• Process Engineers, Software Engineering Process Group (SEPG) Staff, Methodologists, Process Improvement Staff
• Software Development Managers, Software Engineers, Developers, Requirements Engineers, Requirements Analysts
• Test Managers, Test Engineers, Testers, Quality Assurance Staff

• Understanding of different test models and their related test coverage criteria
• Ability to apply black-box and glass-box test case design techniques to conventional testing, model-based testing and static analysis of program code
• Practical experience in applying the techniques to comprehensive exercise examples

Introduction:
- Some definitions
- Testing concepts

• The functional or black-box view
• The structural or glass-box view
• The “ translucent-box ” or grey-box view
• Mapping project roles to software views
• The test-driven development (TDD) approach

- Test models

• Black-box test models
• Glass-box test models

- Test case coverage

• Black-box coverage goals
• Glass-box coverage goals

Black-Box Testing and Test-Driven Development (TDD) Test Case Design Techniques:
- Requirements verification
- Equivalence partitioning

• Identifying partitions of equivalent values
• Selecting partition test cases
• Equivalence partition coverage criteria

- Test oracles

• Who "tests" the test cases?
• Automated test oracle

- Boundary value analysis

• Testing on the boundary between partitions
• Selecting boundary test cases
• Risks and coverage criteria

- Syntax testing

• A notation for modelling the syntax of inputs and outputs
• Selecting test cases
• Testing for invalid syntax

- Decision Tables
- State transition testing

• State transition diagrams
• State tables
• Testing single transitions
• Testing sequences of transitions
• Constructing a state tree
• Selecting test cases
• State transition coverage criteria

Model-Based Testing:
- Goals of model-based testing
- Generating test cases from models

• Partitions and boundaries
• States and transitions
• Syntax

- Using model-based testing when there is no specification or it is out of date
- Applying models-based testing to random and reliability testing

Glass-Box Test Case Design Techniques:
- Statement testing

• Rules for counting statements
• Statement coverage

- Control flow graphs

• Modelling control flow with “ nodes ” and “ edges ”
• Control flow and cyclomatic complexity

- Branch/decision testing

• Branches vs. decisions
• Selecting test cases

- Condition testing

• Branches vs. conditions
• Branch condition testing
• Branch condition combination testing
• Modified condition decision testing

- Path Testing

• Linear Code Sequence and Jump (LCSAJ) testing
• Basis path testing
• Data flow testing
• Coverage and Infeasible Paths

- Comparing Glass-Box Test Case Design Techniques

Static Analysis of Program Source Code:
- Applying glass-box test case design techniques to static analysis
- Static analysis of program data flow
- Static analysis of program paths
- Automated static analysis tools

Regression Testing:
- Performing an Impact Analysis
- Identifying the Regression Test Cases

Test Cases and Automated Testing:
- Automating unit testing

• Applying glass-box and black-box test cases to unit testing
• Test cases and unit test frameworks
• Glass-box testing and coverage tools

- Automating system testing

• Applying black-box test cases to system testing
• Test cases and capture/replay tools

         - GUI tools
         - Web tools

• System and acceptance test frameworks

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