As of version 1.3.5-beta7 ProB can make use of externally defined functions.
These functions must currently be written in Prolog (in principle C, Java, Tcl or even other languages can be used via the SICStus Prolog external function interfaces).
These functions can be used to write expression, predicates, or substitutions.
The general mechanism that is used is to mark certain DEFINITIONS as external, in which case ProB will make use of external Prolog code rather than using the right-hand-side of the DEFINITION whenever it is used. However, these DEFINITIONS can often (unless they are polymorphic) be wrapped into B (constant) functions. If you just want to use the standard external functions already defined by ProB, then you don't have to understand this mechanism in detail (or at all).
We have a PDF describing the external functions generated from a ProB-Jupyter notebook:
File:ExternalFunctions.pdf
The Notebook is available and can now be launched via binder.
Standard Libraries provided by ProB
In a first instance we have predefined a series of external functions and grouped them in various library machines and definition files:
- LibraryMath.mch: defining sin, cos, tan, sinx, cosx, tanx, logx, gcd, msb, random as well as access to all other Prolog built-in arithmetic functions.
- LibraryStrings.mch: functions manipulating B STRING objects by providing length, append, split and conversion functions chars, codes.
- LibraryStrings.def used by LibraryStrings.mch: providing direct access to various operators on strings (STRING_LENGTH, STRING_APPEND, STRING_SPLIT INT_TO_STRING,...)
- LibraryFiles.mch: various functions to obtain information about files and directories in the underlying file system
- LibraryIO.def: providing functions to write information to screen or file. Note: these external functions are polymorphic and as such cannot be defined as B constants: you have to use the DEFINITIONS provided in LibraryIO.def.
- CHOOSE.def: providing the Hilbert choice operator for choosing a designated element from each set. Again, this function is polymorphic and thus cannot be defined as a B function. This function is useful for defining recursive functions over sets (see also TLA). Note that it in ProB it is undefined for the empty set.
- LibraryMeta.def: providing access to meta-information about the loaded model (PROJECT_INFO), about the state space (HISTORY, STATE_TRANS, ...) and about ProB itself (GET_PREF, PROB_INFO_STR, PROB_INFO_INT,..).
- LibraryReals.def: providing access to operators on Reals and Floats (RSIN, RCOS, RTAN, REXP, ROUND, RLOG,RSQRT,...).
- LibraryRegex.def: providing access to regular expression operators on strings (REGEX_MATCH, REGEX_REPLACE, REGEX_SEARCH,...)
- LibraryCSV.def: contains a READ_CSV external function to read in CSV files or strings and convert them to a B data structure
- LibrarySVG.def: providing utility functions for VisB (svg_points, svg_axis,...)
- LibraryXML.def: contains a READ_XML external function to read in XML files or strings and convert them to a B data structure with strings and records. Also contains READ_JSON to read JSON files and converting them to the same B format.
- LibraryBits.def: contains bit-manipulation functions on integers (BNOT, BAND, BXOR,...).
- SORT.def: providing sorting related functions (SORT, SQUASH, REPLACE).
- SCCS.def: providing access to SCCS to compute the strongly connected components of a relation and CLOSURE1 an alternative algorithm for compting the transitive closure of a relation.
Since version 1.5 the standard library is shipped with ProB and references to machines and DEFINITION-files in the standard library are resolved automatically when referenced (see PROBPATH for information about how to customize the lookup path).
To use a library machine you can use the SEES mechanism:
SEES LibraryMath
In general you can do the following with an external function, such as sin, wrapped into a constant:
- apply the function: sin(x)
- compute the image of the function: sin[1..100]
- compose the function with a finite relation on the left: ([1..100] ; sin)
- compute the domain of the function: dom(sin)
To use a library definition file, you need to include the file in the DEFINITIONS clause:
DEFINITIONS
"LibraryIO.def"
Overview of the External Function DEFINITION Mechanism
Currently, external functions are linked to classical B machines using B DEFINITIONS as follows:
- one definition, which defines the function as it is seen by tools other than ProB (e.g., Atelier-B). Suppose we want to declare an external cosinus function named COS, then this definition could be COS(x) == cos(x).
- one definition declaring the type of the function. For COS this would be EXTERNAL_FUNCTION_COS == INTEGER --> INTEGER.
- Prolog code which gets called by ProB in place of the right-hand-side of the first definition
Usually, it is also a good idea to encapsulate the external function inside a CONSTANT which is defined as a lambda abstraction with as body simply the call to the first DEFINITION. For COS this would be cos = %x.(x:NATURAL|COS(x)). Observe that for Atelier-B this is a tautology.
For ProB, the use of such a constant allows one to have a real B function representing the external function, for which we can compute the domain, range, etc.
For the typing of an external function NAME with type TYPE there are three possibilities, depending on whether the function is a function, a predicate or a substitution:
- EXTERNAL_FUNCTION_NAME == TYPE
- EXTERNAL_PREDICATE_NAME == TYPE
- EXTERNAL_SUBSTITUTION_NAME == TYPE
In case the external function is polymorphic, the DEFINITION can take extra arguments: each argument is treated like a type variable.
For example, the following is used in CHOOSE.def to declare the Hilbert choice operator:
- EXTERNAL_FUNCTION_CHOOSE(T) == (POW(T)-->T)