Test Case Design
- TEST04
- Online
- Intermediate
- English | 0
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 and Practical experience
Course description
Time
Instructor
Venue
Test Case Design
This two-day course teaches participants a number of advanced testing techniques. The course commences with a brief discussion of black-box and glass-box test models followed by a discussion of practical test coverage criteria for both models.
The course then moves on to an in-depth discussion of various black-box testing techniques. This is followed by a demonstration of how the techniques can be applied to both the conventional and “model-based” approaches to testing.
The second-half of the course covers glass-box testing techniques and shows how these may be applied to both conventional testing and the static analysis of program code.
The course concludes with a brief discussion of how the techniques learnt during the course can be used with automated test tools.
Course Features:
- Compatible with the BCS Draft Standard for Software Component Testing (BS 7925-2)
- Arms participants with a tool box of test case design techniques
- Integrates disparate test case design techniques into an integrated approach
- Relevant to IT and embedded systems software
- 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
Payment can be made by:
- Cash or Credit Card or Bank Cheque payable to "สำนักงานพัฒนาวิทยาศาสตร์และเทคโนโลยีแห่งชาติ" (a post-dated cheque is not accepted) on the first day of the service or within the last day of the service.
- Account transfer and send the proof of the payment (the deposit slip) via email ttd@swpark.or.th
- ธนาคารกรุงเทพ สาขาอุทยานวิทยาศาสตร์
Saving Account Number: 080-0-00001-0
Account Name: สำนักงานพัฒนาวิทยาศาสตร์และเทคโนโลยีแห่งชาติ - ธนาคารกรุงไทย สาขาตลาดไท
Saving Account Number: 152-1-32668-1
Account Name: สำนักงานพัฒนาวิทยาศาสตร์และเทคโนโลยีแห่งชาติ
- ธนาคารกรุงเทพ สาขาอุทยานวิทยาศาสตร์
Notes:
- Withholding tax (3%) is exempt.
- Should you need to withdraw, you must send the notice of the withdrawal in writing no later than 7 working days before the commencement date. The cancellation less than 7 days will be subject to a fine of 40% of the fee.
- Software Park Thailand reserves the rights to cancel courses due to unforeseen circumstances.
Contact Person
For more information, contact our course coordinator on:
15,000 THB .
กำหนดอบรมวันที่ 10 - 11 ตุลาคม 2567
เวลา 09.00 - 16.00 น. (Online)
***สำคัญ!!! กรุณารอการยืนยันเปิดการอบรมจากเจ้าหน้าที่ก่อนการชำระค่าลงทะเบียน***
Course Detail :
Instructor info
Mr.Phil Robinson
CERTIFIED SCRUM MASTER ที่มีประสบการณ์และอยู่ในอุตสาหกรรมดิจิทัลมาอย่างยาวนาน