Requirements Testing
Testing software is an integral part of building a system. However, if the software is based on inaccurate requirements, then despite well written code, the software will be unsatisfactory. Most of the defects in a system can be traced back to wrong, missing, vague or incomplete requirements.
Requirements seem to be ephemeral. They flit in and out of projects, they are capricious, intractable, unpredictable and sometimes invisible. When gathering requirements we are searching for all of the criteria for a system's success. We throw out a net and try to capture all these criteria.
The Quality Gateway
As soon as we have a single requirement in our net we can start testing. The aim is to trap requirements-related defects as early as they can be identified. We prevent incorrect requirements from being incorporated in the design and implementation where they will be more difficult and expensive to find and correct.
To pass through the quality gateway and be included in the requirements specification, a requirement must pass a number of tests. These tests are concerned with ensuring that the requirements are accurate, and do not cause problems by being unsuitable for the design and implementation stages later in the project.
Make The Requirement Measurable
In his work on specifying the requirements for buildings, Christopher Alexander describes setting up a quality measure for each requirement.
"The idea is for each requirement to have a quality measure that makes it possible to divide all solutions to the requirement into two classes: those for which we agree that they fit the requirement and those for which we agree that they do not fit the requirement."
In other words, if we specify a quality measure for a requirement, we mean that any solution that meets this measure will be acceptable. Of course it is also true to say that any solution that does not meet the measure will not be acceptable.
The quality measures will be used to test the new system against the requirements. The remainder of this paper describes how to arrive at a quality measure that is acceptable to all the stakeholders.
Quantifiable Requirements
Consider a requirement that says "The system must respond quickly to customer enquiries". First we need to find a property of this requirement that provides us with a scale for measurement within the context. Let's say that we agree that we will measure the response using minutes. To find the quality measure we ask: "under what circumstances would the system fail to meet this requirement?" The stakeholders review the context of the system and decide that they would consider it a failure if a customer has to wait longer than three minutes for a response to his enquiry. Thus "three minutes" becomes the quality measure for this requirement.
Any solution to the requirement is tested against the quality measure. If the solution makes a customer wait for longer than three minutes then it does not fit the requirement. So far so good: we have defined a quantifiable quality measure. But specifying the quality measure is not always so straightforward. What about requirements that do not have an obvious scale?
Non-quantifiable Requirements
Suppose a requirement is "The automated interfaces of the system must be easy to learn". There is no obvious measurement scale for "easy to learn". However if we investigate the meaning of the requirement within the particular context, we can set communicable limits for measuring the requirement.
Again we can make use of the question: "What is considered a failure to meet this requirement?" Perhaps the stakeholders agree that there will often be novice users, and the stakeholders want novices to be productive within half an hour. We can define the quality measure to say "a novice user must be able to learn to successfully complete a customer order transaction within 30 minutes of first using the system". This becomes a quality measure provided a group of experts within this context is able to test whether the solution does or does not meet the requirement.
An attempt to define the quality measure for a requirement helps to rationalise fuzzy requirements. Something like "the system must provide good value" is an example of a requirement that everyone would agree with, but each person has his own meaning. By investigating the scale that must be used to measure "good value" we identify the diverse meanings.
Sometimes by causing the stakeholders to think about the requirement we can define an agreed quality measure. In other cases we discover that there is no agreement on a quality measure. Then we substitute this vague requirement with several requirements, each with its own quality measure.
Requirements Test 1
Does each requirement have a quality measure that can be used to test whether any solution meets the requirement?
By adding a quality measure to each requirement we have made the requirement visible. This is the first step to defining all the criteria for measuring the goodness of the solution. Now let's look at other aspects of the requirement that we can test before deciding to include it in the requirements specification.
Requirements Test 2
Does the specification contain a definition of the meaning of every essential subject matter term within the specification?
When the allowable values for each of the attributes are defined it provides data that can be used to test the implementation.
Requirements Test 3
Is every reference to a defined term consistent with its definition?
Requirements Test 4
Is the context of the requirements wide enough to cover everything we need to understand?
Requirements Test 5
Have we asked the stakeholders about conscious, unconscious and undreamed of requirements?
Requirements Test 5 (enlarged)
Have we asked the stakeholders about conscious, unconscious and undreamed of requirements? Can you show that a modelling effort has taken place to discover the unconscious requirements? Can you demonstrate that brainstorming or similar efforts taken place to find the undreamed of requirements?
Requirements Test 6
Is every requirement in the specification relevant to this system?
Requirements Test 7
Does the specification contain solutions posturing as requirements?
Requirements Test 8
Is the stakeholder value defined for each requirement?
Requirements Test 9
Is each requirement uniquely identifiable?
Requirements Test 10
Is each requirement tagged to all parts of the system where it is used? For any change to requirements, can you identify all parts of the system where this change has an effect?
Conclusions
The requirements specification must contain all the requirements that are to be solved by our system. The specification should objectively specify everything our system must do and the conditions under which it must perform. Management of the number and complexity of the requirements is one part of the task.
The most challenging aspect of requirements gathering is communicating with the people who are supplying the requirements. If we have a consistent way of recording requirements we make it possible for the stakeholders to participate in the requirements process. As soon as we make a requirement visible we can start testing it. and asking the stakeholders detailed questions. We can apply a variety of tests to ensure that each requirement is relevant, and that everyone has the same understanding of its meaning. We can ask the stakeholders to define the relative value of requirements. We can define a quality measure for each requirement, and we can use that quality measure to test the eventual solutions.
Testing starts at the beginning of the project, not at the end of the coding. We apply tests to assure the quality of the requirements. Then the later stages of the project can concentrate on testing for good design and good code. The advantages of this approach are that we minimise expensive rework by minimising requirements-related defects that could have been discovered, or prevented, early in the project's life.
References:
An Early Start to Testing: How to Test RequirementsSuzanne Robertson
2 comments:
Thank You Sir ..I Love Dis blog..its very useful to me and my carrier..with regards Prasanna...
Sir, i want to know about the V models and Testing conducted at the each and every phase in the V model ...pls Send doc to Prasannaengg16@gmail.com
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