DeterministicImperative¶
Fully qualified class name: DDICDIModels::DDICDILibrary::Classes::Process::DeterministicImperative
Definition¶
Deterministic imperative is a subtype of control logic. Deterministic control logic consists of control constructs.
Examples¶
A Loop control construct is deterministic control logic. A script is deterministic control logic.
Explanatory notes¶
Because control logic covers both deterministic and non-deterministic forms, it has been divided into the appropriate subtypes.
Diagram
Inheritance
Attributes
Name |
Inherited from |
Description |
Data Type |
Multiplicity |
Default value |
---|---|---|---|---|---|
description |
A description of the control logic in human-readable language. |
String |
0..1 |
||
displayLabel |
A human-readable display label for the object. Supports the use of multiple languages. Repeat for labels with different content, for example, labels with differing length limitations. |
0..* |
|||
identifier |
Identifier for objects requiring short- or long-lasting referencing and management. |
0..1 |
|||
name |
Human understandable name (linguistic signifier, word, phrase, or mnemonic). May follow ISO/IEC 11179-5 naming principles, and have context provided to specify usage. |
0..* |
|||
workflow |
Reference to the system or standard from which the workflow was taken. |
0..1 |
Associations
Direction |
Association |
Description |
Multiplicity of DeterministicImperative |
Package of Other Class |
Other Class |
Multiplicity of other class |
Aggregation Kind |
Inherited from |
---|---|---|---|---|---|---|---|---|
to |
Activity hasInternal ControlLogic |
An activity is embedded in the control construct which launches it. |
0..* |
- own package - |
0..* |
none |
||
from |
ControlLogic has InformationFlowDefinition |
A control construct has zero or more information flow definitions each of which provides the control construct with zero or more input and output parameters used or produced in the step/sub-step with which it is associated. |
0..* |
- own package - |
0..* |
shared |
||
to |
ControlLogic hasSubControlLogic ControlLogic |
Control logic is a container of control logic which is in turn a container of control logic ad infinitum so that it is able to represent the structure of a program. |
0..* |
- own package - |
0..1 |
none |
||
from |
ControlLogic informs ProcessingAgent |
Control logic informs a processing agent. The information may be deterministic or non-deterministic. |
0..* |
- own package - |
0..* |
none |
||
from |
ControlLogic invokes Activity |
Control logic invokes an activity deterministically (either conditionally or unconditionally) or non-derministically (based on temporal constraints or rule-based scheduling). |
0..* |
- own package - |
1..* |
none |
Syntax representations / encodings
All syntax representations except the Canonical XMI are provided as reference points for specific implementations, or for use as defaults if sufficient in the form presented.
Fragment for the class DeterministicImperative (entire model as XMI)
1<packagedElement xmlns:StandardProfile="http://www.eclipse.org/uml2/5.0.0/UML/Profile/Standard"
2 xmlns:uml="http://www.eclipse.org/uml2/5.0.0/UML"
3 xmlns:xmi="http://www.omg.org/spec/XMI/20131001"
4 xmi:id="DDICDIModels-DDICDILibrary-Classes-Process-DeterministicImperative"
5 xmi:uuid="http://ddialliance.org/Specification/DDI-CDI/1.0/XMI/#DeterministicImperative"
6 xmi:type="uml:Class">
7 <ownedComment xmi:id="DDICDIModels-DDICDILibrary-Classes-Process-DeterministicImperative-ownedComment"
8 xmi:uuid="http://ddialliance.org/Specification/DDI-CDI/1.0/XMI/#DeterministicImperative-ownedComment"
9 xmi:type="uml:Comment">
10 <annotatedElement xmi:idref="DDICDIModels-DDICDILibrary-Classes-Process-DeterministicImperative"/>
11 <body>Definition
12============
13Deterministic imperative is a subtype of control logic. Deterministic control logic consists of control constructs.
14
15Examples
16==========
17A Loop control construct is deterministic control logic. A script is deterministic control logic.
18
19Explanatory notes
20===================
21Because control logic covers both deterministic and non-deterministic forms, it has been divided into the appropriate subtypes.</body>
22 </ownedComment>
23 <name>DeterministicImperative</name>
24 <generalization xmi:id="DDICDIModels-DDICDILibrary-Classes-Process-DeterministicImperative-generalization"
25 xmi:uuid="http://ddialliance.org/Specification/DDI-CDI/1.0/XMI/#DeterministicImperative-generalization"
26 xmi:type="uml:Generalization">
27 <general xmi:idref="DDICDIModels-DDICDILibrary-Classes-Process-ControlLogic"/>
28 </generalization>
29</packagedElement>
Fragment for the class DeterministicImperative (entire XML Schema)
1<xs:element name="DeterministicImperative"
2 type="DeterministicImperativeXsdType"
3 xml:id="DeterministicImperative">
4 <!-- based on the UML class DDICDIModels::DDICDILibrary::Classes::Process::DeterministicImperative -->
5 <xs:annotation>
6 <xs:documentation>Definition
7 ============
8 Deterministic imperative is a subtype of control logic. Deterministic control logic consists of control constructs.
9
10 Examples
11 ==========
12 A Loop control construct is deterministic control logic. A script is deterministic control logic.
13
14 Explanatory notes
15 ===================
16 Because control logic covers both deterministic and non-deterministic forms, it has been divided into the appropriate subtypes.</xs:documentation>
17 </xs:annotation>
18</xs:element>
19<xs:complexType name="DeterministicImperativeXsdType"
20 xml:id="DeterministicImperativeXsdType">
21 <xs:annotation>
22 <xs:documentation>Definition
23 ============
24 Deterministic imperative is a subtype of control logic. Deterministic control logic consists of control constructs.
25
26 Examples
27 ==========
28 A Loop control construct is deterministic control logic. A script is deterministic control logic.
29
30 Explanatory notes
31 ===================
32 Because control logic covers both deterministic and non-deterministic forms, it has been divided into the appropriate subtypes.</xs:documentation>
33 </xs:annotation>
34 <xs:complexContent>
35 <xs:extension base="ControlLogicXsdType">
36
37 </xs:extension>
38 </xs:complexContent>
39</xs:complexType>
Fragment for the class DeterministicImperative (main ontology)
1# class DeterministicImperative
2# based on the UML class DDICDIModels::DDICDILibrary::Classes::Process::DeterministicImperative
3cdi:DeterministicImperative
4 a rdfs:Class, owl:Class, ucmis:Class;
5 rdfs:label "DeterministicImperative";
6 rdfs:comment "Definition \n============ \nDeterministic imperative is a subtype of control logic. Deterministic control logic consists of control constructs. \n\nExamples \n========== \nA Loop control construct is deterministic control logic. A script is deterministic control logic. \n\nExplanatory notes \n=================== \nBecause control logic covers both deterministic and non-deterministic forms, it has been divided into the appropriate subtypes."@en;
7 rdfs:subClassOf cdi:ControlLogic;
8.
Fragment for the class DeterministicImperative (main JSON-LD)
1{
2 "@context": [
3 "ControlLogic.jsonld",
4 {
5 "cdi": "http://ddialliance.org/Specification/DDI-CDI/1.0/RDF/",
6 "xsd": "http://www.w3.org/2001/XMLSchema#",
7 "DeterministicImperative": "cdi:DeterministicImperative",
8
9 " comment ": "tag:json-should-support-trailing-commas"
10 }
11 ],
12 "generatedBy": "This code was generated by the Eclipse Acceleo project UCMIS M2T on 2024-09-23 21:53:00.",
13 "basedOn": "based on the UML data type DDICDIModels::DDICDILibrary::Classes::Process::DeterministicImperative"
14}