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Notes on how the linkml slot model aligns with UML 2.5.1.

This document describes how the following UML model: UML Sample

Is represent using 1) the UML metamodel and 2) the linkml modeling language.

UML Metamodel representation

Referring to the UML 2.5.1 Specification:

Using the model below as a reference point:

Figure 9.10 Properties

Ignoring some irrelevant generalities form the UML model (e.g. data types and interfaces can also have Properties), a Property represents an attribute of a Class. Every Property is owned by exactly one Class. Every Property can (but doesn't have to) have a name. Every Property has an optional MultiplicityElement, inherited through Structuralfeature (below), which defines the lower and upper cardinality of the Property.

Figure 7.1 MultiplicityElement Figure 9.9 Features

The above model allows us to make the following assertions about our example:

  • :prop1 name "prop1"
  • :prop1 lower 0
  • :prop1 upper 1
  • :prop2 name "prop2"
  • :prop2 lower 0
  • :prop2 upper UnlimitedNatural
  • :Class 1 ownedAttribute :prop1

Note, however, that there isn't an ownedAttribute between :Class 2 and :prop2. This is because of
navigability -- the arrow goes between :Class 1 and :Class 2, but not the reverse, meaning that instances of :Class 1 "know about" their :prop 1 links to :Class 2, but :Class 2 instances have no knowledge of the reverse.

UML adds a second component to make the model complete: Figure 11.25

An Association has 2 memberEnds. In addition, an Association owns (ownsEnd) any Property that is not owned by a class. To complete our model above we add:

  • :assoc1 name "assoc1"
  • :assoc1 memberEnd *:prop1
  • :prop1 association :assoc1
  • :assoc1 memberEnd :prop2
  • :prop2 association :prop2
  • :assoc1 ownedEnd :prop2
  • :assoc2 navigableOwnedEnd :prop2

We can now get from :Class 1 to ownedAttribute :prop 1 to association :assoc1 to navigableOwnedEnd :prop2. :Class 2, however, is not "aware" of any attributes at all.

LinkML Model Equivalent

The following diagram shows how slots (attributes) are represented in the LinkML model: LinkML Slot

N.B. This is a metamodel, akin to the UML metamodels above.

For our purposes, the linkml Class Definition is analogous to the UML Class, with the following simplifications:

  1. All Property instances must be named either "domain" or "range"
  2. All Association instances must have one memberEnd named "domain" and a second "range"
  3. There are two possibility navigability choices:
    1. The "range" Property is navigable
    2. Neither the "domain" or the "range" Property is navigable
  4. The cardinality of the "domain" property is always 0..*
  5. The lower cardinality of the "range" property is 0 if required is false else 1
  6. The upper cardinality of the "range" property is 1 if multiValued is false else *

Given the following linkml definition

slots:
    assoc1:
      domain: Class 1
      range: Class 2
      multivalued: true
      required: false

classes:
    Class 1:
      slots:
        - assoc1

Note: the domain and required elements are not necessary in this example. The default for required is already false, and, when a slot is named in the class.slots entry, the domain is checked for matching the slot domain and, if not present, it is added)

The equivalent UML model for this definition would be:

Navigable model

This model would result in the following UML instances:

  • :prop1 name "domain"
  • :prop1 lower 0
  • :prop1 upper 1
  • :prop1 association :assoc1
  • :prop2 name "range"
  • :prop2 lower 0
  • :prop2 upper UnlimitedNatural
  • :prop2 association :assoc1
  • :Class 1 ownedAttribute :prop1
  • :assoc1 name "assoc1"
  • :assoc1 memberEnd :prop1
  • :assoc1 memberEnd :prop2
  • :assoc1 ownedEnd :prop2
  • :assoc2 navigableOwnedEnd :prop2

An interesting case is:

slots:
    assoc2:
      domain: Class 1
      range: Class 2
      multivalued: true
      required: false

classes:
    Class 1:

Where the UML equivalent is:

NonNavigable model

(The "X" exists to differentiate this model from one where navigability is not specified)

This model would result in the following UML instances:

  • :prop1 name "domain"
  • :prop1 lower 0
  • :prop1 upper 1
  • :prop1 association :assoc2
  • :prop2 name "range"
  • :prop2 lower 0
  • :prop2 upper UnlimitedNatural
  • :prop2 association :assoc2
  • :assoc2 name "assoc2"
  • :assoc2 memberEnd :prop1
  • :assoc1 memberEnd :prop2
  • :assoc1 ownedEnd :prop2
  • :assoc2 ownedEnd :prop1
  • :assoc2 navigableOwnedEnd :prop1
  • :assoc2 navigableOwnedEnd :prop2

This is a rather uncommon situation in the UML world -- it means that neither clase is "aware" of the fact that it participates in an association, and, as such, validation cannot occur on the class level. Validation can, however, occur when presented with an instance of assoc2 with the following tests being possible:

  1. Verify that the ownedEnd named "domain" is an instance of Class 1
  2. Verify that all instances of the ownedEnd named "range" are instances of Class 2
  3. If multivalued is false, verify that there is at most one instance of assoc2 whose domain is Class 1
  4. If required is true, and a closed world assumption(!) verify that there is at least one instance of assoc2 whose domain is Class 1