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* The PROPERTIES clause. | * The PROPERTIES clause. | ||
Reason: the operations can depend on variables; the PROPERTIES talks only about constants. | Reason: the operations can depend on variables; the PROPERTIES talks only about constants. | ||
In future, we could allow using operation calls to fully static operations, not using variables and constants or just static operations of subsidiary machines. | |||
* The INITIALISATION clause. | * The INITIALISATION clause. | ||
Reason: the operations can depend on variables; the INITIALISATION cannot read variables. | Reason: the operations can depend on variables; the INITIALISATION cannot read variables. | ||
We could allow using operation calls to “static” operations in the INITIALISATION and possibly operations of already initialised subsidiary machines. | We could allow using operation calls to “static” operations in the INITIALISATION and possibly operations of already initialised subsidiary machines. |
As of version 1.10.0 ProB allows you to call query operations in expressions.
In general, B forbids to call operations in expressions: an operation is a substitution which can change the state, an expression is evaluated in a given state and does not modify it.
Also, the correctness of operations typically relies on the INVARIANT to hold, while expressions can be evaluated in many contexts, e.g., in the middle of an operation where the invariant is not yet re-established.
In this new experimental feature, ProB allows to call query operations (which do not modify the state) within certain expressions (where it is guaranteed that the invariant holds or is not required). To enable the feature one needs to set the preference ALLOW_OPERATION_CALLS_IN_EXPRESSIONS to TRUE.
The motivation is as follows:
Take the following example. One can see that the two query operations Double and Divisors can be called in the ASSERTIONS clause.
MACHINE CallQueryOperationInExpression DEFINITIONS SET_PREF_ALLOW_OPERATION_CALLS_IN_EXPRESSIONS == TRUE SETS ID={aa,bb} VARIABLES jj INVARIANT jj:ID INITIALISATION jj:=aa OPERATIONS r <-- Double(x) = PRE x:0..255 THEN r := (x+x) mod 255 END; r <-- Divisors(x) = PRE x:1..255 THEN VAR i,j IN i := 1; j:=0; WHILE i <= x DO IF x mod i = 0 THEN j := j+1 END; i:=i+1 INVARIANT i : 1..(x+1) VARIANT x-i END; r := j END END; r <-- Test = BEGIN r := Divisors(Double(2)*Double(3)) END ASSERTIONS Double(2) = 4; Double(128) = 1; Divisors(3) = 2; Divisors(4) = 3 END
Operation calls to expressions are currently allowed in
Operation calls in expressions are currently not allowed in:
Reason: the correctness of the operation can depend on the invariant being true. If the INVARIANT itself calls the operation we have a potential circular reasoning and problem.
Reason: the operations can depend on variables; the PROPERTIES talks only about constants. In future, we could allow using operation calls to fully static operations, not using variables and constants or just static operations of subsidiary machines.
Reason: the operations can depend on variables; the INITIALISATION cannot read variables. We could allow using operation calls to “static” operations in the INITIALISATION and possibly operations of already initialised subsidiary machines.