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Equivalence Class Partitioning: A Complete Guide

 

Equivalence Partitioning, also known as Equivalence Class Testing, is a powerful black-box testing technique designed to streamline testing by minimizing the number of test cases while ensuring comprehensive coverage. 

This approach is widely used to make testing more efficient without sacrificing effectiveness. Let’s learn more about how it’s done!
 

What is Equivalence Partitioning?

Black box testing technique: equivalence class testing

Equivalence Class Testing is a black-box testing method where testers categorize input data into equivalence classes (or partitions). Each of these classes contain values that should be treated in the same way by the system.

Testers then select one or more representative values from each equivalence class for testing. Since these values should yield the same result as any other input in the class, this approach significantly reduces the need to test every possible input. 

Equivalence partitioning is designed to minimize the number of test cases while maintaining thorough coverage.
 

Types of Equivalence Classes

Typically, testers categorize values into two primary classes:

  1. Valid Equivalence Class: Inputs that the system should accept and process correctly.
  2. Invalid Equivalence Class: Inputs that the system should reject or handle differently, often indicating an error.
     

Equivalence Partitioning Example

To illustrate how equivalence class testing works, let's use a simple example. Suppose you're testing a function that validates a user's age for an online registration form, with a valid age range of 18 to 60 years.

Here’s how you could create equivalence classes:

  • Valid Equivalence Class: Ages 18 to 60 [18-60]
  • Invalid Equivalence Classes:
    • Ages less than 18: [-∞ to 17]
    • Ages greater than 60: [61 to ∞]
    • Non-numeric inputs: ["abc", "#$%", etc.]

Now, let's select representative values from each class:

  • Valid class: 25 (within the valid range)
  • Invalid classes:
    • Less than 18: 17
    • Greater than 60: 61
    • Non-numeric: “abc”

From these, we can generate the following test cases:

  1. Test Case 1: Age = 25 (Expected: Valid)
  2. Test Case 2: Age = 17 (Expected: Invalid)
  3. Test Case 3: Age = 61 (Expected: Invalid)
  4. Test Case 4: Age = "abc" (Expected: Invalid)
     

Best Practices for Equivalence Partitioning

To ensure you're creating effective equivalence classes, follow these key principles:

  1. All inputs in the class should test the same thing.
  2. If one test case in a class detects a bug, others in the same class are likely to find it too.
  3. If one test case does not catch a bug, others in the class likely won't either.

By adhering to these rules, you can reduce the number of test cases without compromising quality. While you may choose to create additional test cases, they usually won't uncover new issues. The main goal is to ensure broad test coverage while keeping the process manageable.
 

Watch Out for Edge Cases

Although equivalence partitioning is efficient, there's always a risk of missing edge cases. For example, imagine the developers added a condition like:

if (age == "30") 

  then REJECT
 

This type of unexpected behavior could slip through unless you have access to the source code or receive specific guidance from the developers.

 

When to Use Equivalence Partitioning

Equivalence Partitioning is ideal for systems with input ranges, where each value within a range is expected to behave similarly. To maximize its effectiveness, always confirm with the development team that the inputs within each equivalence class truly are equivalent.
 

Common Use Cases for Equivalence Partitioning

Here are some scenarios where equivalence partitioning works well:

  • Numeric ranges (e.g., age, weight)
  • Date ranges (e.g., birthdates, expiration dates)
  • String length validation (e.g., usernames, passwords)
  • Enumerated types (e.g., gender, country codes)
  • Monetary values (e.g., transaction or loan amounts)
  • File uploads (e.g., file size or type)
  • Inventory counts (e.g., stock or order quantities)
  • Interest rates (e.g., loan or savings rates)
  • User permissions (e.g., access levels, subscription tiers)
  • Survey responses (e.g., rating scales, multiple-choice answers)
     

Conclusion

Equivalence Partitioning is a valuable testing technique that helps testers reduce the number of test cases without sacrificing quality. By dividing input data into valid and invalid classes and selecting representative values, testers can streamline their process and ensure thorough coverage of the system's functionality. Just remember to be mindful of edge cases and always verify your assumptions about equivalence with the development team.

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