getProperty - Get property value corresponding to stereotype applied to element - MATLAB (original) (raw)
Get property value corresponding to stereotype applied to element
Syntax
Description
[[propertyValue](#mw%5F49229d33-7351-41e0-ab66-0d7a86fb3281),[propertyUnits](#mw%5F931a8a1f-baef-4299-801b-c99a96fe2719)] = getProperty([element](#mw%5F1bfef4a9-592d-414e-96f1-ed17dfa3243f%5Fsep%5Fmw%5F6d55457b-71a8-4e02-8988-eb9cdd468568),[propertyName](#mw%5F137eeb07-4080-4a49-abcb-801b61236131)) obtains the value and units of the property specified in thepropertyName argument. Get the property corresponding to an applied stereotype by qualified name"<profile>.<stereotype>.<property>".
Examples
Get the weight property from a component withsysComponent stereotype applied.
Create a model with a component called Component.
model = systemcomposer.createModel("archModel"); systemcomposer.openModel("archModel"); arch = get(model,"Architecture"); comp = addComponent(arch,"Component");
Create a profile with a stereotype with a property, then apply the profile to the model.
profile = systemcomposer.profile.Profile.createProfile("sysProfile"); base = profile.addStereotype("sysComponent"); base.addProperty("weight",Type="double",DefaultValue="10",Units="g"); model.applyProfile("sysProfile");
Apply the stereotype to the component, and set a new weight property.
applyStereotype(comp,"sysProfile.sysComponent") setProperty(comp,"sysProfile.sysComponent.weight","5","g")
Get the weight property with units.
[val,units] = getProperty(comp,"sysProfile.sysComponent.weight")
Input Arguments
Name of property, specified as a character vector or string in the form"<profile>.<stereotype>.<property>".
Data Types: char | string
Output Arguments
Value of property, returned as a character vector.
Data Types: char
Units of property to interpret property values, returned as a character vector.
Data Types: char
More About
| Term | Definition | Application | More Information |
|---|---|---|---|
| Architecture | A System Composer™ architecture represents a system of components and how they interface with each other structurally and behaviorally. | Different types of architectures describe different aspects of systems. You can use views to visualize a subset of components in an architecture. You can define parameters on the architecture level using the Parameter Editor. | Compose Architectures VisuallyAuthor Parameters in System Composer Using Parameter Editor |
| Root | A root is at the top of an architecture hierarchy. A root architecture has a boundary defined by its architecture ports that surround the system of interest. | The root architecture has a system boundary surrounding your architecture model. You can add architecture ports that define interfaces across the boundary. | Compose Architectures Visually |
| Model | A System Composer model is the file that contains architectural information, such as components, ports, connectors, interfaces, and behaviors. | Perform operations on a model including extracting root-level architecture, applying profiles, linking interface data dictionaries, or generating instances from model architecture. A System Composer model is stored as an SLX file. | Create Architecture Model with Interfaces and Requirement Links |
| Component | A component is a replaceable part of a system that fulfills a clear function in the context of an architecture. A component defines an architectural element, such as a function, another system, hardware, software, or other conceptual entity. A component can also be a subsystem or subfunction. | Represented as a block, a component is a part of an architecture model that can be separated into reusable artifacts. Transfer information between components with port interfaces using the Interface Editor, and parameters using the Parameter Editor. | Compose Architectures Visually |
| Port | A port is a node on a component or architecture that represents a point of interaction with its environment. A port permits the flow of information to and from other components or systems. | Component ports are interaction points on the component to other components. Architecture ports are ports on the boundary of the system, whether the boundary is within a component or the overall architecture model. The root architecture has a boundary defined by its ports. | Compose Architectures Visually |
| Connector | Connectors are lines that provide connections between ports. Connectors describe how information flows between components or architectures. | A connector allows two components to interact without defining the nature of the interaction. Set an interface on a port to define how the components interact. | Compose Architectures Visually |
| Term | Definition | Application | More Information |
|---|---|---|---|
| Physical subsystem | A physical subsystem is a Simulink® subsystem with Simscape™ connections. | A physical subsystem with Simscape connections uses a physical network approach suited for simulating systems with real physical components and represents a mathematical model. | Implement Component Behavior Using Simscape |
| Physical port | A physical port represents a Simscape physical modeling connector port called a Connection Port (Simscape). | Use physical ports to connect components in an architecture model or to enable physical systems in a Simulink subsystem. | Define Physical Ports on Component |
| Physical connector | A physical connector can represent a nondirectional conserving connection of a specific physical domain. Connectors can also represent physical signals. | Use physical connectors to connect physical components that represent features of a system to simulate mathematically. | Architecture Model with Simscape Behavior for a DC Motor |
| Physical interface | A physical interface defines the kind of information that flows through a physical port. The same interface can be assigned to multiple ports. A physical interface is a composite interface equivalent to a Simulink.ConnectionBus object that specifies a number of Simulink.ConnectionElement objects. | Use a physical interface to bundle physical elements to describe a physical model using at least one physical domain. | Specify Physical Interfaces on Ports |
| Physical element | A physical element describes the decomposition of a physical interface. A physical element is equivalent to a Simulink.ConnectionElement object. | Define the Type of a physical element as a physical domain to enable use of that domain in a physical model. | Describe Component Behavior Using Simscape |
Version History
Introduced in R2019a
See Also
Tools
Blocks
Objects
- systemcomposer.profile.Profile | systemcomposer.profile.Stereotype | systemcomposer.profile.Property
Functions
- systemcomposer.profile.Profile.createProfile | systemcomposer.loadProfile | applyProfile | removeProfile | renameProfile | systemcomposer.profile.editor | systemcomposer.profile.Profile.find | systemcomposer.profile.Profile.load | save | open | close | systemcomposer.profile.Profile.closeAll | systemcomposer.profile.Stereotype.find | getDefaultStereotype | setDefaultStereotype | getDefaultElementStereotype | setDefaultElementStereotype | addStereotype | removeStereotype | getStereotype | applyStereotype | batchApplyStereotype | getStereotypes | changeStereotype | removeStereotype | hasStereotype | addProperty | removeProperty | hasProperty | setProperty | getPropertyValue | getEvaluatedPropertyValue | getStereotypeProperties | applyStereotypeOrder | getStereotypeNamesByOrder | increaseStereotypeOrder | decreaseStereotypeOrder