *Range) SetSupplementalSemanticIDs( value []IReference, )
func (*Range) SetValueType ¶
func (r *Range) SetValueType( value DataTypeDefXSD, )
func (*Range) SupplementalSemanticIDs ¶
func (r *Range) SupplementalSemanticIDs() []IReference
func (*Range) ValueType ¶
func (r *Range) ValueType() DataTypeDefXSD
type Reference ¶
type Reference struct {
// contains filtered or unexported fields
}
Implements IReference.
func NewReference ¶
func NewReference( typE ReferenceTypes, keys []IKey, ) *Reference
Create a new instance of Reference with the given properties.
func (*Reference) Descend ¶
Apply the action recursively on the instances referenced from r.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on r.
func (*Reference) DescendOnce ¶
Apply the action on the instances referenced from r.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on r.
func (*Reference) ReferredSemanticID ¶
func (r *Reference) ReferredSemanticID() IReference
func (*Reference) SetReferredSemanticID ¶
func (r *Reference) SetReferredSemanticID( value IReference, )
func (*Reference) SetType ¶
func (r *Reference) SetType( value ReferenceTypes, )
func (*Reference) Type ¶
func (r *Reference) Type() ReferenceTypes
type ReferenceElement ¶
type ReferenceElement struct {
// contains filtered or unexported fields
}
Implements IReferenceElement.
func NewReferenceElement ¶
func NewReferenceElement() *ReferenceElement
Create a new instance of ReferenceElement with the given properties.
func (*ReferenceElement) Category ¶
func (re *ReferenceElement) Category() *string
func (*ReferenceElement) CategoryOrDefault ¶
func (re *ReferenceElement) CategoryOrDefault() string
Return [IReferable.Category] or the default value if it has not been set.
func (*ReferenceElement) Descend ¶
func (re *ReferenceElement) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from re.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on re.
func (*ReferenceElement) DescendOnce ¶
func (re *ReferenceElement) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from re.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on re.
func (*ReferenceElement) Description ¶
func (re *ReferenceElement) Description() []ILangStringTextType
func (*ReferenceElement) DisplayName ¶
func (re *ReferenceElement) DisplayName() []ILangStringNameType
func (*ReferenceElement) EmbeddedDataSpecifications ¶
func (re *ReferenceElement) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*ReferenceElement) Extensions ¶
func (re *ReferenceElement) Extensions() []IExtension
func (*ReferenceElement) IDShort ¶
func (re *ReferenceElement) IDShort() *string
func (*ReferenceElement) ModelType ¶
func (re *ReferenceElement) ModelType() ModelType
func (*ReferenceElement) Qualifiers ¶
func (re *ReferenceElement) Qualifiers() []IQualifier
func (*ReferenceElement) SemanticID ¶
func (re *ReferenceElement) SemanticID() IReference
func (*ReferenceElement) SetCategory ¶
func (re *ReferenceElement) SetCategory( value *string, )
func (*ReferenceElement) SetDescription ¶
func (re *ReferenceElement) SetDescription( value []ILangStringTextType, )
func (*ReferenceElement) SetDisplayName ¶
func (re *ReferenceElement) SetDisplayName( value []ILangStringNameType, )
func (*ReferenceElement) SetEmbeddedDataSpecifications ¶
func (re *ReferenceElement) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*ReferenceElement) SetExtensions ¶
func (re *ReferenceElement) SetExtensions( value []IExtension, )
func (*ReferenceElement) SetIDShort ¶
func (re *ReferenceElement) SetIDShort( value *string, )
func (*ReferenceElement) SetQualifiers ¶
func (re *ReferenceElement) SetQualifiers( value []IQualifier, )
func (*ReferenceElement) SetSemanticID ¶
func (re *ReferenceElement) SetSemanticID( value IReference, )
func (*ReferenceElement) SetSupplementalSemanticIDs ¶
func (re *ReferenceElement) SetSupplementalSemanticIDs( value []IReference, )
func (*ReferenceElement) SetValue ¶
func (re *ReferenceElement) SetValue( value IReference, )
func (*ReferenceElement) SupplementalSemanticIDs ¶
func (re *ReferenceElement) SupplementalSemanticIDs() []IReference
func (*ReferenceElement) Value ¶
func (re *ReferenceElement) Value() IReference
type ReferenceTypes ¶
type ReferenceTypes int
Reference types
const ( // External reference. ReferenceTypesExternalReference ReferenceTypes = iota // Model reference. ReferenceTypesModelReference )
type RelationshipElement ¶
type RelationshipElement struct {
// contains filtered or unexported fields
}
Implements IRelationshipElement.
func NewRelationshipElement ¶
func NewRelationshipElement( first IReference, second IReference, ) *RelationshipElement
Create a new instance of RelationshipElement with the given properties.
func (*RelationshipElement) Category ¶
func (re *RelationshipElement) Category() *string
func (*RelationshipElement) Descend ¶
func (re *RelationshipElement) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from re.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on re.
func (*RelationshipElement) DescendOnce ¶
func (re *RelationshipElement) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from re.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on re.
func (*RelationshipElement) Description ¶
func (re *RelationshipElement) Description() []ILangStringTextType
func (*RelationshipElement) DisplayName ¶
func (re *RelationshipElement) DisplayName() []ILangStringNameType
func (*RelationshipElement) EmbeddedDataSpecifications ¶
func (re *RelationshipElement) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*RelationshipElement) Extensions ¶
func (re *RelationshipElement) Extensions() []IExtension
func (*RelationshipElement) First ¶
func (re *RelationshipElement) First() IReference
func (*RelationshipElement) IDShort ¶
func (re *RelationshipElement) IDShort() *string
func (*RelationshipElement) ModelType ¶
func (re *RelationshipElement) ModelType() ModelType
func (*RelationshipElement) Qualifiers ¶
func (re *RelationshipElement) Qualifiers() []IQualifier
func (*RelationshipElement) Second ¶
func (re *RelationshipElement) Second() IReference
func (*RelationshipElement) SemanticID ¶
func (re *RelationshipElement) SemanticID() IReference
func (*RelationshipElement) SetCategory ¶
func (re *RelationshipElement) SetCategory( value *string, )
func (*RelationshipElement) SetDescription ¶
func (re *RelationshipElement) SetDescription( value []ILangStringTextType, )
func (*RelationshipElement) SetDisplayName ¶
func (re *RelationshipElement) SetDisplayName( value []ILangStringNameType, )
func (*RelationshipElement) SetEmbeddedDataSpecifications ¶
func (re *RelationshipElement) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*RelationshipElement) SetExtensions ¶
func (re *RelationshipElement) SetExtensions( value []IExtension, )
func (*RelationshipElement) SetFirst ¶
func (re *RelationshipElement) SetFirst( value IReference, )
func (*RelationshipElement) SetIDShort ¶
func (re *RelationshipElement) SetIDShort( value *string, )
func (*RelationshipElement) SetQualifiers ¶
func (re *RelationshipElement) SetQualifiers( value []IQualifier, )
func (*RelationshipElement) SetSecond ¶
func (re *RelationshipElement) SetSecond( value IReference, )
func (*RelationshipElement) SetSemanticID ¶
func (re *RelationshipElement) SetSemanticID( value IReference, )
func (*RelationshipElement) SetSupplementalSemanticIDs ¶
func (re *RelationshipElement) SetSupplementalSemanticIDs( value []IReference, )
func (*RelationshipElement) SupplementalSemanticIDs ¶
func (re *RelationshipElement) SupplementalSemanticIDs() []IReference
type Resource ¶
type Resource struct {
// contains filtered or unexported fields
}
Implements IResource.
func NewResource ¶
Create a new instance of Resource with the given properties.
func (*Resource) ContentType ¶
func (*Resource) Descend ¶
Apply the action recursively on the instances referenced from r.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on r.
func (*Resource) DescendOnce ¶
Apply the action on the instances referenced from r.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on r.
func (*Resource) SetContentType ¶
type SpecificAssetID ¶
type SpecificAssetID struct {
// contains filtered or unexported fields
}
Implements ISpecificAssetID.
func NewSpecificAssetID ¶
func NewSpecificAssetID( name string, value string, ) *SpecificAssetID
Create a new instance of SpecificAssetID with the given properties.
func (*SpecificAssetID) Descend ¶
func (sai *SpecificAssetID) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from sai.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on sai.
func (*SpecificAssetID) DescendOnce ¶
func (sai *SpecificAssetID) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from sai.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on sai.
func (*SpecificAssetID) ExternalSubjectID ¶
func (sai *SpecificAssetID) ExternalSubjectID() IReference
func (*SpecificAssetID) ModelType ¶
func (sai *SpecificAssetID) ModelType() ModelType
func (*SpecificAssetID) Name ¶
func (sai *SpecificAssetID) Name() string
func (*SpecificAssetID) SemanticID ¶
func (sai *SpecificAssetID) SemanticID() IReference
func (*SpecificAssetID) SetExternalSubjectID ¶
func (sai *SpecificAssetID) SetExternalSubjectID( value IReference, )
func (*SpecificAssetID) SetName ¶
func (sai *SpecificAssetID) SetName( value string, )
func (*SpecificAssetID) SetSemanticID ¶
func (sai *SpecificAssetID) SetSemanticID( value IReference, )
func (*SpecificAssetID) SetSupplementalSemanticIDs ¶
func (sai *SpecificAssetID) SetSupplementalSemanticIDs( value []IReference, )
func (*SpecificAssetID) SetValue ¶
func (sai *SpecificAssetID) SetValue( value string, )
func (*SpecificAssetID) SupplementalSemanticIDs ¶
func (sai *SpecificAssetID) SupplementalSemanticIDs() []IReference
func (*SpecificAssetID) Value ¶
func (sai *SpecificAssetID) Value() string
type StateOfEvent ¶
type StateOfEvent int
State of an event
NOTE: This element is experimental and therefore may be subject to change or may be removed completely in future versions of the meta-model.
const ( // Event is on StateOfEventOn StateOfEvent = iota // Event is off. StateOfEventOff )
type Submodel ¶
type Submodel struct {
// contains filtered or unexported fields
}
Implements ISubmodel.
func NewSubmodel ¶
Create a new instance of Submodel with the given properties.
func (*Submodel) Administration ¶
func (s *Submodel) Administration() IAdministrativeInformation
func (*Submodel) Descend ¶
Apply the action recursively on the instances referenced from s.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on s.
func (*Submodel) DescendOnce ¶
Apply the action on the instances referenced from s.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on s.
func (*Submodel) Description ¶
func (s *Submodel) Description() []ILangStringTextType
func (*Submodel) DisplayName ¶
func (s *Submodel) DisplayName() []ILangStringNameType
func (*Submodel) EmbeddedDataSpecifications ¶
func (s *Submodel) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*Submodel) Extensions ¶
func (s *Submodel) Extensions() []IExtension
func (*Submodel) Kind ¶
func (s *Submodel) Kind() *ModellingKind
func (*Submodel) KindOrDefault ¶
func (s *Submodel) KindOrDefault() ModellingKind
Return [IHasKind.Kind] or the default value if it has not been set.
func (*Submodel) Qualifiers ¶
func (s *Submodel) Qualifiers() []IQualifier
func (*Submodel) SemanticID ¶
func (s *Submodel) SemanticID() IReference
func (*Submodel) SetAdministration ¶
func (s *Submodel) SetAdministration( value IAdministrativeInformation, )
func (*Submodel) SetCategory ¶
func (*Submodel) SetDescription ¶
func (s *Submodel) SetDescription( value []ILangStringTextType, )
func (*Submodel) SetDisplayName ¶
func (s *Submodel) SetDisplayName( value []ILangStringNameType, )
func (*Submodel) SetEmbeddedDataSpecifications ¶
func (s *Submodel) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*Submodel) SetExtensions ¶
func (s *Submodel) SetExtensions( value []IExtension, )
func (*Submodel) SetIDShort ¶
func (*Submodel) SetKind ¶
func (s *Submodel) SetKind( value *ModellingKind, )
func (*Submodel) SetQualifiers ¶
func (s *Submodel) SetQualifiers( value []IQualifier, )
func (*Submodel) SetSemanticID ¶
func (s *Submodel) SetSemanticID( value IReference, )
func (*Submodel) SetSubmodelElements ¶
func (s *Submodel) SetSubmodelElements( value []ISubmodelElement, )
func (*Submodel) SetSupplementalSemanticIDs ¶
func (s *Submodel) SetSupplementalSemanticIDs( value []IReference, )
func (*Submodel) SubmodelElements ¶
func (s *Submodel) SubmodelElements() []ISubmodelElement
func (*Submodel) SupplementalSemanticIDs ¶
func (s *Submodel) SupplementalSemanticIDs() []IReference
type SubmodelElementCollection ¶
type SubmodelElementCollection struct {
// contains filtered or unexported fields
}
Implements ISubmodelElementCollection.
func NewSubmodelElementCollection ¶
func NewSubmodelElementCollection() *SubmodelElementCollection
Create a new instance of SubmodelElementCollection with the given properties.
func (*SubmodelElementCollection) Category ¶
func (sec *SubmodelElementCollection) Category() *string
func (*SubmodelElementCollection) Descend ¶
func (sec *SubmodelElementCollection) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from sec.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on sec.
func (*SubmodelElementCollection) DescendOnce ¶
func (sec *SubmodelElementCollection) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from sec.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on sec.
func (*SubmodelElementCollection) Description ¶
func (sec *SubmodelElementCollection) Description() []ILangStringTextType
func (*SubmodelElementCollection) DisplayName ¶
func (sec *SubmodelElementCollection) DisplayName() []ILangStringNameType
func (*SubmodelElementCollection) EmbeddedDataSpecifications ¶
func (sec *SubmodelElementCollection) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*SubmodelElementCollection) Extensions ¶
func (sec *SubmodelElementCollection) Extensions() []IExtension
func (*SubmodelElementCollection) IDShort ¶
func (sec *SubmodelElementCollection) IDShort() *string
func (*SubmodelElementCollection) ModelType ¶
func (sec *SubmodelElementCollection) ModelType() ModelType
func (*SubmodelElementCollection) Qualifiers ¶
func (sec *SubmodelElementCollection) Qualifiers() []IQualifier
func (*SubmodelElementCollection) SemanticID ¶
func (sec *SubmodelElementCollection) SemanticID() IReference
func (*SubmodelElementCollection) SetCategory ¶
func (sec *SubmodelElementCollection) SetCategory( value *string, )
func (*SubmodelElementCollection) SetDescription ¶
func (sec *SubmodelElementCollection) SetDescription( value []ILangStringTextType, )
func (*SubmodelElementCollection) SetDisplayName ¶
func (sec *SubmodelElementCollection) SetDisplayName( value []ILangStringNameType, )
func (*SubmodelElementCollection) SetEmbeddedDataSpecifications ¶
func (sec *SubmodelElementCollection) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*SubmodelElementCollection) SetExtensions ¶
func (sec *SubmodelElementCollection) SetExtensions( value []IExtension, )
func (*SubmodelElementCollection) SetIDShort ¶
func (sec *SubmodelElementCollection) SetIDShort( value *string, )
func (*SubmodelElementCollection) SetQualifiers ¶
func (sec *SubmodelElementCollection) SetQualifiers( value []IQualifier, )
func (*SubmodelElementCollection) SetSemanticID ¶
func (sec *SubmodelElementCollection) SetSemanticID( value IReference, )
func (*SubmodelElementCollection) SetSupplementalSemanticIDs ¶
func (sec *SubmodelElementCollection) SetSupplementalSemanticIDs( value []IReference, )
func (*SubmodelElementCollection) SetValue ¶
func (sec *SubmodelElementCollection) SetValue( value []ISubmodelElement, )
func (*SubmodelElementCollection) SupplementalSemanticIDs ¶
func (sec *SubmodelElementCollection) SupplementalSemanticIDs() []IReference
func (*SubmodelElementCollection) Value ¶
func (sec *SubmodelElementCollection) Value() []ISubmodelElement
type SubmodelElementList ¶
type SubmodelElementList struct {
// contains filtered or unexported fields
}
Implements ISubmodelElementList.
func NewSubmodelElementList ¶
func NewSubmodelElementList( typeValueListElement AASSubmodelElements, ) *SubmodelElementList
Create a new instance of SubmodelElementList with the given properties.
func (*SubmodelElementList) Category ¶
func (sel *SubmodelElementList) Category() *string
func (*SubmodelElementList) Descend ¶
func (sel *SubmodelElementList) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from sel.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on sel.
func (*SubmodelElementList) DescendOnce ¶
func (sel *SubmodelElementList) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from sel.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on sel.
func (*SubmodelElementList) Description ¶
func (sel *SubmodelElementList) Description() []ILangStringTextType
func (*SubmodelElementList) DisplayName ¶
func (sel *SubmodelElementList) DisplayName() []ILangStringNameType
func (*SubmodelElementList) EmbeddedDataSpecifications ¶
func (sel *SubmodelElementList) EmbeddedDataSpecifications() []IEmbeddedDataSpecification
func (*SubmodelElementList) Extensions ¶
func (sel *SubmodelElementList) Extensions() []IExtension
func (*SubmodelElementList) IDShort ¶
func (sel *SubmodelElementList) IDShort() *string
func (*SubmodelElementList) ModelType ¶
func (sel *SubmodelElementList) ModelType() ModelType
func (*SubmodelElementList) OrderRelevant ¶
func (sel *SubmodelElementList) OrderRelevant() *bool
func (*SubmodelElementList) OrderRelevantOrDefault ¶
func (sel *SubmodelElementList) OrderRelevantOrDefault() bool
Return [ISubmodelElementKind.OrderRelevant] or the default value if it has not been set.
func (*SubmodelElementList) Qualifiers ¶
func (sel *SubmodelElementList) Qualifiers() []IQualifier
func (*SubmodelElementList) SemanticID ¶
func (sel *SubmodelElementList) SemanticID() IReference
func (*SubmodelElementList) SemanticIDListElement ¶
func (sel *SubmodelElementList) SemanticIDListElement() IReference
func (*SubmodelElementList) SetCategory ¶
func (sel *SubmodelElementList) SetCategory( value *string, )
func (*SubmodelElementList) SetDescription ¶
func (sel *SubmodelElementList) SetDescription( value []ILangStringTextType, )
func (*SubmodelElementList) SetDisplayName ¶
func (sel *SubmodelElementList) SetDisplayName( value []ILangStringNameType, )
func (*SubmodelElementList) SetEmbeddedDataSpecifications ¶
func (sel *SubmodelElementList) SetEmbeddedDataSpecifications( value []IEmbeddedDataSpecification, )
func (*SubmodelElementList) SetExtensions ¶
func (sel *SubmodelElementList) SetExtensions( value []IExtension, )
func (*SubmodelElementList) SetIDShort ¶
func (sel *SubmodelElementList) SetIDShort( value *string, )
func (*SubmodelElementList) SetOrderRelevant ¶
func (sel *SubmodelElementList) SetOrderRelevant( value *bool, )
func (*SubmodelElementList) SetQualifiers ¶
func (sel *SubmodelElementList) SetQualifiers( value []IQualifier, )
func (*SubmodelElementList) SetSemanticID ¶
func (sel *SubmodelElementList) SetSemanticID( value IReference, )
func (*SubmodelElementList) SetSemanticIDListElement ¶
func (sel *SubmodelElementList) SetSemanticIDListElement( value IReference, )
func (*SubmodelElementList) SetSupplementalSemanticIDs ¶
func (sel *SubmodelElementList) SetSupplementalSemanticIDs( value []IReference, )
func (*SubmodelElementList) SetTypeValueListElement ¶
func (sel *SubmodelElementList) SetTypeValueListElement( value AASSubmodelElements, )
func (*SubmodelElementList) SetValue ¶
func (sel *SubmodelElementList) SetValue( value []ISubmodelElement, )
func (*SubmodelElementList) SetValueTypeListElement ¶
func (sel *SubmodelElementList) SetValueTypeListElement( value *DataTypeDefXSD, )
func (*SubmodelElementList) SupplementalSemanticIDs ¶
func (sel *SubmodelElementList) SupplementalSemanticIDs() []IReference
func (*SubmodelElementList) TypeValueListElement ¶
func (sel *SubmodelElementList) TypeValueListElement() AASSubmodelElements
func (*SubmodelElementList) Value ¶
func (sel *SubmodelElementList) Value() []ISubmodelElement
func (*SubmodelElementList) ValueTypeListElement ¶
func (sel *SubmodelElementList) ValueTypeListElement() *DataTypeDefXSD
type ValueList ¶
type ValueList struct {
// contains filtered or unexported fields
}
Implements IValueList.
func NewValueList ¶
func NewValueList( valueReferencePairs []IValueReferencePair, ) *ValueList
Create a new instance of ValueList with the given properties.
func (*ValueList) Descend ¶
Apply the action recursively on the instances referenced from vl.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on vl.
func (*ValueList) DescendOnce ¶
Apply the action on the instances referenced from vl.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on vl.
func (*ValueList) SetValueReferencePairs ¶
func (vl *ValueList) SetValueReferencePairs( value []IValueReferencePair, )
func (*ValueList) ValueReferencePairs ¶
func (vl *ValueList) ValueReferencePairs() []IValueReferencePair
type ValueReferencePair ¶
type ValueReferencePair struct {
// contains filtered or unexported fields
}
Implements IValueReferencePair.
func NewValueReferencePair ¶
func NewValueReferencePair( value string, valueID IReference, ) *ValueReferencePair
Create a new instance of ValueReferencePair with the given properties.
func (*ValueReferencePair) Descend ¶
func (vrp *ValueReferencePair) Descend( action func(IClass) bool, ) (abort bool)
Apply the action recursively on the instances referenced from vrp.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
The action is not applied on vrp.
func (*ValueReferencePair) DescendOnce ¶
func (vrp *ValueReferencePair) DescendOnce( action func(IClass) bool, ) (abort bool)
Apply the action on the instances referenced from vrp.
If any of the actions returns abort `true`, the descent is immediately stopped, and abort `true` is also returned. Otherwise, return abort `false`.
We do not recurse into the referenced instances.
The action is not applied on vrp.
func (*ValueReferencePair) ModelType ¶
func (vrp *ValueReferencePair) ModelType() ModelType
func (*ValueReferencePair) SetValue ¶
func (vrp *ValueReferencePair) SetValue( value string, )
func (*ValueReferencePair) SetValueID ¶
func (vrp *ValueReferencePair) SetValueID( value IReference, )
func (*ValueReferencePair) Value ¶
func (vrp *ValueReferencePair) Value() string
func (*ValueReferencePair) ValueID ¶
func (vrp *ValueReferencePair) ValueID() IReference