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Alternatively, you could for example use the constraint-based test-case generator to find for every operation the shortest trace that enables it. | Alternatively, you could for example use the constraint-based test-case generator to find for every operation the shortest trace that enables it. | ||
More details are available in the [[Tutorial_Model-Based_Testing]] | |||
First select the "Constraint-based Testcase Generation.." command in the Analyse menu: | |||
[[file:CBCMBTMenu.png|center||400px]] | |||
Now click on the ok button in the dialog box (which allows you to select the target operations to cover in the generated test cases): | |||
[[file:CBCMBTDialog.png |center||500px]] | |||
ProB will then find four test cases for you, one for each operation: | |||
[[file:CBCMBTResult.png |center||300px]] | |||
You can also visualise these test cases as a tree by clicking the "View Tree" button: | |||
[[file:CBCMBTTreeResult.png |center||300px]] | |||
More details are available in the [[Tutorial_Model-Based_Testing]] and [[Tutorial_Model_Checking,_Proof_and_CBC]] sections. |
Make sure you have the Lift.mch model from the first part of the tutorial: Starting ProB and first animation steps.
Add the following operation to the Lift model:
jump(level) = PRE level : 0..99 THEN floor := level END
Now reload your model and initialise the machine. Your ProB window should now look as follows:
As you can see, only 10 values for the level parameter of the jump operation are displayed in the "Enabled Operations" pane. The orange "max" button to the left of "Enabled Operation" tells you that not all possible parameter values for the operations were computed.
There are several solutions to overcome this.
First, you could increase the "MAX_OPERATIONS" preference of ProB by selecting the "Animation Preferences" command in the "Preferences" menu:
You should then set the preference "" to at least 101 and then re-load the B machine.
The alternative is to provide the parameter value for level yourself. For this, select the "Execute an Operation..." command in the animate menu:
After that, select the jump operation
and you will be provided with the following dialog:
Type in 98 into the level field and hit the "Execute" button.
Note: instead or in addition to providing concrete values, you can also specify a predicate that constrains the values of the parameters:
The above predicate, level>96 & level mod 2 =0 would select the same value 98 for level. When there are multiple solutions, ProB will only execute the operation for the first solution found.
You can also tell ProB to try and perform random enumerations. This feature is available in ProB 1.5.0 or newer. You add the following lines to your model:
DEFINITIONS SET_PREF_RANDOMISE_ENUMERATION_ORDER == TRUE
Alternatively, you can set this preference using the "Advanced Preferences" pane in the Preferences menu. After reloading the machine you should see a picture similar to the following one:
You can also use the constraint solver to construct sequences which are of interest to you. Let us add the following operation to the lift model:
top_reached = PRE floor=99 THEN skip END
Now suppose we want to execute this new operation as early as possible. We can ask the constraint solver to generate a feasible sequence of operations. First select the "Find Sequence..." command in the Verify menu:
Now type in
jump ; top_reached
in this dialog box:
ProB will then find a solution operation sequence for you and execute it:
Alternatively, you could for example use the constraint-based test-case generator to find for every operation the shortest trace that enables it.
First select the "Constraint-based Testcase Generation.." command in the Analyse menu:
Now click on the ok button in the dialog box (which allows you to select the target operations to cover in the generated test cases):
ProB will then find four test cases for you, one for each operation:
You can also visualise these test cases as a tree by clicking the "View Tree" button:
More details are available in the Tutorial_Model-Based_Testing and Tutorial_Model_Checking,_Proof_and_CBC sections.