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This document specifies the IMX model mapping. The IMX model mapping expresses a mapping between one or more source data models, to a target data model, and is designed to be used as configuration for an IMX orchestration process.
This is a stable draft, published for public comment. Comments regarding this document may be sent to
This section is non-normative.
This document describes a proposed standard for mapping logical source data models to a logical target data model, in the context of IMX.
In 7. Annex-1 Mapping specifications in excel the actual mapping specifications of the IMX-Geo model are presented. These are presented in an excel spreadsheet and serve as input for the machine readable YAML formalisation presented in this document.
This section is non-normative.
The mapping is implementation independent
An important design principle is that the mapping should be independent of technical implementations, data format, or data modeling standards. This allows for broad use of the mapping across disparate data sources and environments.
The mapping is declarative
The mapping should be declarative. By declarative we mean that the mapping is described in a high level abstract language, describing the intent of the mapping, without explicit procedural logic. This affords various different usage scenario's, like employing different procedural strategies during the execution of the mapping, while keeping the mapping simple to express.
The mapping is expressed in terms of logical models
In order to be independent of technical data models and corresponding data formats, the mapping should be expressed at the logical level. A logical data model establishes the structure of data items, and their relationships, yet is independent of their technical implementation. This contributes to the mappings implementation independence.
The mapping is independent of data modeling standards
Their exist a variety of different data modeling standards, all with their own intricacies in the way they define data items. The mapping should be independent of these. This will allow for broad applicability of the mapping.
This section is non-normative.
The IMX model mapping plays an important role in the reference architecture of the IMX orchestration process. The mapping serves as a translation from one or more source model based API data sources towards a target model based API data source.
The IMX model mapping is the core of what drives the orchestration process that will handle requests to the target API.
The IMX orchestration process is an activity which can answer requests on a target data source, generated in accordance with a target model, by orchestrating requests on the underlying source data sources, which correspond with source models, driven by a IMX model mapping, combining the results.
The orchestration process is carried out by an IMX orchestration engine. An IMX orchestration engine is a software component which takes an IMX model mapping, one or more source models and source data sources, and a target model, and generates a target data source in accordance with the target model which carries out he orchestration process.
A data source is an entity which provides access to a dataset.
A source data source is a data source which acts as a source in an orchestration process.
A target data source is a data source which acts as the target in an orchestration process.
The default way of expressing a model mapping is in [YAML] format. In recent years, [YAML] has emerged as a concise, readable format to represent information, which is widely applied as a configuration file format.
To make the IMX mapping and orchestration independent of underlying modeling standards and implementations, a simple internal logical data model representation is used, to which a source model must be mapped.
A model is the representation of a logical data model which can be used in an IMX orchestration engine.
A logical data model is used to define data items which which are used to describe objects.
A data item consists of a subject, a property and a value, which together represent an elementary statement about an object.
An object is anything that is the subject of a data item. A contextually grouped set of data items about the same object forms a data object.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
name | 1..1 | The name of the model. |
Overview relations
Name | Multiplicity | Definition |
---|---|---|
objectType | 0..* | A relation pointing to an object type that is part of the model. |
An object type represents the set of a type of object.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
name | 1..1 | The name of the object type. |
Overview relations
Name | Multiplicity | Definition |
---|---|---|
property | 0..* | A relation pointing to a property. |
identityProperty | 0..* | A relation pointing to a property which is identifying for the property-bearing object type. |
A filter mapping speficies how to filter source objects matching the target object.
Overview relations
Name | Multiplicity | Definition |
---|---|---|
property | 0..* | A relation pointing to a target object's property. |
operator | 0..* | A relation pointing to an operator which expresses a filter operation on the target object's property . |
sourcePath | 0..* | A relation pointing to a path on the objects of the source object type. |
A filter operator specifies which operation is to be used to filter the matching source objects.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
type | 0..* | The operator type . |
A property is a predicate which is used to express a data item about an object.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
name | 1..1 | The name of the property. |
isIdentifier | 1..1 | Indication whether the property is identifying. |
multiplicity | 1..1 | The multiplicity of the property. |
A multiplicity is an enumeration item which is used to express how many times a data item with the same property, and the same subject, can be expected to occur.
Overview enumeration items
Name | Definition |
---|---|
required | Occurs exactly once. |
optional | Can occur at most once. |
multi | Can occur multiple times. |
A relation is a property which expresses a relationship between the relation-bearing object and a target object. It is a sub-type of Property.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
inverseName | 1..1 | The inverse name of the relation, to be used to traverse the relation in the inverse direction. |
inverseCardinality | 1..1 | The inverse cardinality of the relation. |
keyMapping | 0..1 | A map (String -> Object) defining the mapping the source object type key properties to the target key properties. |
Overview relations
Name | Multiplicity | Definition |
---|---|---|
target | 0..* | The object type that is the target of the relation. |
filterMapping | 0..* | A relation pointing to a filter mapping to filter the matching source objects. |
An attribute is a property which expresses a characteristic about an object.
Overview relations
Name | Multiplicity | Definition |
---|---|---|
type | 1..1 | The value type that is the type of the value of the data item expressing the attribute. |
A value type is a type of an attribute-expressing data item.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
name | 1..1 | The name of the value type. |
A scalar type is a value type which is a scalar.
Common examples of scalars are:
A geometry type is a value type which represents a geometry.
A source model is a model which is used to define the structure of data items in a source data source in an IMX orchestration process.
A target model is a model which is used to define the structure of data items in the target data source in an IMX orchestration process.
A model mapping is a set of declarations which afford the combination and translation of one ore more source data model based data sources to a target data model based data source.
Overview relations
Name | Multiplicity | Definition |
---|---|---|
targetModel | 1..1 | A relation pointing to a target model. |
sourceModel | 0..* | A relation pointing to a source model. |
sourceRelation | 0..* | A relation pointing to a source relation mapping. |
objectTypeMapping | 1..* | A relation pointing to an object type mapping. |
pathMapping | 0..* | A relation pointing to a reusable named path mapping. |
An object type ref represents a reference to an object type. A reference is expressed using a model alias and the name of an object type.
A model alias is a string of characters that uniquely identifies a model in an IMX orchestration process.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
modelAlias | 1..1 | The alias of a source model. |
objectTypeName | 1..1 | The name of the object type. |
A source root is a set of declarations which express the starting point for path evaluations.
Overview relations
Name | Multiplicity | Definition |
---|---|---|
type | 1..1 | A relation pointing to a object type ref. |
A source relation mapping is a set of declarations which define a virtual relation between object types in one or more source models. Virtual, in that the relation does not actually exist in the source models, but exists for the mapping process, through this mapping.
A relation defined through a source relation mapping can be used just as any other relation within object type mappings.
Overview relations
Name | Multiplicity | Definition |
---|---|---|
sourceType | 1..1 | A relation pointing to a object type ref, indicating the source object type of the relation. |
property | 1..1 | A relation pointing to a newly defined relation. |
An object type mapping is a set of declarations which express the mapping of one or more source model based data items using its object type mapping sets.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
objectTypeName | 0..* | The name of the object type in the target model which is the target of this object type mapping. |
Overview relations
Name | Multiplicity | Definition |
---|---|---|
mappingSet | 1..* | A relation pointing to a object type mapping set. |
An object type mapping set is a set of declarations which express the mapping of one or more data items using a specicic source root to a target-model-object-type-based data object.
Overview relations
Name | Multiplicity | Definition |
---|---|---|
sourceModel | 1..* | A relation pointing to a source model. |
targetModel | 1..1 | A relation pointing to a target model. |
sourceRoot | 1..1 | A relation pointing to a object type ref. |
propertyMapping | 0..* | A relation pointing to a property mapping. |
A property mapping is a set of declarations which express the mapping of a target object type property within an object type mapping.
A property mapping can be expressed through a sinlge path mapping, or can be the result of a combination of path mappings by applying its specified combiner.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
propertyName | 0..* | The name of the property in the target model which is the target of this property type mapping. |
Overview relations
Name | Multiplicity | Definition |
---|---|---|
pathMapping | 0..* | A relation that results in an ordered, non-unique sequence of path mappings. |
combiner | 0..1 | A relation pointing to a result combiner. |
A path mapping is a set of declarations which express references to data items of data objects of source data sources and actions on those.
A path mapping evaluation is the evaluation of a path mapping yielding a path mapping result, which serves as input for the property mapping.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
name | 0..* | The name of the path mapping. |
Overview relations
Name | Multiplicity | Definition |
---|---|---|
path | 1..1 | A relation that points to a path. |
andThen | 0..* | A relation that results in an ordered, non-unique sequence of path mappings that are to be evaluated after this path mapping. |
map | 0..* | A relation that results in an ordered, non-unique sequence of result mappers. |
ifMatch | 0..1 | A relation that points to a matcher. |
ifMatchType | 0..1 | A relation that points to a object type ref. |
repeat | 0..1 | A relation that points to a path repeat. |
A path, or path expression, is a set of declarations which, conceptually, represent a possible route through a graph of data items. A path is comprised of an ordered, non-unique sequence of segments. Each segment represents a step in that route.
A segment is a string that represents a property reference.
A property reference is a string that matches the name of a property in a data item in a source data source.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
segment | 1..* | An ordered, non-unique sequence of segment strings. |
A path repeat is a set of declarations which describe how the path mapping evaluation should be repeated.
Overview relations
Name | Multiplicity | Definition |
---|---|---|
untilMatch | 1..1 | A relation that points to a matcher, which, when it matches, stops the repetition. |
A component is an abstract class of things that can process the result of one or more path mapping evaluations and produce a new result.
Overview attributes
Name | Multiplicity | Definition |
---|---|---|
type | 1..1 | The type of the component. |
options | 0..1 | A map (String -> Object) of options that the component can use to create results. |
A result combiner is a component which takes as input the result of a previous element in a sequence and combines it with the current element in the sequence.
A result mapper is a component which takes the result of a path mapping evaluation and maps it to a new result.
A matcher is a component which takes the result of a path mapping evaluation and returns true when it matches the result and false when it does not.
A YAML IXM Model Mapping document is a concrete representation of an instance of a model mapping expressed in [YAML].
A YAML IXM Model Mapping document MUST be encoded in [UTF-8].
The root node of a mapping document, the ModelMapping
node represents the model mapping.
A ModelMapping node MUST express exactly one sourceModels
key, of which the value is a mapping node of SourceModel nodes.
A ModelMapping node MUST express exactly one targetModel
key, of which the value is a mapping node of TargetModel nodes.
A ModelMapping node MUST express zero or one sourceRelations
key, of which the value is a sequence node of SourceRelation nodes.
A ModelMapping node MUST express zero or one objectTypeMappings
key, of which the value is a mapping node of ObjectTypeMapping nodes.
A SourceModel
node expresses a source model. It is represented by a sequence node of key/value pairs. The key of each key/value pair is the model alias of the source model. The value in the key/value pair is a ModelReference node referencing the source model definitions.
A TargetModel
node expresses a target model. It is represented by a
key/value pair. The key of the key/value pair is the model alias of the target model. The value in the key/value pair is a ModelReference node referencing the target model definitions.
A ModelReference
node is represented by a mapping node.
The mapping node MUST have:
location
, whose value is a string which expresses the file path of the mapping source file.profile
, whose value is a string which identifies the profile of the model. The profile will be used to by the orchestration engine to load the model using the appropriate model loader.A SourceRelation
node expresses a source relation mapping. It is represented by a mapping node.
It MUST have a sourceType
key, whose value is an ObjectTypeRef node.
It MUST have a property
key, whose value is a Property node.
A Property
node is a mapping node representing a relation property.
It MUST have a name
key with a string value representing the name of the relation.
It MUST have a target
key with an ObjectTypeRef node value, representing the target object type of the relation.
It MUST have a cardinality
key with a valid cardinality string value.
It MUST have an inverseName
key with a string value representing the inverse name of the relation.
It MUST have an inverseCardinality
key with a string value representing the inverse cardinality of the relation.
It MUST either have:
keyMapping
key whose value is a KeyMapping node.filterMappings
key whose value is a sequence node of FilterMapping nodes.A KeyMapping
node is a mapping node which defines the match of a source relation mapping's target object's key property, by using the name of the key properties as its keys and the names of the key value matching properties of the source relation mapping's source object as the corresponding values.
A FilterMapping
node is a mapping node representing a filter mapping.
It MUST have a property
key with a string value property reference, that is the value of the name of the referenced property of the source relation mapping's target object.
It MUST have an operator
key whose value is a FilterOperator node.
It MUST have a sourcePath
key whose value is a Path node which expresses a value of the relation the source relation mapping's source object.
A FilterOperator
node is a mapping node representing a filter operator.
It MUST have a type
key with a string value indicating the type of operator.
An ObjectTypeMapping
node expresses an object type mapping. It is represented by a key/value pair within the mapping node that is the value of the objectTypeMappings
key. The key in the key/value pair is the objectTypeName
of the object type mapping. The value in the key/value pair is a sequence node that represents the set of object type mapping sets of which each item is aObjectTypeMappingSet node
An ObjectTypeMappingSet
node expresses an object type mapping set.
An ObjectTypeMappingSet node MUST have a sourceRoot
key, which represents the source root and whose value MUST be an ObjecttypeRef node as a shorthand for the SourceRoot node.
An ObjectTypeMapping node MUST have zero or one propertyMappings
key, whose value is a mapping node representing PropertyMapping nodes.
A SourceRoot
node represents a source root. It is represented by a mapping node. The mapping node MUST have a key type
whose value is an ObjectTypeRef node.
An ObjectTypeRef
node represents an object type ref. It is a generic string scalar node with the following pattern {modelAlias}:{objectTypeName}
, where {modelAlias}
is the model alias of a source model, and {objectTypeName}
is the name of the object type in that source model.
A PropertyMapping
node expresses a property mapping. It is represented by a key/value pair within the mapping node that is the value of the propertyMappings
key. The key in the key/value pair is the propertyName
of the Property Mapping.
A PropertyMapping node MUST have one pathMappings
or pathMapping
key, whose value is a sequence node, representing PathMapping nodes, or a mapping node, representing a PathMapping node respectively.
The evaluation of the path mapping(s) SHOULD yield a path mapping result that matches the type of the property in the target model which is referenced by propertyName
.
A PropertyMapping node MUST have zero or one combine
key, whose value is a ResultCombiner node.
A PathMapping
node expresses a path mapping. It is represented by a key/value pair, or a generic string scalar node, within the mapping node that is the value of the pathMappings
key.
A key-value PathMapping
node MUST have one paths
or path
key, whose value is a sequence node representing path expressions, or mapping node representing a path expression respectively.
A string scalar PathMapping
node is a path expression.
A key-value PathMapping node MUST have zero or one ifMatchType
key, whose value is a ObjectTypeRef node. When specified, this path mapping is only evaluated if the source root in the current property mapping evaluation matches.
A key-value PathMapping node MUST have zero or one map
key, whose value is a either a sequence node of ResultMapper nodes, or a single ResultMapper node.
A key-value PathMapping node MUST have zero or one andThen
key, whose value is either a sequence node of PathMapping nodes, or a single PathMapping node.
A key-value PathMapping node MUST have zero or one ifMatch
key, whose value is a Matcher node.
When a PathMapping node is the value of an andThen
key, the ifMatch
matcher is evaluated on the path mapping result of the andThen
bearing path mapping.
A Path
node expresses a path. It is represented by a mapping node, or a path expression.
A propertyMappingNode
-Path
MUST have exactly one expression
key, whose value is a Path expression node.
A MappingNode-Path MUST have zero or one combiner
key, whose value is a ResultCombiner node.
A Path
expression node is a generic string scalar node that expresses a path. Segments of the path are separated by a /
character.
A Component
node is a mapping node which MUST have
type
which determines the type of the component.options
, whose value is a mapping node which defines the options for the component.c
A ResultCombiner
node is a Component node. It represents a result combiner.
A ResultMapper
node is a Component node. It represents a result mapper.
ggit
A Matcher
node is a Component node. It represents a matcher.
This annex contains the mapping specifications as they are designed to map the IMX-Geo model elements to the basemodels. These mapping specifications are described in an excel spreadsheet and are the input for formulation of the machine readable YAML mapping specifications as they are developed and presented in this document. The mappings specifications furthermore are input for developing the content of the knowledge graph.
The mapping specifications consist of mapping/relating information elements from the IMX-Geo model to information elements from the models of key registers or any model that is considered and included as a source model of the IMX-Geo cross domain model.
Typically the mapping specifications follow this context chain: domain - objecttype - property - valuetype.
The excel doc containing the mapping specifications is accesible through this link: mappingspecifications
The excel contains a number of columns of which the content is explained in the excel itself.
This annex contains the mapping specifications from 7. Annex-1 Mapping specifications in excel in the form of a YAML IXM Model Mapping document.
As well as sections marked as non-normative, all authoring guidelines, diagrams, examples, and notes in this specification are non-normative. Everything else in this specification is normative.
The key words MUST and SHOULD in this document are to be interpreted as described in BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here.
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