Testing an application's or program's working is not black-and-white. A program may work in one situation or condition, but may fail in another. It is up to the software tester, to ensure that a program works correctly in all possible conditions. Consider the example given below.
Imagine a program which adds two numbers. The program must accept two numerical inputs, perform the addition and display the output. But certain conditions exist, which can hamper the functioning of the program. Like if one input is zero. The program should correctly display the output, which is the number itself. What if one number is negative? Then the program should perform subtraction and correctly assign a positive or negative sign to the answer.
The above example is a very simple program. With larger programs written in different languages, there are more conditions and each one is significantly more complex. The software tester must identify said conditions and test the program's working in each case. The program is said to be working effectively, only when it has handled all such conditions in the correct manner. No condition should end the program abruptly. Managing such conditions and presenting them in a clear and concise format, is the reason for writing test cases.
What is a Test Case?
Simply put, a test case is a scenario made up of a sequence of steps and conditions or variables, where test inputs are provided and the program is run using those inputs, to see how it performs. An expected result is outlined and the actual result is compared to it. Certain working conditions are also present in the test case, to see how the program handles the conditions.
Every requirement or objective that the program is expected to achieve, needs at least one test case. Realistically, it definitely takes more than one test case to determine the true functionality of the application being tested. The mechanism used to judge the result of the test case, i.e. whether the program has failed or passed the test, is called a test oracle.
Test cases, at root level, are used to measure how a program handles errors or tricky situations such as if one input is incorrect or if both inputs are incorrect. They are also expected to expose hidden logical errors in the program's code, that have gone undetected.
Typical Structure of a Test case
A formal written test case can be divided into three main parts:
Information Information consists of general information about the test case such as a case identifier, case creator info, test case version, formal name of the test case, purpose or brief description of the test case and test case dependencies. It should also include specific hardware and software requirements (if any) and setup or configuration requirements.
Activities This part consists of the actual test case activities such as the environment that should exist during testing, activities to be done at the initialization of the test, activities to be done after test case is performed, step-by-step actions to be done while testing and the input data that is to be supplied for testing.
Results Results are the outcomes of a performed test case. Result data consists of information about expected results, which is the criteria necessary for the program to pass the test and the actual recorded results.
Test Case Format
Two sample formats for writing test cases are:
Detailed Test Case Id Serial no assigned to test case Purpose Brief idea about case Test Created By Name of test creator Test Environment Software or hardware in which the test case is executed Prerequisites Conditions that should be fulfilled before the test is performed Test Procedure Steps to be performed in test Test Data Inputs, variables and data Expected Result What the program should do Actual Result What is actually done Verdict: Pass/Fail Status of the test Comments Notes on the procedure
Simple Step No. Serial no. of step Step or Activity Detailed operation or procedure Criteria for Success Expected result Status Whether the code passed the test or not Designing test cases can be time-consuming in a testing schedule, but they are worth the time spent because they can prevent unnecessary retesting or debugging or at least lower the rate of such operations. Organizations can take the test case approach in their own context and according to their own perspectives. Some follow a general approach while others may opt for a more detailed and complex approach. It is important for you to decide between the two extremes and decide what would work best for you.
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