RAD Review

1. RAD Review • Describes system completely from actors’ point of view • Basis of client – developer communication • Platform for launch of system design & development • Provides these specific items: • Set of nonfunctional requirements and constraints • Use case model describing functionality of system from client’s perspective • Object model describing entities manipulated by system • Sequence diagram for each use case showing sequence of interactions among participating objects • “Analysis Model”

2. Design Overview • Design Overview (Ch 6) • Review of RAD • System Design • System Design Concepts • System Design Goals • (Global) System Design (Ch 7) • Design Goals • Software Architecture • Boundary Use Cases • SDD • Subsystem Design • Patterns (Ch 8) • Interfaces (Ch 9) • Mapping to Code (Ch 10)

3. System Design Concepts • Subsystems • Relate to Analysis Objects • Coupling and Cohesion • Services / Subsystem Interfaces • Hierarchical Decomposition • open v closed • Partition Decomposition • Architectural Styles [pp. 237 – 246] • Repository [classic DB] • Model/View/Controller • Client/Server • Peer to Peer • 3-Tier [Interface | Application Logic | Storage] • 4-Tier [Client Interface | Server Interface | Application Logic | Storage] • Pipe & Filter [ ps auswww | grep lacher | sort | more ]

4. System Design Activities 0. Starting Point: RAD 1. Identify Design Goals [from non-functional requirements] • performance criteria [p. 249] • dependability criteria [p. 249] • cost criteria [p. 250] • maintenance criteria [p. 250] • end user criteria [p. 251] • Design Goal Tradeoffs [p. 251] 2. Identify Subsystems • influenced by • use cases • lower cross-boundary associations [lower coupling] • functionally related objects [ higher cohesion]

5. System Design Activities (cont) 3. Address Design Goals Note: BEFORE subsystem designs • Select OTS & legacy components • Map subsystems to hardware • Proxy Design Pattern • Plan infrastructure for management of persistent data • Identify persistent objects • Select storage management strategy [see fig 7-7, p. 269] • flat files • relational DB • OODB • Specify access control policies [ can of worms] • Global access table • Access control map (associated with each class) [table.column] • Capability map (associated with each actor) [table.row]

6. System Design Activities (cont) 3. Address Design Goals (cont) • Design global control flow • Procedure Driven • Event Driven • Threaded • Identify boundary conditions • Configuration • Startup / Shutdown • Exception Handling • Administration Use Cases – generated by design team • Key Roles • Architect • Architecture Liaisons – member of subsystem team • Document Editor • Configuration Manager • Reviewer

7. Iteration!

8. Closing the Gap • [Client with problem] ... [Machine] : huge distance • Analysis, resulting in [RAD] ... [Machine]: gap is smaller • System Design, resulting in [SDD] ... [Machine]: smaller still • At this point SDD should specify a virtual machine VM • Object design and mapping to code reduce gap even further, to point where compilers completely close the gap • Notice that we always work from left to right (with feedback loops): • Client -> Analysis -> RAD -> System Design -> SDD -> Object Design -> Code -> Build -> executable system • Feedback loops at each stage • Changes at any stage usually require re-work of all following stages, so emphasis should be on localized feedback loops (i.e., go back only one step, repeat until correct)