systemcomposer.interface.DataElement
Description
A DataElement
object represents a data element in a data
interface.
Creation
Create a data element using the addElement
function.
element = addElement(interface,'newElement')
Properties
Interface
— Parent data interface of data element
data interface object
Parent data interface of data element, specified as a systemcomposer.interface.DataInterface
object.
Name
— Data element name
character vector | string
Data element name, specified as a character vector or string.
Example: 'newElement'
Data Types: char
| string
Type
— Type of data element
data interface object | value type object
Type of data element, specified as a systemcomposer.interface.DataInterface
or systemcomposer.ValueType
object.
Dimensions
— Dimensions of data element
character vector | string
Dimensions of data element, specified as a character vector or string.
Data Types: char
| string
Description
— Description of data element
character vector | string
Description of data element, specified as a character vector or string.
Data Types: char
| string
ExternalUID
— Unique external identifier
character vector
Unique external identifier, specified as a character vector. The external ID is preserved over the lifespan of the element and through all operations that preserve the UUID
.
Data Types: char
UUID
— Universal unique identifier
character vector
Universal unique identifier, specified as a character vector.
Example: '91d5de2c-b14c-4c76-a5d6-5dd0037c52df'
Data Types: char
Object Functions
moveInterface | Move interface to another data dictionary |
setName | Set name for value type, function argument, interface, or element |
setType | Set shared type on data element or function argument |
setDimensions | Set dimensions for value type |
setUnits | Set units for value type |
setComplexity | Set complexity for value type |
setMinimum | Set minimum for value type |
setMaximum | Set maximum for value type |
setDescription | Set description for value type or interface |
createOwnedType | Create owned value type on data element or function argument |
destroy | Remove model element |
Examples
Build Architecture Models Programmatically
Build an architecture model programmatically using System Composer™.
To build a model, add a data dictionary with data interfaces, data elements, a value type, and a physical interface, then add components, ports, and connections. Create a profile with stereotypes and properties and then apply those stereotypes to model elements. Assign an owned interface to a port. After the model is built, you can create custom views to focus on specific considerations. You can also query the model to collect different model elements according to criteria you specify.
Add Components, Ports, Connections, and Interfaces
Create a model and extract its architecture.
model = systemcomposer.createModel("mobileRobotAPI");
arch = model.Architecture;
Create an interface data dictionary and add a data interface. Add a data element to the data interface. Add a value type to the interface data dictionary. Assign the type of the data element to the value type. Add a physical interface and physical element with a physical domain type. Link the data dictionary to the model.
dictionary = systemcomposer.createDictionary("SensorInterfaces.sldd"); interface = dictionary.addInterface("GPSInterface"); element = interface.addElement("SignalStrength"); valueType = dictionary.addValueType("SignalStrengthType",Units="dB", ... Description="GPS Signal Strength"); element.setType(valueType); physicalInterface = dictionary.addPhysicalInterface("PhysicalInterface"); physicalElement = addElement(physicalInterface,"ElectricalElement", ... Type="electrical.electrical"); linkDictionary(model,"SensorInterfaces.sldd");
Save the changes to the interface data dictionary.
dictionary.save
Save the model.
model.save
Open the model.
systemcomposer.openModel("mobileRobotAPI");
View the interfaces in the Interface Editor.
Add components, ports, and connections. Set the physical interface to the physical ports, which you connect later.
componentSensor = addComponent(arch,"Sensor"); sensorPorts = addPort(componentSensor.Architecture,{'MotionData','SensorPower'}, ... {'in','physical'}); sensorPorts(2).setInterface(physicalInterface) componentPlanning = addComponent(arch,"Planning"); planningPorts = addPort(componentPlanning.Architecture, ... {'Command','SensorPower1','MotionCommand'}, ... {'in','physical','out'}); planningPorts(2).setInterface(physicalInterface) componentMotion = addComponent(arch,"Motion"); motionPorts = addPort(componentMotion.Architecture,{'MotionCommand','MotionData'}, ... {'in','out'});
Create an owned interface on the MotionData
port. Add an owned data element under the owned data interface. Assign the data element Rotation
to a value type with units set to degrees
.
ownedInterface = motionPorts(2).createInterface("DataInterface"); ownedElement = ownedInterface.addElement("Rotation"); subInterface = ownedElement.createOwnedType(Units="degrees");
View the interfaces in the Interface Editor. Select the MotionData
port on the Motion
component. In the Interface Editor, switch from Dictionary View to Port Interface View.
Connect components with an interface rule and the default name rule. The interface rule connects ports on components that share the same interface. By default, the name rule connects ports on components that share the same name.
c_sensorData = connect(arch,componentSensor,componentPlanning,Rule="interface");
c_motionData = connect(arch,componentMotion,componentSensor);
c_motionCommand = connect(arch,componentPlanning,componentMotion);
Add and Connect Architecture Port
Add an architecture port on the architecture.
archPort = addPort(arch,"Command","in");
The connect
command requires a component port as an argument. Obtain the component port, then connect.
compPort = getPort(componentPlanning,"Command");
c_Command = connect(archPort,compPort);
Save the model.
model.save
Arrange the layout by pressıng Ctrl+Shift+A or using this command.
Simulink.BlockDiagram.arrangeSystem("mobileRobotAPI");
Create and Apply Profile with Stereotypes
Profiles are XML files that you can apply to any model. You can add stereotypes with properties to profiles and then populate the properties with specific values in the Profile Editor. Along with the built-in analysis capabilities of System Composer, stereotypes help you optimize your system for performance, cost, and reliability.
Create Profile and Add Stereotypes
Create a profile.
profile = systemcomposer.createProfile("GeneralProfile");
Create a stereotype that applies to all element types.
elemSType = addStereotype(profile,"projectElement");
Create stereotypes for different types of components. You select these types according to your design needs.
pCompSType = addStereotype(profile,"physicalComponent",AppliesTo="Component"); sCompSType = addStereotype(profile,"softwareComponent",AppliesTo="Component");
Create a stereotype for connections.
sConnSType = addStereotype(profile,"standardConn",AppliesTo="Connector");
Add Properties
Add properties to the stereotypes. You can use properties to capture metadata for model elements and analyze nonfunctional requirements. These properties are added to all elements to which the stereotype is applied, in any model that imports the profile.
addProperty(elemSType,'ID',Type="uint8"); addProperty(elemSType,'Description',Type="string"); addProperty(pCompSType,'Cost',Type="double",Units="USD"); addProperty(pCompSType,'Weight',Type="double",Units="g"); addProperty(sCompSType,'develCost',Type="double",Units="USD"); addProperty(sCompSType,'develTime',Type="double",Units="hour"); addProperty(sConnSType,'unitCost',Type="double"',Units="USD"); addProperty(sConnSType,'unitWeight',Type="double",Units="g"); addProperty(sConnSType,'length',Type="double",Units="m");
Save Profile
profile.save;
Apply Profile to Model
Apply the profile to the model.
applyProfile(model,"GeneralProfile");
Apply stereotypes to components. Some components are physical components, while others are software components.
applyStereotype(componentPlanning,"GeneralProfile.softwareComponent") applyStereotype(componentSensor,"GeneralProfile.physicalComponent") applyStereotype(componentMotion,"GeneralProfile.physicalComponent")
Apply the connector stereotype to all connections.
batchApplyStereotype(arch,'Connector',"GeneralProfile.standardConn");
Apply the general element stereotype to all connectors and ports.
batchApplyStereotype(arch,'Component',"GeneralProfile.projectElement"); batchApplyStereotype(arch,'Connector',"GeneralProfile.projectElement");
Set properties for each component.
setProperty(componentSensor,'GeneralProfile.projectElement.ID','001'); setProperty(componentSensor,'GeneralProfile.projectElement.Description', ... 'Central unit for all sensors'); setProperty(componentSensor,'GeneralProfile.physicalComponent.Cost','200'); setProperty(componentSensor,'GeneralProfile.physicalComponent.Weight','450'); setProperty(componentPlanning,'GeneralProfile.projectElement.ID','002'); setProperty(componentPlanning,'GeneralProfile.projectElement.Description', ... 'Planning computer'); setProperty(componentPlanning,'GeneralProfile.softwareComponent.develCost','20000'); setProperty(componentPlanning,'GeneralProfile.softwareComponent.develTime','300'); setProperty(componentMotion,'GeneralProfile.projectElement.ID','003'); setProperty(componentMotion,'GeneralProfile.projectElement.Description', ... 'Motor and motor controller'); setProperty(componentMotion,'GeneralProfile.physicalComponent.Cost','4500'); setProperty(componentMotion,'GeneralProfile.physicalComponent.Weight','2500');
Set the properties of connections to be identical.
connections = [c_sensorData c_motionData c_motionCommand c_Command]; for k = 1:length(connections) setProperty(connections(k),'GeneralProfile.standardConn.unitCost','0.2'); setProperty(connections(k),'GeneralProfile.standardConn.unitWeight','100'); setProperty(connections(k),'GeneralProfile.standardConn.length','0.3'); end
Add Hierarchy
Add two components named Controller
and Scope
inside the Motion
component. Define the ports. Connect the components to the architecture and to each other, applying a connector stereotype. Hierarchy in an architecture diagram creates an additional level of detail that specifies how components behave internally.
motionArch = componentMotion.Architecture; motionController = motionArch.addComponent('Controller'); controllerPorts = addPort(motionController.Architecture,{'controlIn','controlOut'}, ... {'in','out'}); controllerCompPortIn = motionController.getPort('controlIn'); controllerCompPortOut = motionController.getPort('controlOut'); motionScope = motionArch.addComponent('Scope'); scopePorts = addPort(motionScope.Architecture,{'scopeIn','scopeOut'},{'in','out'}); scopeCompPortIn = motionScope.getPort('scopeIn'); scopeCompPortOut = motionScope.getPort('scopeOut'); c_planningController = connect(motionPorts(1),controllerCompPortIn);
For output port connections, you can specify the destination data element.
c_planningScope = connect(scopeCompPortOut,motionPorts(2),DestinationElement="Rotation"); c_planningConnect = connect(controllerCompPortOut,scopeCompPortIn, ... "GeneralProfile.standardConn");
Save the model.
model.save
Arrange the layout by pressıng Ctrl+Shift+A or using this command.
Simulink.BlockDiagram.arrangeSystem("mobileRobotAPI/Motion");
Create Model Reference
Model references can help you organize large models hierarchically and define architectures or behaviors once that you can then reuse. When a component references another model, any existing ports on the component are removed, and ports that exist on the referenced model will appear on the component.
Create a new System Composer model. Convert the Controller
component into a reference component to reference the new model. To add ports on the Controller
component, you must update the referenced model mobileMotion
.
referenceModel = systemcomposer.createModel("mobileMotion"); referenceArch = referenceModel.Architecture; newComponents = addComponent(referenceArch,"Gyroscope"); referenceModel.save linkToModel(motionController,"mobileMotion");
Save the models.
referenceModel.save model.save
Make Variant Component
You can convert the Planning
component to a variant component using the makeVariant
function. The original component is embedded within a variant component as one of the available variant choices. You can design other variant choices within the variant component and toggle the active choice. Variant components allow you to choose behavioral designs programmatically in an architecture model to perform trade studies and analysis.
[variantComp,choice1] = makeVariant(componentMotion);
Add a variant choice named MotionAlt
. The second argument defines the name, and the third argument defines the label. The label identifies the choice. The active choice is controlled by the label.
choice2 = addChoice(variantComp,{'MotionAlt'},{'MotionAlt'});
Create the necessary ports on MotionAlt
.
motionAltPorts = addPort(choice2.Architecture,{'MotionCommand','MotionData'},{'in','out'});
Make MotionAlt
the active variant.
setActiveChoice(variantComp,"MotionAlt")
Arrange the layout by pressıng Ctrl+Shift+A or using this command.
Simulink.BlockDiagram.arrangeSystem("mobileRobotAPI/Planning");
Save the model.
model.save
Clean Up
Run this script to remove generated artifacts before you run this example again.
cleanUpArtifacts
More About
Definitions
Term | Definition | Application | More Information |
---|---|---|---|
interface data dictionary | An interface data dictionary is a consolidated list of interfaces and value types in an architecture and where you use them in the architecture. | You can save local interfaces on a System Composer™ model in an interface data dictionary using the Interface Editor. You can reuse data dictionaries between models that need to use a given set of interfaces, elements, and value types. Data dictionaries that you link to models are stored in separate SLDD files. | |
data interface | A data interface defines the kind of information that flows through a port. The same interface can be assigned to multiple ports. A data interface can be composite, meaning that it can include data elements that describe the properties of an interface signal. | Data interfaces represent the information that is shared through a connector and enters or exits a component through a port. Use the Interface Editor to create and manage data interfaces and data elements and store them in an interface data dictionary for reuse between models. | |
data element | A data element describes a portion of an interface, such as a communication message, a calculated or measured parameter, or other decomposition of that interface. |
Data interfaces are decomposed into data elements:
| |
value type | A value type can be used as a port interface to define the atomic piece of data that flows through that port and has a top-level type, dimension, unit, complexity, minimum, maximum, and description. | You can also assign the type of data elements in data interfaces to value types. Add value types to data dictionaries using the Interface Editor so that you can reuse the value types as interfaces or data elements. | Create Value Types as Interfaces |
owned interface | An owned interface is an interface that is local to a specific port and not shared in a data dictionary or the model dictionary. | Create an owned interface to represent a value type or data interface that is local to a port. | Define Owned Interfaces Local to Ports |
adapter | An adapter connects two components with incompatible port interfaces by mapping between the two interfaces. An adapter can act as a unit delay, rate transition, or merge. You can also use an adapter for bus creation. Use the Adapter block to implement an adapter. |
With an adapter, you can perform functions on the Interface Adapter dialog box:
|
Version History
Introduced in R2021b
See Also
Functions
addInterface
|moveInterface
|addPhysicalInterface
|removeInterface
|createInterface
|setName
|setInterface
|getInterface
|getInterfaceNames
|addElement
|removeElement
|getElement
|setName
|setType
|createOwnedType
|getSourceElement
|getDestinationElement
|systemcomposer.createDictionary
|systemcomposer.openDictionary
|saveToDictionary
|isOpen
|getFileName
|linkDictionary
|unlinkDictionary
|addReference
|removeReference
|makeOwnedInterfaceShared
|addValueType
|createInterface
|setName
|setDataType
|setDimensions
|setUnits
|setComplexity
|setMinimum
|setMaximum
|setDescription
|addServiceInterface
|setFunctionPrototype
|getFunctionArgument
|setAsynchronous
|systemcomposer.getSelectedInterfaces
Objects
systemcomposer.ValueType
|systemcomposer.interface.DataInterface
|systemcomposer.interface.PhysicalDomain
|systemcomposer.interface.PhysicalInterface
|systemcomposer.interface.PhysicalElement
|systemcomposer.interface.Dictionary
|systemcomposer.interface.ServiceInterface
|systemcomposer.interface.FunctionArgument
|systemcomposer.interface.FunctionElement
|addServiceInterface
|setFunctionPrototype
|getFunctionArgument
|setAsynchronous
Blocks
Tools
MATLAB コマンド
次の MATLAB コマンドに対応するリンクがクリックされました。
コマンドを MATLAB コマンド ウィンドウに入力して実行してください。Web ブラウザーは MATLAB コマンドをサポートしていません。
Select a Web Site
Choose a web site to get translated content where available and see local events and offers. Based on your location, we recommend that you select: .
You can also select a web site from the following list:
How to Get Best Site Performance
Select the China site (in Chinese or English) for best site performance. Other MathWorks country sites are not optimized for visits from your location.
Americas
- América Latina (Español)
- Canada (English)
- United States (English)
Europe
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom (English)