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

Component testing is a part of the V-Model, which is a development life cycle model that shows the relationship between each phase of development and its corresponding phase of testing. In this model, each level of testing (unit testing, integration testing, system testing, acceptance testing) has a corresponding level of development (component design, component integration, system design, requirements analysis). Component testing is the process of testing individual components or units of software in isolation from other components or systems. Component testing verifies that the components meet their functional and non-functional requirements and work as expected in their intended environment. Component testing is usually done by developers who have access to the component design and code specifications. You can find more information about component testing and the V-Model in Software Testing Foundations: A Study Guide for the Certified Tester Exam, Chapter 22.

A correct reason to apply test automation is when there are a lot of repetitive testing tasks, as test automation can reduce the effort and time required to execute them, and improve the consistency and accuracy of the results. The other options are not valid reasons to apply test automation, as they do not consider the benefits and risks of test automation, the suitability of the test object for automation, or the availability of resources and skills for automation.

References: Section 6.3.1, Section 6.3.2

The requirement given in

the image specifies

the charge for

a money transfer based on

the amount

of money transferred.

The amount can be anywhere from 1 to 5000 euros, with different charges applied for different ranges of amounts.

To test this requirement, we can use equivalence partitioning, which is a specification-based test technique that involves dividing the input or output values into groups or partitions that are expected to be treated in the same way by the system under test. For example, based on the requirement, we can identify the following equivalence partitions for the input amount:

• EP1: Amount < 1 (invalid)
• EP2: 1 <= Amount <= 1999 (valid, charge = 10 euros)
• EP3: 2000 <= Amount <= 5000 (valid, charge = 15 euros)
• EP4: Amount > 5000 (invalid)

The set of amounts that covers all equivalence partitions is C. 0-100-2000-6000. This set of amounts includes one value from each equivalence partition and ensures that all possible scenarios are tested. For example:

• TC1: Amount = 0 -> Invalid input
• TC2: Amount = 100 -> Valid input, charge = 10 euros
• TC3: Amount = 2000 -> Valid input, charge = 15 euros
• TC4: Amount = 6000 -> Invalid input

The other sets of amounts do not cover all equivalence partitions because they either include values that belong to the same partition or exclude values that belong to different partitions. For example:

• A. 0-1999-2000-5000 -> This set of amounts does not cover all equivalence partitions because it includes two values that belong to EP2 (1999 and 2000) and excludes any value that belongs to EP3.
• B. 1-2000-5001-10000 -> This set of amounts does not cover all equivalence partitions because it includes two values that belong to EP4 (5001 and 10000) and excludes any value that belongs to EP2.
• D. 99-1-2000-4999.99 -> This set of amounts does not cover all equivalence partitions because it includes a value that is not an integer (4999.99), which violates the assumption that only integer values can occur.

You can find more information about equivalence partitioning in [A Study Guide to the ISTQB® Foundation Level 2018 Syllabus], Chapter 4, Section 4.2.