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

A decision table is a specification-based test technique that involves creating a table that shows the combinations of inputs and outputs for a system under test based on certain conditions and rules. A decision table can be used to design test cases that cover all possible scenarios and outcomes for a system under test. Some statements about decision tables are:

• I. Generally, decision tables are generated for low risk test items: This statement is false because decision tables can be generated for any level of risk test items depending on the complexity and variability of the system under test. Decision tables are especially useful for testing systems that have many inputs, outputs, conditions, and rules that affect their behavior or performance.
• II. Test cases derived from decision tables can be used for component tests: This statement is true because decision tables can be used to design test cases for any level or type of testing, including component tests. Component tests are tests that verify individual components or units of software in isolation from other components or systems.
• III. Several test cases can be selected for each column of the decision table: This statement is true because each column of the decision table represents a unique combination of inputs and outputs for the system under test based on certain conditions and rules. Therefore, each column can be used as a basis for selecting one or more test cases that cover that combination.
• IV. The conditions in the decision table represent negative tests generally: This statement is false because the conditions in the decision table can represent both positive and negative tests depending on the requirements and expectations of the system under test. Positive tests are tests that verify that the system under test behaves as expected under valid or normal inputs or conditions. Negative tests are tests that verify that the system under test handles errors or exceptions gracefully under invalid or abnormal inputs or conditions.

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

A use case is a description of how a user interacts with a system to achieve a goal or perform a task. A use case typically consists of a sequence of steps or actions that the user and the system perform to complete the goal or task. A use case can be used as a basis for designing test cases that verify the functionality and usability of the system under test. A test sequence that represents a possible use case should follow the logical order and flow of the user-system interaction and cover the main scenario and possible variations or exceptions. For example, based on the test cases given for a Library Management System, we can identify the following use cases:

• UC1: Add a new borrower to the system
• UC2: Update a borrower’s data
• UC3: Remove a borrower from the system
• UC4: Loan a book to a borrower
• UC5: Return a book from a borrower
• UC6: Reserve a book for a borrower
• UC7: Send “reservation ready” message to a borrower

The test sequence that represents a possible use case is D. 1-2-6-7-4-5-3. This test sequence follows the logical order and flow of the user-system interaction and covers the main scenario and possible variations or exceptions. For example:

• TC1: Add a new borrower to the system -> This is the first step of the use case, where the user registers as a new borrower in the system.
• TC2: Update a borrower’s data -> This is a possible variation of the use case, where the user updates their personal or contact information in the system.
• TC6: Reserve a book for a borrower -> This is the second step of the use case, where the user reserves a book that they want to borrow from the library.
• TC7: Send “reservation ready” message to a borrower -> This is the third step of the use case, where the system sends a message to the user informing them that their reserved book is ready for pickup.
• TC4: Loan a book to a borrower -> This is the fourth step of the use case, where the user picks up their reserved book from the library and loans it from the system.
• TC5: Return a book from a borrower -> This is the fifth step of the use case, where the user returns their borrowed book to the library and returns it to the system.
• TC3: Remove a borrower from the system -> This is a possible exception of the use case, where

the user decides to cancel their membership and remove their account from the system.

The other test sequences do not represent possible use cases because they do not follow the logical order and flow of the user-system interaction or they do not cover the main scenario and possible variations or exceptions. For example:

• A. 1-4-2-7-5-6-3 -> This test sequence does not follow the logical order and flow of the user-system interaction because it performs some steps before or after they are supposed to happen. For example, it performs TC4 (Loan a book to a borrower) before TC6 (Reserve a book for a borrower), which does not make sense because the user cannot loan a book that they have not reserved yet.
• B. 1-6-2-5-7-4-3 -> This test sequence does not follow the logical order and flow of the user-system interaction because it performs some steps before or after they are supposed to happen. For example, it performs TC5 (Return a book from a borrower) before TC4 (Loan a book to a borrower), which does not make sense because the user cannot return a book that they have not loaned yet.
• C. 1-6-4-7-5-3-2 -> This test sequence does not cover the main scenario and possible variations or exceptions because it omits some steps that are essential for completing or terminating the use case. For example, it omits TC2 (Update a borrower’s data), which is a possible variation of the use case that allows the user to change their personal or contact information in the system.

You can find more information about use cases and test sequences in [A Study Guide to the ISTQB® Foundation Level 2018 Syllabus], Chapter 4, Section 4.2.

Static analysis tools are tools that examine the code or design of a software system without executing it. Static analysis tools can be used to find defects, measure complexity, check compliance, or improve quality. Some examples of defect types that can be found by static analysis tools are:

• Variables that are never used: This defect type occurs when a variable is declared but not referenced or assigned in the code, which indicates a waste of memory or a logic error.
• Coding standard violations: This defect type occurs when the code does not follow the predefined rules or conventions for formatting, naming, commenting, etc., which affects the readability and maintainability of the code.
• Uncalled functions and procedures: This defect type occurs when a function or procedure is defined but not called or invoked in the code, which indicates a waste of resources or a missing functionality.

Memory leaks are defect types that are least likely to be found by static analysis tools because they are related to the dynamic behavior and performance of the software system. Memory leaks occur when a program does not release memory that it has allocated, causing the system to run out of memory and slow down or crash. Memory leaks can only be detected by dynamic analysis tools that monitor the memory usage of the program during execution. You can find more information about static analysis tools in [A Study Guide to the ISTQB® Foundation Level 2018 Syllabus], Chapter 6, Section 6.3.