Solving the Problem Analysis & Design
Requirements Phase Requirements -- should be an unambiguous description of the external behavior of the system to be built Typical problems : Contains embedded design decisions (How vs. What). Vague (must be measurable / testable) Computer industry language (instead of user's language) Requirements are not traceable to the system developed
Analysis Phase Discover and understand the problem domain Object-oriented Analysis decompose a problem by selecting relevant concepts from the vocabulary of the domain. Develop a Conceptual Model include class and interaction diagrams.
Conceptual Model contains important real-world concepts and associations in the vocabulary of the problem domain: includes objects, roles, events, interactions becomes the foundation for the class model
Use Cases A purposeful user interaction with a system A narrative description of a sequence of actions required to produce something of value to an actor or organization
Use Cases describe functional requirements of the system give a clear description of needed system behavior help customer and developer agree on what the system should do provide a basis for performing verification tests. trace requirements to actual classes and operations in the system. set bounds on the problem space
High-level use cases (collected to determine the complete scope of the system) Use Case – the name is usually a business or domain process (Order a product, register for courses) Actors -- external agent (person playing a role, computer system, input/output device) Type -- primary, secondary or optional Description -- a short narrative description (2 - 3 sentences)
Setting Priorities (rank order use cases) Ranking may involve a combined score including multiple factors: Impact on the architectural design Risky, time-critical, or complex functions New or risky technology Represent line-of- business processes Directly support increased revenue or decreased costs. Or ranking may simply classify use cases as high, medium, or low The most important use case is then expanded
Expanded Use Case (minimal technology references) Buy Items (essential description) Typical Course of Events: Actor Actions: System Response: 1) This use case begins when a Customer arrives at a cashier's location with items to purchase 2) The Cashier records the identifier from each item, its description and price from the sales tag. If there is more than one of the same item, the Cashier can enter the quantity 3) Multiply the price by the quantity and add this to the ongoing sales transaction 4) When the item entry is complete, 5) Calculate the sales total 6) Cashier tells the Customer the total 7) Customer gives cash payment. 8) Cashier records the cash received amount 9) Calculate balance due the customer
Object Oriented Design (OOD) Phase Developer decides how the system will be implemented Many of the concepts become classes The design phase elaborates (adds attributes and methods) to the class model Try this technique Modify the use case to include new system features
Put new system features into the use case Buy Items (system solution) Requirements: R1, R2, R3, R4, R5, R6 Actor Actions: System Response: 1) This Use case starts when a Customer arrives at POST with items to purchase. 2) The Cashier enters UPC of each item. 3) Use UPC to determine item name, price and description. The item price is added to the sales total. If there is more than one of an item, the Cashier can enter the quantity as well or re-enter the UPC Show description and price of the current item 4) On completion of item entry, the Cashier indicates to the POST that item entry is complete. 5) Calculate and present the sales total. 6) The Cashier tells the customer the total 7) The Customer chooses payment type: 8) Log the completed sale a. If cash, see Pay by Cash 9) Update inventory levels b. If credit, see Pay by Credit 10) Generate a receipt c. If check, see Pay by Check 11) The Cashier gives the receipt to the Customer 12) The Customer leaves with the items purchased.
Design a User Interface for the user
Use screen navigation diagrams when necessary
Plan the first Iteration Determine how much can be delivered within the first development cycle If necessary, create a simplified use case to fit the first time-box
Special Considerations for the first Development Cycle Try to handle the most difficult parts of the system first. If the architecture is untested, exercise the functionality of the architecture. If there is technological risk, exercise all the significant interfaces and interactions among subsystems to assure they are compatible.
Architecture – describes the structure of software systems Architecture is the set of significant decisions about the organization of a software system, the selection of the structural elements and their interfaces. Describe major subsystems External software interfaces User interface Database organization Data storage Key algorithms Concurrency Security Networking Portability Programming language Error handling
Plan Future Cycles In subsequent development cycles, add functionality to the previously delivered use case or do another use case update task assignments and milestones for each cycle: Requirements Design User documentation Test cases Technical reviews etc
First Cycle: Simplified Use Case Buy Items with cash (First Iteration) Actor Actions: System Response: 1) This Use case starts when a Customer arrives at POST with items to purchase. 2) The Cashier enters the UPC and quantity of each item. 3) The item name and description is displayed. The price is added to the sales total. 4) On completion of item entry, the Cashier indicates to the POST that item entry is complete. 5) Presents the sales total. 6) The Cashier tells the customer the sales total 7) The Customer gives a cash amount equal to or greater than the sales total 8) The Cashier enters the cash amount 9) Calculate and display change due the customer 10) Generate a receipt 11) The Cashier gives the receipt and change due to the Customer 12) The Customer leaves with the items purchased.
Make a minimum conceptual model concepts relevant to the use case being developed. A complete conceptual model would be all significant real-world concepts in the problem domain.
Find domain concepts in the use case Who are the actors and what are they trying to do? What “real world” objects are needed for each use case? How do the objects work together to complete each use case goal? Consult with domain experts Parse for noun and verb phrases Nouns become objects or attributes Verbs become operations or associations. Use a Concept Check List
Concept Check List (Craig Larman) Physical objects Specifications, designs or descriptions of things Places Transactions Transaction line items Roles Things in a container Containers of other things Catalogs Events Organizations Processes Rules and policies Records of finance, work, contracts, legal matters Financial instruments and services Manuals, books External Computer Systems or devices Abstract noun concepts
Concept Diagram of Buy Items
Decide which domain concepts become objects that implement a solution Try CRC cards to Bridge from Concepts to Classes CRC cards (Class, Responsibility, Collaboration) Original paper by Beck and Cunningham at http://c2.com/doc/oopsla89/paper.html
CRC Cards Class Name -- Domain concept or programmer created class Class Name = Sale Responsibilities: Collaborators: store Item specs and quantity SalesLineItem calculate a sales total store payment amount and type Class Name -- Domain concept or programmer created class Responsibilities -- Tasks an object can do alone because of its local knowledge Collaborators -- Tasks done by other objects because of their knowledge
Responsibility Responsibilities become class methods The method accomplishes a task by the object acting alone or with the help of others. Two Basic Responsibilities for objects Knowing object’s awareness of its own data, its links to other objects and knowledge it can derive or calculate Doing objects ability to modify itself, create and link to other objects, or delete other objects and links, command other objects to take action or control or coordinate activity in other objects
CRC Card Procedure Create cards for each relevant object in the use case -- actors initiating a message to the system -- the first object that receives the message -- every object from the domain used in the solution Walk through the handling of a system event Allocate responsibilities by deciding which class handles an event or delegates it to another object -- Put the main responsibilities of each class on the card. -- Put the collaborators of each class on the card
Role Play the Class A designer or member of a group can act the part of a "Class" when it is given control in a scenario When role playing a class, determine what can you do, how are you dependent on others
Scenarios Each use case has a successful outcome and usually one or more failure outcomes. Failures usually are: Looking for an object which does not exist (identifier not found) Creating a new object but the identifier already exists. Violation of business rules (i.e. Customer withdraws an amount that makes the balance lower than the minimum required by the bank) Use scenarios to validate the responsibilities of each object. Events leading to failure and to success
Use truth tables to check for completeness Use Case Scenarios Buy Items 1 2 3 Pre-Conditions UPC Exists F T Customer has sufficient funds Post-Condition Actions Reject sale and provide a message X Accept transaction
Class Diagram
Interaction diagrams (sequence)
Interaction Diagrams (collaboration)
Entity-Relationship Diagrams
Free Information for UML and ER diagramming Introduction to UML Diagramming http://www.togethersoft.com/services/practical_guides/umlonlinecourse/ http://www.rational.com/media/uml/intro_rdn.pdf Introduction to ER Diagramming http://www.utexas.edu/its/windows/database/datamodeling/index.html