SpeADL⁻ Reference Guide¶

• Contenu
• SpeADL⁻ Reference Guide
  • Terminology
  • Namespaces
    • Keyword
    • Details
    • Example
  • Imports
    • Keyword and Role
    • Details
    • Example
  • Component Definition
    • Keywords
    • Details
    • Example
  • Component Specialisation
    • Keyword
    • Details
    • Examples
  • Type Parameters
    • Keywords
    • Details
    • Example

In SpeADL, a subset of abstractions are provided to define traditional component-oriented architectures.
This subset of SpeADL is sometimes called SpeADL⁻ (pronounced SpeADL Minus).
With it, it is possible to define software components and compositions of components, called composites, implemented in Java.
A strong link between definition and implementation is kept by relying on an Eclipse plugin and automatic code generation.

A component is made of two elements: a definition using SpeADL and an implementation using Java.
The SpeADL definition acts a type declaration but can also describe a composition of components connected together.

For the implementation of components, the reader can refer to the Java for SpeADL⁻ reference guide.

Terminology¶

The reader can refer to the MAY Terminology document to get an overview of the different terms used in SpeADL.

Namespaces¶

A namespace plays the same role as a package in Java except that it is not tied to a particular directory hierarchy.

Keyword¶

Namespaces are declared using the keyword namespace.

Details¶

In a SpeADL file, there can be many as namespaces as wanted.
They can also be nested ones.
Hence a namespace does not have to follow the name of the directory it is located in (as it is the case in Java).

Example¶

namespace simple {

    namespace things {

    }
}

namespace simple.things {

}

namespace simple.stuffs {

}

Imports¶

As in Java, it is possible to import existing names to avoid referring to them with their fully qualified name (i.e., including their package or namespace).

Keyword and Role¶

As in Java, this is done with the keyword import.

Details¶

The namespace of components are also considered for component definitions.

The imports can be automatically handled and reorganised in Eclipse using the Ctrl-Shift-O shortcut as with the Java editor.

They are always situated at the top of a SpeADL file.

Example¶

The syntax is similar to Java:

import java.util.Collection
import java.util.*
import simple.stuffs.*

Component Definition¶

A software component is made of a definition and an implementation: an instance can then be created from the implementation.
A component definition has provided and required ports, as well as parts which are themselves components.
A part is structurally similar to a class member in Java.
For each required port of a part, there must be a binding declaring what is providing the required port.

Keywords¶

A component definition is declared with the keyword component followed by a name starting with a capital letter.
It must be unique in its namespace.

The keywords provides and requires are used to declare, respectively, provided and required ports. They are followed by a name (unique in the component and without capital letter) and an interface name separated by the character : .
It takes the form provides name: Interface or requires name: Interface, where Interface is a Java type.

The keyword part is used to declare a part in a component.
It is followed by a name for the part (unique in the component and without capital letter) and the name of a component definition separated by the character *: *.
It takes the form part name: ComponentName.

For each part, bindings are used to declare for each of its required port what is fulfilling the requirement.
It is done using the keywords bind and to in the form bind ...1 to ...2 where ...1 is the name of the required port of the part and ...2 is a reference to a port available in the component containing the part.
Such a reference can either be:

• To another part's provided port, taking the form bind req to name.port.
• A provided or a required port of the current containing component, taking the form bind req to port.

A delegation is used to declare for the provided port of a component what other port will provides its implementation.
It is done using the keyword  =   followed by a reference to a port available in the current containing component (as with bindings).
It takes the form provides name: Interface = name.port or provides name: Interface = port.

Details¶

An interface is understood as a Java interface, i.e., a collection of methods, and must be visible in the classpath of the Java project.

All the required of a part must be bound for the component definition to be valid.

Example¶

Component definitions:

import my.interfaces.*

namespace simple.stuffs {

    component MySimpleComponent {
        provides p1: AnotherJavaInterface
    }

    component MyBeautifulComponent {
        provides portName: AJavaInterface
        requires anotherPortName: AnotherJavaInterface
    }

    component MyComplexComponent {

        provides p1: AnotherJavaInterface
        provides p2: AnotherJavaInterface = s.p1
        requires p3: AnotherJavaInterface

        part b1: MyBeautifulComponent {
            bind anotherPortName to s.p1 
        }

        part b2: MyBeautifulComponent {
            bind anotherPortName to p1
        }

        part b3: MyBeautifulComponent {
            bind anotherPortName to p3
        }

        part s: MySimpleComponent

    }
}

Interface definition in Java:

package my.interfaces;

public interface AJavaInterface {
  public String aMethod(Integer param1);
}

package my.interfaces;

public interface AnotherJavaInterface {
    public Integer test();
}

Component Specialisation¶

In SpeADL, a basic mechanism exists for specialisation of components.

Keyword¶

When declaring a component definition, after the name, the keyword specializes, followed by a reference to another component name, can be used.

Details¶

An implementation of a specialising component can be used in place of the implementation of the specialised component.
Only the specialising component needs to be implemented: its implementation will contain all the provided ports of the specialisation hierarchy as well as the parts of the specialising component.

The specialisation rules are as follow:

• A component can specialise only a component without parts (i.e., only a pure definition with provided and required ports).
• A component can override provided ports (while respecting the interface or specialising it) to define delegation.
• A component can add provided ports.
• A component CAN'T add required ports (for obvious reason: the specialising component wouldn't be usable in a configuration where the specialised component is used because some of its ports won't be bound).

Examples¶

namespace simple.stuffs {
    component S specializes MySimpleComponent {
        provides p2: AnotherJavaInterface
    }
}

Type Parameters¶

As in Java, it is possible to exploit type parameters (also called generics) when declaring and referencing components, as well as in the interfaces of the ports.

Keywords¶

Type parameters are enclosed between [  and  ] (contrary to Java where  < and >  are used).

A type parameter can be declared only in a component definition, just after the name declaration.
It has a unique name, a capital first letter, and can be constrained using the keyword extends and the name of a Java class it must be a subclass of.

A type parameter can be used as an argument when referencing a component by its name, in a part or in a specialisation declaration.
It must respect the type parameters declared in the referenced component.

A type parameter can also be used as an argument when referencing an interface by its name in a port declaration.
Again it must respect the type parameters declared in the interface.

Details¶

The possibilities of expressiveness are equivalent to what can be done in Java.

The implementation can either keep the type parameters abstract as in the definition, or can concretise them as long as it respects the type parameter declaration.

Of course interface and component definition references can be parametrised with existing concrete classes.

Example¶

namespace simple.stuffs {
    component ParameterisedComponent1[T extends Number] {

        provides p1: java.util.concurrent.Callable[T]
        provides p2: java.util.concurrent.Callable[String]
    }

    component ParameterisedComponent2[T1,T2 extends Number] {

        part p1: ParameterisedComponent1[T2] {

        }

        part p2: ParameterisedComponent1[Integer] {

        }

    }
}