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

Functional and structural tests are alternative test types that may be used separately or together at B. All test levels. Functional testing is a type of testing that verifies the functionality of the system or component under test against its requirements or specifications. Functional testing focuses on what the system or component does, not how it does it. Structural testing is a type of testing that verifies the structure or code of the system or component under test. Structural testing focuses on how the system or component does it, not what it does. Functional and structural testing can be used separately or together at any test level, such as unit testing, integration testing, system testing, acceptance testing, etc. Functional and structural testing can complement each other by providing different perspectives and coverage of the system or component under test. A detailed explanation of functional and structural testing can be found in [A Study Guide to the ISTQB® Foundation Level 2018 Syllabus], pages 25-26.

The test tools that would be classified as test execution tools are D. b and d. Test execution tools are tools that automate the execution of test cases or test scripts, and compare the actual results with the expected results. Test execution tools can also record and replay user actions, generate test data, and report test results. Test harness and test comparators are examples of test execution tools. A test harness is a tool that creates a test environment for a component or system under test, by simulating the required dependencies, such as stubs, drivers, or mock objects. A test comparator is a tool that compares the actual outputs of a component or system under test with the expected outputs, and reports any differences or anomalies. A detailed explanation of test execution tools can be found in A Study Guide to the ISTQB® Foundation Level 2018 Syllabus, pages 111-1121.

Preventing defects from being introduced into the code is not a valid objective of testing, because testing can only detect defects that are already present in the code, not prevent them from happening. Testing can help prevent future defects by providing feedback to developers and other stakeholders, but it cannot guarantee that no defects will be introduced. Preventing defects is more related to quality assurance activities, such as reviews, inspections, and standards12.