CTFL_Syll2018 Exam Dumps : ISTQB Certified Tester Foundation Level (Syllabus 2018)

Boundary value analysis is a technique to test the values at the boundaries of an equivalence partition. In this case, the age variable has two equivalence partitions: less than 30 and greater than or equal to 30. The boundary values are 29 and 30. The expected result for age 29 is that the premium is increased by 1500, so the final value is 4000. The expected result for age 30 is that the premium remains unchanged at 2500. This is explained in the syllabus under section 4.3, "Black-box Test Techniques"1. References: Certified Tester Foundation Level (CTFL) Syllabus - ASTQB

 S2 and O2 are the finishing state and the output(s) from the test case1. The question asks about a test case that starts at S1 and triggers 4 events in sequence: E1, E4, E5, E7. The question refers to a state diagram that shows the logic of a system with six states (S1, S2, S3, S4, S5, S6) and seven events (E1, E2, E3, E4, E5, E6, E7). The state diagram also shows four outputs (O1, O2, O3, O4) that are produced by some events. The state diagram is shown below:

!state diagram

To answer this question, we need to follow the path of the test case on the state diagram and observe the state transitions and outputs that occur. The path of the test case is:

• Start at S1
• Trigger E1
• Transition to S2
• Trigger E4
• Transition to S3
• Trigger E5
• Transition to S2
• Output O2
• Trigger E7
• Transition to S6

Therefore, the finishing state of the test case is S2 and the output(s) from the test case is O2. Hence, D is the correct answer.

Testing tools can be used by both developers and testers for different purposes and at different stages of the software development life cycle. For example, developers can use tools such as unit testing frameworks, code coverage tools, debugging tools, static analysis tools, etc., to improve the quality of their code and find defects early. Testers can use tools such as test management tools, test design tools, test execution tools, test data preparation tools, performance testing tools, etc., to support their testing activities and increase their efficiency and effectiveness. The use of testing tools does not necessarily imply test automation, which is the use of software to perform or support test activities that would otherwise require manual intervention. Test automation is a complex and costly process that requires careful planning, design, implementation, maintenance, and evaluation. The use of testing tools also does not change the role of the test team, which is still responsible for defining the test strategy, designing the test cases, analyzing the test results, reporting the defects, etc. You can find more information about testing tools and test automation in A Study Guide to the ISTQB® Foundation Level 2018 Syllabus, Chapter 61.