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Mithi25
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Quote Mithi25 Replybullet Topic: Equivalence partitioning
    Posted: 01Aug2009 at 6:11am

Overview


Equivalence partitioning is a method for deriving test cases. In this method, classes of input conditions called equivalence classes are identified such that each member of the class causes the same kind of processing and output to occur. In this method, the tester identifies various equivalence classes for partitioning. A class is a set of input conditions that are is likely to be handled the same way by the system. If the system were to handle one case in the class erroneously, it would handle all cases erroneously.


Contents:


Definition


Equivalence partitioning is a software testing technique to minimize number of permutation and combination of input data. In equivalence partitioning, data is selected in such a way that it gives as many different out put as possible with the minimal set of data.

If software behaves in an identical way for a set of value, then the set is termed as equivalence class or a partition. It can be assumed safely that functionality of the software will be same for any data value from the equivalence class or partition. In equivalence partitioning, input data is analyzed and divided into equivalence classes which produces different output.  Now, data from these classes can be representative of all the input values that your software expect. For equivalence classes, it can be assumed that software will behave in exactly same way for any data value from the same partition.

The Theory


The testing theory related to equivalence partitioning says that only one test case of each partition is needed to evaluate the behaviour of the program for the related partition. In other words it is sufficient to select one test case out of each partition to check the behaviour of the program. To use more or even all test cases of a partition will not find new faults in the program. The values within one partition are considered to be "equivalent." Thus the number of test cases can be reduced considerably.


An additional effect by applying this technique is that you also find the so called "dirty" test cases. An inexperienced tester may be tempted to use as test cases the input data 1 to 12 for the month and forget to select some out of the invalid partitions. This would lead to a huge number of unnecessary test cases on the one hand, and a lack of test cases for the dirty ranges on the other hand.

Types of Equivalence Classes


  • Continuous classes, or ranges of values, run from one point to another, with no clear separations of values. An example is a temperature range.

  • Discrete classes have clear separation of values. Discrete classes are sets, or enumerations.
  • Boolean classes are either true or false. Boolean classes only have two values, either true or false, on or off, yes or no. An example is whether a checkbox is checked or unchecked.

Why Learn Equivalence Partitioning?


Equivalence partitioning drastically cuts down the number of test cases required to test a system reasonably.



It is an attempt to get a good 'hit rate', to find the most errors with the smallest number of test cases.


Designing Test Cases Using Equivalence Partitioning


To use equivalence partitioning, you will need to perform two steps

  • Identify the equivalence classes
  • Design test cases

    STEP 1: IDENTIFY EQUIVALENCE CLASSES

    Take each input condition described in the specification and derive at least two equivalence classes for it. One class represents the set of cases which satisfy the condition (the valid class) and one represents cases which do not (the invalid class ) Following are some general guidelines for identifying equivalence classes:

    alue is input to the system and must be within a range of values, identify one valid class inputs which are within the valid range and two invalid equivalence classes inputs which are too low and inputs which are too high. For example, if an item in inventory can have a quantity of - 9999 to + 9999, identify the following classes: 1. one valid class: (QTY is greater than or equal to -9999 and is less than or equal to 9999). This is written as (- 9999 < = QTY < = 9999) 2. the invalid class (QTY is less than -9999), also written as (QTY < -9999) 3. the invalid class (QTY is greater than 9999) , also written as (QTY >9999)

    b) If the requirements state that the number of items input by the system at some point must lie within a certain range, specify one valid class where the number of inputs is within the valid range, one invalid class where there are too few inputs and one invalid class where there are, too many inputs. For example, specifications state that a maximum of 4 purchase orders can be registered against anyone product. The equivalence classes are : the valid equivalence class: (number of purchase orders is greater than or equal to 1 and less than or equal to 4 , also written as (1 < = no. of purchase orders < = 4) the invalid class (no. of purchase orders> 4) the invalid class (no. of purchase orders < 1)

    c) If the requirements state that a particular input item match one of a set of values and each case will be dealt with the same way, identify a valid class for values in the set and one invalid class representing values outside of the set. For example, if the requirements state that a valid province code is ON, QU, and NB, then identify : the valid class code is one of ON, QU, NB the invalid class code is not one of ON, QU, NB

    d) If the requirements state that a particular input item match one of a set of values and each case will be dealt with differently, identify a valid equivalence class for each element and only one invalid class for values outside the set. For example, if a discount code must be input as P for preferred customer, R for standard reduced rate, or N for none, and if each case is treated differently, identify the valid class code = P the valid class code = R the valid class code = N the invalid class code is not one of P, R, N

    e) If you think any elements of an equivalence class will be handled differently than the others, divide the equivalence class to create an equivalence class with only these elements and an equivalence class with none of these elements. For example, a bank account balance may be from $0 up to $ 1,000,000, and balances $ 1,000 or over are not subject to service charges. Identify : the valid class: ($ 0 < = balance < $ 1,000) i.e., balance is between 0 and $ 1,000 - not including $ 1,000 the valid class: ($ 1, 000 < = balance < = $ 1,000,000 i.e., balance is between $ 1,000 and $1,000,000 inclusive the invalid class: (balance < $ 0) the invalid class: (balance> $ 1,000,000)

     

  • Equivalence partitioning drastically cuts down the number of test cases required to test a system reasonably. It is an attempt to get a good 'hit rate', to find the most errors with the smallest number of test cases.





    Edited by Mithi25 - 01Aug2009 at 6:12am



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