- Documentation
- Reference manual
- Introduction
- Overview
- Initialising and Managing a Prolog Project
- Built-in Predicates
- SWI-Prolog extensions
- Modules
- Tabled execution (SLG resolution)
- Constraint Logic Programming
- CHR: Constraint Handling Rules
- Multithreaded applications
- Coroutining using Prolog engines
- Foreign Language Interface
- Using SWI-Prolog in your browser (WASM)
- Deploying applications
- Packs: community add-ons
- The SWI-Prolog library
- Hackers corner
- Compatibility with other Prolog dialects
- Glossary of Terms
- SWI-Prolog License Conditions and Tools
- Summary
- Bibliography
- Packages
- Reference manual
C Compatibility with other Prolog dialects
This chapter explains issues for writing portable Prolog programs. It was started after discussion with Vitor Santos Costa, the leading developer of YAP Prolog250http://yap.sourceforge.net/ YAP and SWI-Prolog have expressed the ambition to enhance the portability beyond the trivial Prolog examples, including complex libraries involving foreign code.
Although it is our aim to enhance compatibility, we are still faced
with many incompatibilities between the dialects. As a first step both
YAP and SWI will provide some instruments that help developing portable
code. A first release of these tools appeared in SWI-Prolog 5.6.43. Some
of the facilities are implemented in the base system, others in the
library library(dialect.pl)
.
- The Prolog flag dialect
is an unambiguous and fast way to find out which Prolog dialect executes
your program. It has the value
swi
for SWI-Prolog andyap
on YAP. - The Prolog flag version_data
is bound to a term
swi(Major, Minor, Patch, Extra)
- Conditional compilation using
:- if(Condition)
...:- endif
is supported. See section 4.3.1.2. - The predicate expects_dialect/1
allows for specifying for which Prolog system the code was written.
- The predicates exists_source/1
and source_exports/2
can be used to query the library content. The require/1
directive can be used to get access to predicates without knowing their
location.
- The module predicates use_module/1, use_module/2
have been extended with a notion for‘import-except’and‘import-as’.
This is particularly useful together with reexport/1
and reexport/2
to compose modules from other modules and mapping names.
- Foreign code can expect
__SWI_PROLOG__
when compiled for SWI-Prolog and__YAP_PROLOG__
when compiled on YAP.
- :- expects_dialect(+Dialect)
- This directive states that the code following the directive is written
for the given Prolog Dialect. See also dialect.
The declaration holds until the end of the file in which it appears. The
current dialect is available using prolog_load_context/2.
The exact behaviour of this predicate is still subject to discussion. Of course, if Dialect matches the running dialect the directive has no effect. Otherwise we check for the existence of
library(dialect/Dialect)
and load it if the file is found. Currently, this file has this functionality:- Define system predicates of the requested dialect we do not have.
- Apply goal_expansion/2
rules that map conflicting predicates to versions emulating the
requested dialect. These expansion rules reside in the dialect
compatibility module, but are applied if prolog_load_context(dialect,
Dialect) is active.
- Modify the search path for library directories, putting libraries
compatible with the target dialect before the native libraries.
- Setup support for the default filename extension of the dialect.
- Define system predicates of the requested dialect we do not have.
- source_exports(+Spec, +Export)
- Is true if source Spec exports Export, a predicate indicator. Fails without error otherwise.