package dolmen

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Signature used by the Logic class, which parses languages such as tptp, smtlib, etc... Statements of dirrent languages currently have a lot less in common than terms, so this interface looks a lot more like a patchwork of different logical framework directives than it should.

type t

The type of statements.

Optional infos for statements

val annot : ?loc:L.t -> T.t -> T.t list -> T.t

Constructors for annotations. Annotations are mainly used in TPTP.

Generic statements

val import : ?loc:L.t -> string -> t

Import directive. Same as include_ but without filtering on the statements to import.

val include_ : ?loc:L.t -> string -> I.t list -> t

Include directive. include file l means to include in the current scope the directives from file file that appear in l. If l is the empty list, all directives should be imported.

val defs : ?loc:L.t -> ?attrs:T.t list -> t list -> t

Pack a list of mutually recursive definitions into a single statement.

Alt-ergo Statements

val logic : ?loc:L.t -> ac:bool -> I.t list -> T.t -> t

Functions type definition. Allows to specify whether a list of symbol is ac or not

val record_type : ?loc:L.t -> I.t -> T.t list -> (I.t * T.t) list -> t

Declares a new record type, with first a list of type variables, and then the list of the record fields.

val abstract_type : ?loc:L.t -> I.t -> T.t list -> t

Declare a new abstract type, quantified over the given list of type variables.

val algebraic_type : ?loc:L.t -> I.t -> T.t list -> (I.t * T.t list) list -> t

Defines a new algebraic datatype, quantified over the lsit of type variables, and with a list of cases each containing a constructor id and a list of fields.

val rec_types : ?loc:L.t -> t list -> t

Pack together a list of mutually recursive type definitions.

val pred_def : ?loc:L.t -> I.t -> T.t list -> T.t list -> T.t -> t

Symbol definition. pred_def p vars args body means that "p(args) = (body : bool)", i.e p is a predicate symbol with arguments args, and which returns the value body which is of type bool. The predicate can also be a top-level predicate in which case it doesn't have arguments and it just returns the value of the body which means "p = (body : bool)".

val axiom : ?loc:L.t -> I.t -> T.t -> t

Create a axiom.

val case_split : ?loc:L.t -> I.t -> T.t -> t

Create a case split.

val theory : ?loc:L.t -> I.t -> I.t -> t list -> t

Create a theory, extending another, with the given list of declarations.

val rewriting : ?loc:L.t -> I.t -> T.t list -> t

Create a set of rewriting rules.

val prove_goal : ?loc:L.t -> I.t -> T.t -> t

Goal declaration.

Dimacs&iCNF Statements

val p_cnf : ?loc:L.t -> int -> int -> t

Header of dimacs files. First argument is the number of variables, second is the number of clauses.

val p_inccnf : ?loc:L.t -> unit -> t

Header of iCNF files.

val clause : ?loc:L.t -> T.t list -> t

Add to the current set of assertions the given list of terms as a clause.

val assumption : ?loc:L.t -> T.t list -> t

Solve the current set of assertions, with the given assumptions.

Smtlib statements

val pop : ?loc:L.t -> int -> t
val push : ?loc:L.t -> int -> t

Directives for manipulating the set of assertions. Push directives creates backtrack point that can be reached using Pop directives.

val reset_assertions : ?loc:L.t -> unit -> t

Reset all assertions that hase been pushed.

val assert_ : ?loc:L.t -> T.t -> t

Add an assertion to the current set of assertions.

val check_sat : ?loc:L.t -> T.t list -> t

Directive that instructs the prover to solve the current set of assertions, undr some local assumptions.

val set_logic : ?loc:L.t -> string -> t

Set the logic to be used for solving.

val get_info : ?loc:L.t -> string -> t
val set_info : ?loc:L.t -> T.t -> t

Getter and setter for various informations (see smtlib manual).

val get_option : ?loc:L.t -> string -> t
val set_option : ?loc:L.t -> T.t -> t

Getter and setter for prover options (see smtlib manual).

val type_decl : ?loc:L.t -> I.t -> int -> t

Type declaration. type_decl s n declare s as a type constructor with arity n.

val type_def : ?loc:L.t -> I.t -> I.t list -> T.t -> t

Type definition. type_def f args body declare that f(args) = body, i.e any occurence of "f(l)" should be replaced by body where the "args" have been substituted by their corresponding value in l.

val datatypes : ?loc:L.t -> (I.t * T.t list * (I.t * T.t list) list) list -> t

Inductive type definitions. TODO: some more documentation.

val fun_decl : ?loc:L.t -> I.t -> T.t list -> T.t list -> T.t -> t

Symbol declaration. fun_decl f vars args ret defines f as a function which takes arguments of type as described in args and which returns a value of type ret.

val fun_def : ?loc:L.t -> I.t -> T.t list -> T.t list -> T.t -> T.t -> t

Symbol definition. fun_def f vars args ret body means that "f(args) = (body : ret)", i.e f is a function symbol with arguments args, and which returns the value body which is of type ret.

val funs_def_rec : ?loc:L.t -> (I.t * T.t list * T.t list * T.t * T.t) list -> t

Define a list of mutually recursive functions. Each function has the same definition as in fun_def

val get_proof : ?loc:L.t -> unit -> t

If the last call to check_sat returned UNSAT, then instruct the prover to return the proof of unsat.

val get_unsat_core : ?loc:L.t -> unit -> t

If the last call to check_sat returned UNSAT, then instruct the prover to return the unsat core of the unsatisfiability proof, i.e the smallest set of assertions needed to prove false.

val get_unsat_assumptions : ?loc:L.t -> unit -> t

If the last call to check_sat returned UNSAT, then instruct the prover to return a subset of the local assumptions that is sufficient to deduce UNSAT.

val get_model : ?loc:L.t -> unit -> t

If the last call to check_sat returned SAT, then return the associated model.

val get_value : ?loc:L.t -> T.t list -> t

Instructs the prover to return the values of the given closed quantifier-free terms.

val get_assignment : ?loc:L.t -> unit -> t

Instructs the prover to return truth assignemnt for labelled formulas (see smtlib manual for more information).

val get_assertions : ?loc:L.t -> unit -> t

Instructs the prover to print all current assertions.

val echo : ?loc:L.t -> string -> t

Print the given sting.

val reset : ?loc:L.t -> unit -> t

Full reset of the prover state.

val exit : ?loc:L.t -> unit -> t

Exit directive (used in interactive mode).

TPTP Statements

val tpi : ?loc:L.t -> ?annot:T.t -> I.t -> string -> T.t -> t
val thf : ?loc:L.t -> ?annot:T.t -> I.t -> string -> T.t -> t
val tff : ?loc:L.t -> ?annot:T.t -> I.t -> string -> T.t -> t
val fof : ?loc:L.t -> ?annot:T.t -> I.t -> string -> T.t -> t
val cnf : ?loc:L.t -> ?annot:T.t -> I.t -> string -> T.t -> t

TPTP directives. tptp name role t instructs the prover to register a new directive with the given name, role and term. Current tptp roles are:

  • "axiom", "hypothesis", "definition", "lemma", "theorem" acts as new assertions/declartions
  • "assumption", "conjecture" are proposition that need to be proved, and then can be used to prove other propositions. They are equivalent to the following sequence of smtlib statements:

    • push 1
    • assert (not t)
    • check_sat
    • pop 1
    • assert t
  • "negated_conjecture" is the same as "conjecture", but the given proposition is false (i.e its negation is the proposition to prove).
  • "type" declares a new symbol and its type
  • "plain", "unknown", "fi_domain", "fi_functors", "fi_predicates" are valid roles with no specified semantics
  • any other role is an error

Zipperposition statements

val data : ?loc:L.t -> ?attrs:T.t list -> t list -> t

Packs a list of mutually recursive inductive type declarations into a single statement.

val rewrite : ?loc:L.t -> ?attrs:T.t list -> T.t -> t

Declare a rewrite rule, i.e a universally quantified equality or equivalence that can be oriented according to a specific ordering.

val goal : ?loc:L.t -> ?attrs:T.t list -> T.t -> t

The goal, i.e the propositional formula to prove.

val assume : ?loc:L.t -> ?attrs:T.t list -> T.t -> t

Adds an hypothesis.

val lemma : ?loc:L.t -> ?attrs:T.t list -> T.t -> t

Lemmas.

val decl : ?loc:L.t -> ?attrs:T.t list -> I.t -> T.t -> t

Symbol declaration. decl name ty declares a new symbol name with type ty.

val definition : ?loc:L.t -> ?attrs:T.t list -> I.t -> T.t -> T.t list -> t

Symbol definition. def name ty term defines a new symbol name of type ty which is equal to term.

val inductive : ?loc:L.t -> ?attrs:T.t list -> I.t -> T.t list -> (I.t * T.t list) list -> t

Inductive type definitions. inductive name vars l defines an inductive type name, with polymorphic variables vars, and with a list of inductive constructors l.

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