Rules-DSL: Difference between revisions

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ACTIVATION predicate
ACTIVATION predicate
BODY
BODY
     DEFINE variable name
     DEFINE variable_name
         TYPE type of variable
         TYPE type of variable
         DUMMY_VALUE value of variable before execution (initialisation)
         DUMMY_VALUE value of variable before execution (initialisation)
         VALUE value of variable after execution
         VALUE value of variable after execution
    END
    END
END
END
</pre>
</pre>

Revision as of 08:25, 4 May 2023

Rules DSL

The B Rules domain-specific language mainly provides operations for data validation. Rules allow checking for expected properties, while computations can be used to define and compute variables based on the successful execution of certain rules. Furthermore you can use functions to compute values multiple times depending on different inputs.

Setting up a Rules Machine

Rules machines are stored in .rmch-files. The general setup for the machine header is:

RULES_MACHINE machine_name
REFERENCES list of rules machines

The latter allows inclusion of other rules machines. Below, you can use SETS, DEFINITIONS, PROPERTIES or CONSTANTS as in a normal B machine. Note that VARIABLES are not allowed as they are set by rule based computations.

Rules

Rules can be defined in the OPERATIONS-section of a rules machine. Depending on whether the expectations are met, a rule returns SUCCESS or FAIL. If a rule fails, additionally provided string messages are returned as counterexamples. In the B Rules-DSL a rule has the following structure:

RULE rule_name // will be the name of the operation and variable storing the result
RULE_ID id
DEPENDS_ON_RULE list of rules
DEPENDS_ON_COMPUTATION list of computations
ACTIVATION predicate
ERROR_TYPES positive number of error types
BODY
    arbitrarily many rule bodys (see below)
END

If a rule depends on other rules, it can only be executed if the specified rules have been successfully checked, i.e. their corresponding variables rule_name have the value SUCCESS. In addition, rules can depend on computations. In this case, a rule is enabled when the specified calculation has been executed. You can also specify an individual ACTIVATION predicate. You can omit all activation predicates and dependencies if they are not needed.

If you want to use different error types, e.g. if you use multiple bodys in one rule and want to distinguish between them, you must declare the number of error types in the rule header. Error types are also optional.

Within the body you can use as many conditions for the outer rule as you like. There are two constructs for specifiying the expectation of the rule. The following is formulated in a positive way, i.e. the execution of the rule leads to SUCCESS if the conditions in the EXPECT-part are fulfilled.

    RULE_FORALL
        list of identifiers
    WHERE 
        conditions on identifiers
    EXPECT
        conditions that must be fulfilled for this rule
    ERROR_TYPE
        number encoding error type, must be in range of error types
    COUNTEREXAMPLE 
        STRING_FORMAT("errorMessage ~w", identifier from list)
    END

Alternatively, you can also formulate the rule negatively, i.e. the execution of the rule leads to FAIL if the conditions in the WHEN-part are fulfilled.

    RULE_FAIL 
        list of identifiers
    WHEN 
        conditions on identifiers for a failing rule
    ERROR_TYPE
        number encoding error type, must be in range of error types
    COUNTEREXAMPLE 
        STRING_FORMAT("errorMessage ~w", identifier from list)
    END

Counterexamples are of the type INTEGER <-> STRING. The integer contains the error type, while the string contains the message of the counterexample.

Computations

Computations can be used to create variables. As for rules, their activation can depend on further rules, computations or any other predicate specified as an activation condition. Note that any variable used in ACTIVATION must have an initial value. For this purpose, use the DUMMY_VALUE (in the corresponding computation of that variable), which initializes the variable with the specified value instead of the empty set. The general syntax for computations:

COMPUTATION computation_name
DEPENDS_ON_RULE list of rules
DEPENDS_ON_COMPUTATION list of computations
ACTIVATION predicate
BODY
    DEFINE variable_name
        TYPE type of variable
        DUMMY_VALUE value of variable before execution (initialisation)
        VALUE value of variable after execution
    END
END

You can omit all activation predicates and dependencies and also the dummy value if they are not needed. After the execution of a computation, the value of the corresponding variable computation_name is changed from NOT_EXECUTED to EXECUTED.

Functions

FUNCTION output <-- function_name(list of input parameters)
PRECONDITION
    predicate
POSTCONDITION
    predicate
BODY
   some B statements
   output := ...
END

Use Rules for Data Validation