Event-B Indexers: Difference between revisions
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====Occurrences==== | ====Occurrences==== | ||
* DECLARATION of carrier sets [corresponding element] | * DECLARATION of carrier sets [corresponding element/Identifier] | ||
* DECLARATION of constants [corresponding element] | * DECLARATION of constants [corresponding element/Identifier] | ||
* REFERENCE of elements in axioms [Axiom/Predicate/b..e] | * REFERENCE of elements in axioms [Axiom/Predicate/b..e] | ||
* REFERENCE of elements in theorems [Theorem/Predicate/b..e] | * REFERENCE of elements in theorems [Theorem/Predicate/b..e] | ||
Revision as of 09:38, 10 March 2009
Purpose
Event-B indexers populate the index repository. Currently, indexers are implemented for the following files :
- machine (.bum)
- context (.buc)
Event-B Occurrence Kinds
So far, the following occurrence kinds have been defined :
- DECLARATION : when a variable, a carrier set, ..., is declared
- REFERENCE : when a variable, a carrier set, ..., is referenced (but not modified)
- MODIFICATION : when a variable is modified (e.g., occurs in the left-hand side of an event action)
- REDECLARATION : when a variable, parameter or event is redeclared (refined).
Please notice the distinction between the index repository notion of declaration (IDeclaration) and the Event-B occurrence kind DECLARATION.
What Is Indexed
Currently, indexed elements are :
- carrier sets
- constants
- variables
- events
- parameters
Formulas which cannot be parsed are ignored.
In the descriptions below, the following notation will be used to specify locations :
- [element] : internal location
- [element/attribute] : attribute location
- [element/attribute/begin..end] : attribute substring location
Context Indexer
Dependencies
- extended contexts
Declarations
- carrier sets
- constants
Occurrences
- DECLARATION of carrier sets [corresponding element/Identifier]
- DECLARATION of constants [corresponding element/Identifier]
- REFERENCE of elements in axioms [Axiom/Predicate/b..e]
- REFERENCE of elements in theorems [Theorem/Predicate/b..e]
Example:
Ctx Sets S Constants C Axioms axm1 : C ∈ S
We will end up with the following occurrences :
S : DECLARATION in [Ctx.Root] REFERENCE in [axm1/Predicate/4..5] C : DECLARATION in [Ctx.Root] REFERENCE in [axm1/Predicate/0..1]
Exports
- imported and declared carrier sets
- imported and declared constants
Machine Indexer
Dependencies
- refined machines
- seen contexts
Declarations
- variables
- events
- parameters
Occurrences
- DECLARATION of (local) variables [Root]
- DECLARATION of (local) events [Root]
- DECLARATION of (local) parameters [Event]
- REDECLARATION of abstract variables in the local variables that redeclare them [Variable/Identifier]
- REDECLARATION of abstract events in the local events that refine them [Event/RefinesEvent/Target]
- REDECLARATION of abstract parameters in the local parameters that redeclare them [Parameter/Identifier]
- REFERENCE of abstract parameters or variables in witnesses [Witness/Label]
- REFERENCE of elements in invariants [Invariant/Predicate/b..e]
- REFERENCE of elements in theorems [Theorem/Predicate/b..e]
- REFERENCE of elements in variants [Variant/Expression/b..e]
- REFERENCE of elements in guards [Guard/Predicate/b..e]
- REFERENCE of elements in witnesses [Witness/Predicate/b..e]
- REFERENCE of non assigned elements in actions [Action/Assignment/b..e]
- MODIFICATION of assigned elements in actions [Action/Assignment/b..e]
Example :
M1
VARIABLES
var1
INVARIANTS
inv1 : var1 > 0
EVENTS
INITIALISATION
THEN
act1 : var1 := 1
After indexing M1, we will have the following occurrences:
M1.var1 : DECLARATION in [M1.Root] REFERENCE in [M1.inv1/Predicate/0..4] MODIFICATION in [M1.act1/Assignment/0..4] M1.INITIALISATION : DECLARATION in [M1.Root]
Then, if we add another machine
M2
REFINES
M1
VARIABLES
var1
EVENTS
INITIALISATION
THEN
act1 : var1 := 1
we will add the following occurrences :
M1.var1 : REDECLARATION in [M2.var1/Identifier] M2.var1 : DECLARATION in [M2.Root] MODIFICATION in [M2.act1/Assignment/0..4] M2.INITIALISATION : DECLARATION in [M2.Root]
Exports
- imported carrier sets
- imported constants
- local variables
- local events
- local parameters
Propagation
Propagators are defined for :
- events (EventPropagator) to propagate through refines
- parameters (IdentifierPropagator) to propagate through redeclaration
- variables (IdentifierPropagator as well) to propagate through redeclaration
In the above example with machines M1 and M2, after both files have been indexed, we can query occurrences of M1.var1.
With no propagator, the result would be :
M1.var1 : DECLARATION in [M1.Root] REFERENCE in [M1.inv1/Predicate/0..4] MODIFICATION in [M1.act1/Assignment/0..4] REDECLARATION in [M2.var1/Identifier]
Using the IdentifierPropagator, the result becomes :
M1.var1 (propagated) : DECLARATION in [M1.Root] REFERENCE in [M1.inv1/Predicate/0..4] MODIFICATION in [M1.act1/Assignment/0..4] REDECLARATION in [M2.var1/Identifier] DECLARATION in [M2.Root] MODIFICATION in [M2.act1/Assignment/0..4]
