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

A limitation in the use of static analysis tools is C. Static analysis tools always generate large numbers of warning messages when applied to new code, even if the code meets coding standards. Static analysis tools are tools that analyze the code or other software artifacts without executing them, and report any defects, errors, vulnerabilities, or violations of coding standards or conventions. Static analysis tools can help to improve the quality and maintainability of the code or other software artifacts. However, static analysis tools also have some limitations, such as generating large numbers of warning messages when applied to new code, even if the code meets coding standards or conventions. This can make it difficult for developers or testers to identify and prioritize the most important or critical issues to fix or address. A detailed explanation of static analysis tools can be found in A Study Guide to the ISTQB® Foundation Level 2018 Syllabus, pages 109-1101.

A software company decided to buy a commercial application for its accounting operations. As part of the evaluation process, the company decided to assemble a team to test a number of candidate applications. The most suitable team for this goal would be a team with a mix of software testers and experts from the accounting department. This team would have the following advantages:

• Software testers have the skills and experience to design, execute, and evaluate test cases based on the requirements and criteria of the company. They can also use tools and techniques to support their testing activities and provide reliable and objective information about the quality and risk level of each candidate application.
• Experts from the accounting department have the knowledge and expertise to understand and validate the functionality and usability of each candidate application. They can also provide feedback and suggestions for improvement based on their needs and expectations as end users or customers.

The other teams mentioned in the question are not as suitable for this goal as they are for other purposes or scenarios. For example:

• A team from an outsourcing company which specializes in testing accounting software: This team might have the skills and experience to test accounting software, but they might not have the knowledge and expertise to understand and validate the specific requirements and criteria of the company that wants to buy the application. They might also lack the communication and collaboration with the stakeholders of the company who are involved in the evaluation process.
• A team of users from the accounting department that will need to use the application on a daily basis: This team might have the knowledge and expertise to understand and validate the functionality and usability of each candidate application, but they might not have the skills and experience to design, execute, and evaluate test cases based on the requirements and criteria of the company. They might also lack the tools and techniques to support their testing activities and provide reliable and objective information about the quality and risk level of each candidate application.
• A team from the company’s testing team, due to their experience in testing software: This team might have the skills and experience to design, execute, and evaluate test cases based on the requirements and criteria of the company, but they might not have the knowledge and expertise to understand and validate the functionality and usability of each candidate application. They might also lack the feedback and suggestions for improvement based on the needs and expectations of the end users or customers.

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.