Boundary value analysis and
equivalence partitioning both are test case design strategies in black box
testing.
Equivalence Partitioning:
In this method the input domain data is divided into different
equivalence data classes. This method is typically used to
reduce the total number of test cases to a finite set of
testable test cases, still covering maximum requirements.
In short it is the process of
taking all possible test cases and placing them into classes. One test value is
picked from each class while testing.
E.g.: If
you are testing for an input box accepting numbers from 1 to 1000 then there is
no use in writing thousand test cases for all 1000 valid input numbers plus
other test cases for invalid data.
Using
equivalence partitioning method above test cases can be divided into three sets
of input data called as classes. Each test case is a representative of
respective class.
So in
above example we can divide our test cases into three equivalence classes of
some valid and invalid inputs.
Test cases for input box accepting numbers between 1 and 1000
using Equivalence Partitioning:
1) One input data class with all valid inputs. Pick a single value from range 1 to 1000 as a valid test case. If you select other values between 1 and 1000 then result is going to be same. So one test case for valid input data should be sufficient.
1) One input data class with all valid inputs. Pick a single value from range 1 to 1000 as a valid test case. If you select other values between 1 and 1000 then result is going to be same. So one test case for valid input data should be sufficient.
2) Input
data class with all values below lower limit. I.e. any value below 1, as a
invalid input data test case.
3) Input
data with any value greater than 1000 to represent third invalid input class.
So
using equivalence partitioning you have categorized all possible test cases
into three classes. Test cases with other values from any class should give you
the same result.
We
have selected one representative from every input class to design our test
cases. Test case values are selected in such a way that largest number of
attributes of equivalence class can be exercised.
Equivalence
partitioning uses fewest test cases to cover maximum requirements.
Boundary value analysis:
It’s widely recognized that input values at the extreme ends of
input domain cause more errors in system. More application errors
occur at the boundaries of
input domain. ‘Boundary value analysis’ testing technique is used to identify
errors at boundaries rather than finding those exist in center of input domain.
Boundary
value analysis is a next part of Equivalence partitioning for designing test
cases where test cases are selected at the edges of the equivalence classes.
Test cases for input box accepting numbers between 1 and 1000
using Boundary value analysis:
1) Test cases with test data exactly as the input boundaries of input domain i.e. values 1 and 1000 in our case.
1) Test cases with test data exactly as the input boundaries of input domain i.e. values 1 and 1000 in our case.
2) Test
data with values just below the extreme edges of input domains i.e. values 0
and 999.
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