290 likes | 525 Views
Architecture Representation. Outline. Goals of Architecture Representation Foundations of Software Architecture Representation Architecture Description Languages Design language elements First-class connectors Modules and Components Applying ADLs Summary. Outline (Cont’d).
E N D
Outline • Goals of Architecture Representation • Foundations of Software Architecture Representation • Architecture Description Languages • Design language elements • First-class connectors • Modules and Components • Applying ADLs • Summary
Outline (Cont’d) • Modeling the problem and the solution domains • Problem domain models • Solution domain models • Views • Objectives and purpose models • Behavioral/functional models • Information/data models • Models of form • Nonfunctional/performance models • Summary
A Model for Representing a Software Architecture • Goals of architecture representation – a representation of a system that can be used to: • Design a system • Analyze a design • Generate a system • Foundations of software architecture representation – the elements for describing an architecture are: • Components • Connectors • Architectural constraints
A Model for Representing a Software Architecture (Cont’d) • Architectural description languages – ADLs are (machine readable) design languages used to describe a system that possess design language properties like: • Composition • Abstraction • Reusability • Configuration • Heterogeneity • Analysis
Foundations of Software Architecture • Three types of constructs are necessary in representing software architectures: • Elements • Form • Rationale • Their elements are classified as: • Data • Processing • Connecting
Foundations of Software Architecture (Cont’d) • The architectural form is composed of weighted (by importance or necessity) properties and relationships. • Properties may be used to define constraints. • Relationships may be used to show how different architectural elements interact. • Rationales capture the motivation behind various decisions; they are inferences that can be structured as an argument with the design decision being the conclusion.
Fundamental Software Design Views (Cont’d) • Architectural styles can be sequential or parallel • In the sequential style the connecting elements are procedure calls and parameters • In the parallel style the connecting element is a shared representation of the data (a repositiory)
Architecture Description Languages • Programming language structures are inadequate for describing architectural elements. • Furthermore, they provide no way to model a strict separation of concerns between architectural-level design issues and detail design issues. • Languages in general serve the purpose of describing complex relationships among primitive elements and element combinations.
Architecture Description Languages (Cont’d) • Having identified semantic constructs it makes sense to define a language around them. • Common architectural description elements include: • (Pure) computation (processing elements) – simple input/output relations with no retained state • Memory (data elements) – shared collections of persistent structured data • Manager – manage state and closely related operations • Controller – governs the sequence of operations • Link – transmit information between elements
Common Component Interactions • Procedure call • Data flow • Implicit invocation • Message passing • Shared data • Instantiation
Design Language Elements -- Albin • Components – the primitive semantic elements • Operators – functions that combine components • Abstraction rules – allow for the definition of named expressions of components and operators • Closure rules – determines which abstractions can be added to the classes of primitive components and operators • Specification – associates semantics to syntactic forms
Design Language Elements – Shaw and Garlan • Components – the modules that compose the architectural level of design • Operators – the inter-component connection mechanisms • Patterns – design templates that solve a particular set of problems (a framework) • Closure – defines the conditions under which a particular assembly of components and operators may also be used as an atomic component • Specification – associates semantics such as functionality and other quality attributes to the syntactic forms
Six Classes of Properties that Should Characterize an ADL • Composition • Abstraction • Reusability • Configuration • Heterogeneity • Architectural Analysis
Composition • An ADL should allow for the description of a system as a composition of components and connectors. • It must support the ability to split a system or module into two modules • It must support the ability to synthesize or combine modules to create new forms. • These splitting or synthesis operations should be independent of implementation design decisions (choice of algorithms, data structures, connecting technology, etc.) • A composition of elements must be allowed to be viewed as a single component. • It must be possible to operate on the individual components of the composition.
Abstraction • An ADL should allow a designer to focus on high-level concerns without having to think in terms of programming level constructs. • Architectural abstractions are patterns of programming language constructs. • An architect can think in terms of components and connectors focusing on the architectural concerns of modifiability, reliability, performance, etc. without having to map them to specific programming language elements.
Reusability • It should be possible to modularize a specification written in a particular ADL so that the components can be used in other systems. • These specifications are reusable patterns of components. • For example, a certain client-server pattern might identify a database server component with a particular database table structure (a reusable data model). • Each physical database implementation might look different but each would have the same core data and enforce the same semantic rules.
Configuration • It should be possible with an ADL to describe a composite structure separately from its elements so that the composition can be reasoned about as an atomic element. • It should support the dynamic reconfiguration of a system in terms of restructuring compositions without knowing their internal structure. • For example, in a client/server system, an indefinite number of clients may be executing at any time.
Heterogeneity • This is the ability to mix architectural styles within a single architectural specification. • At one level, the architecture may exhibit a particular pattern of compositions, but the structure of each composition may follow a different pattern. • An ADL should allow different compositions to be compiled to different languages.
Architecture Analysis • An ADL should support the ability to analyze an architecture. • Analysis of architecture includes both automated and non automated reasoning about quality attributes of a system. • ADL research aims to automate this analysis by providing machine-readable specifications of specific quality attribute requirements and then checking to see if the architecture specification conforms to it.
First-Class Connectors • Connectors should be considered equal to components. • Connectors often embody the nonfunctional quality attributes and bring form to the architecture.
Modules and Components • “A module is a unit whose structural elements are powerfully connected among themselves and relatively weakly connected to elements of other units. Clearly there degrees of connection; thus gradations of modularity.” – Baldwin • Programming languages are insufficient for representing architectural level designs because they lack explicit connecting elements. • Connecting elements are just as important from the architectural level of design as processing and data elements. • The ability to abstract the implementation of a connecting element within an architecture specification is what makes an ADL so powerful.
An ADL Example – C2 SADL • The C2 Software Architecture Description Language is intended for designing a flexible, extensible component- and message- based system that has a graphical user interface. • A C2-based system is structured as a hierarchy of concurrent components that communicate via connectors, which are message-routing mechanisms. • A component can have at most two connectors – a top connector and a bottom connector, which attach to components either up one level in the hierarchy or down one level. • The top connector of one component is coupled with the bottom connectors of other components, and vice versa.
An ADL Example – C2 SADL (Cont’d) • There is no limit to the number of connectors that ma be coupled with a single connector. • A C2 component is only aware of the components above it, not those below. • Requests go up and notifications go down. • There is one component at the top. • The C2 architectural style relies on a programming language neutral event mechanism, such as a message queue.
An ADL Example – C2 SADL (Cont’d) • C2 SADL is composed of three parts: • Interface Definition Notation (IDN) • Supports textual specification of C2 component interfaces • Consists of specifications for parameters, methods, behavior, and context • Architecture Description Notation (ADN) • Supports textual specification of a C2 architecture • Architecture Construction Notation (ACN) • Supports textural specification of architecture changes
Applying ADL’s • ADLs are not commonly used. • Most are experimental. • Understanding the problems that ADLs attempt to solve, can help an architect to think about the solution to a particular problem. • Understanding ADLs helps the architect to focus on the nature of connections between components.
Summary • The component level of design allows us to reason about the properties of the system without first constructing the entire system. • The fundamental language of specifying architecture design is composed of elements, form, and rationale. • Elements are processing, data, and connecting • Form is composed of weighted properties and relationships. • Rationales capture the reasons why certain design decisions were made.
Summary (Cont’d) • Architecture Description Languages (ADLs) are high-level languages for describing the component view of a software system. • ADLs have not been applied much in practice. • UML is often used as an ADL even though it is inadequate. • The dependency (design) structure matrix is still one of the most powerful representation tools.