Proving SAT instances in FGL
Calls of SAT in FGL are controlled by configuration objects of the type
fgl-sat-config. (An exception is when the default attachment of the
stub function interp-st-sat-check is changed by the user; this topic
pertains to the usual situation where its attachment is
When FGL calls SAT automatically on the result of symbolically executing a
theorem, the fgl-sat-config object that is used is the result of calling
the attachable stub function fgl-toplevel-sat-check-config. When FGL
rewrite rules or top-level theorems call SAT using fgl-sat-check, the
configuration object is provided as an argument to that function. FGL also
checks vacuity of hypotheses by default, and the default configuration for this
uses another attachable stub function fgl-toplevel-vacuity-check-config.
An fgl-sat-config object is either an fgl-satlink-monolithic-sat-config or an fgl-ipasir-config object. When
it is a fgl-satlink-monolithic-sat-config, satisfiability is checked by
perhaps performing some
and subsequently calling a
When it is an fgl-ipasir-config, satisfiability is
checked by calling an
incremental SAT shared library, which may allow the
current check to benefit from learned lemmas and heuristic information from
Both the fgl-satlink-monolithic-sat-config and fgl-ipasir-config types are simple tagged products, and they have two fields
- ignore-pathcond says to ignore the path condition when checking satisfiability
- ignore-constraint says to ignore the constraint condition (see def-fgl-boolean-constraint when checking satisfiability.
The other fields of the fgl-satlink-monolithic-sat-config object are
- satlink-config-override may either be a satlink::config object
or nil. If set, this object determines how to call SAT, e.g., what
command-line solver to use. If not, the SATLINK configuration object used is
the attachment of the stub function fgl-satlink-config.
- transform is a Boolean value; if T, then AIGNET transforms are
used to simplify the problem before calling the solver.
- transform-config-override is a list of AIGNET transform configuration
objects; see aignet::aignet-comb-transforms. If empty, the attachment
of the stub function fgl-aignet-transforms-config is used as the list of
The other fields of the fgl-ipasir-config object are:
- ipasir-callback-limit may be nil or a natural number. If a number, it
provides a work limit for the incremental SAT checker, the precise meaning of
which depends on the solver but is generally a conflict or restart count.
- ipasir-recycle-callback-limit may be nil or a natural number. If a
number, it causes the solver object to be destroyed and recreated after the
given number of callbacks, which may be important for performance.
- ipasir-index is a natural number, default 0. This determines which
solver object is used. If a new ipasir index is used, then a new solver object
is created and initialized, and every subsequent use of that ipasir index
refers to that solver object (until perhaps the recycle-callback-limit causes
it to be reinitialized).
- Checking satisfiability of intermediate terms during FGL interpretation.
- Check that the given object is satisfiable and report an error if not.
- Check satisfiability during FGL interpretation and print counterexamples.