Parameter Make.2-A
module E = E
module Solver : Libzipperposition.Sat_solver.S
module BLit = Libzipperposition.BBox.Lit
val split : E.multi_simpl_rule
Split a clause into components
val check_empty : E.unary_inf_rule
Forbid empty clauses with trails, i.e. adds the negation of their trails to the SAT-solver
val before_check_sat : unit Logtk.Signal.t
val after_check_sat : unit Logtk.Signal.t
val filter_absurd_trails : (Libzipperposition.Trail.t -> bool) -> unit
filter_trails f
callsf
on every trail associated with the empty clause. Iff
returnsfalse
, the trail is ignored, otherwise it's negated and sent to the SAT solver
val check_satisfiability : E.generate_rule
Checks that the SAT context is still valid
type cut_res
= private
{
cut_form : Libzipperposition.Cut_form.t;
the lemma itself
cut_pos : E.C.t list;
clauses true if lemma is true
cut_lit : BLit.t;
lit that is true if lemma is true
cut_depth : int;
if the lemma is used to prove another lemma
cut_proof : Logtk.Proof.Step.t;
where does the lemma come from?
cut_proof_parent : Logtk.Proof.Parent.t;
how to justify sth from the lemma
cut_reason : unit CCFormat.printer option;
Informal reason why the lemma was added
}
This represents a cut on a formula, where we obtain a list of clauses
cut_pos
representing the formula itself with the traillemma
, and a boolean literalcut_lit
that is true iff the trail is true.Other modules, when a cut is introduced, will try to disprove the lemma (e.g. by induction or theory reasoning).
val cut_form : cut_res -> Libzipperposition.Cut_form.t
val cut_pos : cut_res -> E.C.t list
val cut_lit : cut_res -> BLit.t
val cut_depth : cut_res -> int
val cut_proof : cut_res -> Logtk.Proof.Step.t
val cut_proof_parent : cut_res -> Logtk.Proof.Parent.t
val pp_cut_res : cut_res CCFormat.printer
val cut_res_clauses : cut_res -> E.C.t Iter.t
val print_lemmas : unit CCFormat.printer
print the current list of lemmas, and their status
val introduce_cut : ?reason:unit CCFormat.printer -> ?penalty:int -> ?depth:int -> Libzipperposition.Cut_form.t -> Logtk.Proof.Step.t -> cut_res
Introduce a cut on the given clause(s). Pure.
- parameter reason
some comment on why the lemma was added
val add_prove_lemma : (cut_res -> E.C.t list E.conversion_result) -> unit
Add a mean of proving lemmas
val add_lemma : cut_res -> unit
Add the given cut to the list of lemmas. Modifies the global list of lemmas. It will call the functions added by
add_prove_lemma
to try and prove this one.
val add_imply : cut_res list -> cut_res -> Logtk.Proof.Step.t -> unit
add_imply l res
means that the conjunction of lemmas inl
implies that the lemmares
is proven
val on_input_lemma : cut_res Logtk.Signal.t
Triggered every time a cut is introduced for an input lemma (i.e. every time a statement of the form `lemma F` is translated)
val on_lemma : cut_res Logtk.Signal.t
Triggered every time a cut is introduced, by any means. In particular it is triggered at least as often as
on_input_lemma
val convert_lemma : E.clause_conversion_rule
Intercepts input lemmas and converts them into clauses. Triggers
on_input_lemma
with the resulting cut