package colibri2

  1. Overview
  2. Docs
include module type of struct include Dolmen_std.Expr.Term end

The type of terms and term variables.

The representation of term types, type variables, and type constants.

The type of substitutions over terms.

type 'a tag = 'a Dolmen_std.Tag.t

The type of tags used to annotate arbitrary terms.

val hash : t -> int

Hash function.

val equal : t -> t -> bool

Equality function.

val compare : t -> t -> int

Comparison function.

val print : Stdlib.Format.formatter -> t -> unit

Printing function.

val ty : t -> ty

Returns the type of a term.

val get_tag : t -> 'a Dolmen_std.Tag.t -> 'a option

Get the value bound to a tag.

val get_tag_list : t -> 'a list Dolmen_std.Tag.t -> 'a list

Get the list of values bound to a list tag, returning the empty list if no value is bound.

val get_tag_last : t -> 'a list Dolmen_std.Tag.t -> 'a option

Get the last value bound to a list tag.

val set_tag : t -> 'a Dolmen_std.Tag.t -> 'a -> unit

Set the value bound to the tag.

val add_tag : t -> 'a list Dolmen_std.Tag.t -> 'a -> unit

Bind an additional value to a list tag.

val add_tag_opt : t -> 'a list Dolmen_std.Tag.t -> 'a option -> unit

Optionally bind an additional value to a list tag.

val add_tag_list : t -> 'a list Dolmen_std.Tag.t -> 'a list -> unit

Bind a list of additional values to a list tag.

val unset_tag : t -> _ Dolmen_std.Tag.t -> unit

Remove the binding to the given tag.

A module for Algebraic datatype constructors.

A module for Record fields.

val define_record : ty_const -> ty_var list -> (Dolmen_std.Path.t * ty) list -> Field.t list

Define a new record type.

val define_adt : ty_const -> ty_var list -> (Dolmen_std.Path.t * (ty * Dolmen_std.Path.t option) list) list -> (Cstr.t * (ty * Dolmen_std.Expr.Term.Const.t option) list) list

define_aft t vars cstrs defines the type constant t, parametrised over the type variables ty_vars as defining an algebraic datatypes with constructors cstrs. cstrs is a list where each elements of the form (name, l) defines a new constructor for the algebraic datatype, with the given name. The list l defines the arguments to said constructor, each element of the list giving the type ty of the argument expected by the constructor (which may contain any of the type variables in vars), as well as an optional destructor name. If the construcotr name is Some s, then the ADT definition also defines a function that acts as destructor for that particular field. This polymorphic function is expected to takes as arguments as many types as there are variables in vars, an element of the algebraic datatype being defined, and returns a value for the given field. For instance, consider the following definition for polymorphic lists: define_adt list [ty_var_a] [ "nil", []; "const", [ (Ty.of_var ty_var_a , Some "hd"); (ty_list_a , Some "tl"); ]; ] This definition defines the usual type of polymorphic linked lists, as well as two destructors "hd" and "tl". "hd" would have type forall alpha. alpha list -> a, and be the partial function returning the head of the list.

exception Wrong_type of t * ty

Exception raised in case of typing error during term construction. Wrong_type (t, ty) should be raised by term constructor functions when some term t is expected to have type ty, but does not have that type.

exception Wrong_sum_type of Cstr.t * ty

Raised when some constructor was expected to belong to some type but does not belong to the given type.

exception Wrong_record_type of Field.t * ty_const

Exception raised in case of typing error during term construction. This should be raised when the returned field was expected to be a field for the returned record type constant, but it was of another record type.

exception Field_repeated of Field.t

Field repeated in a record expression.

exception Field_missing of Field.t

Field missing in a record expression.

exception Field_expected of Dolmen_std.Expr.term_cst

A field was expected but the returned term constant is not a record field.

exception Pattern_expected of t

Raised when trying to create a pattern matching, but a non-pattern term was provided where a pattern was expected.

exception Empty_pattern_matching

Raise when creating a pattern matching but an empty list of branches was provided

exception Partial_pattern_match of t list

Raised when a partial pattern matching was created. A list of terms not covered by the patterns is provided.

exception Constructor_expected of Cstr.t

Raised when trying to access the tester of an ADT constructor, but the constant provided was not a constructor.

exception Over_application of t list

Raised when an application was provided too many term arguments. The extraneous arguments are returned by the exception.

exception Bad_poly_arity of ty_var list * ty list

Raised when a polymorphic application does not have an adequate number of arguments.

val ensure : t -> ty -> t

Ensure a term has the given type.

Create a term from a variable

Create a term from a constant.

val apply : t -> ty list -> t list -> t

Polymorphic application.

val apply_cst : Dolmen_std.Expr.term_cst -> ty list -> t list -> t

Polymorphic application of a constructor.

val apply_cstr : Cstr.t -> ty list -> t list -> t

Polymorphic application of a constructor.

val apply_field : Field.t -> t -> t

Field access for a record.

val cstr_tester : Cstr.t -> t -> t

Test expression for a constructor.

val pattern_match : ?redundant:(Dolmen_std.Expr.pattern -> unit) -> t -> (Dolmen_std.Expr.pattern * t) list -> t

Create a pattern match.

val void : t

The only inhabitant of type unit.

val _true : t
val _false : t

Some usual formulas.

val int : string -> t
val rat : string -> t
val real : string -> t

Real literals

val record : (Field.t * t) list -> t

Create a record

val record_with : t -> (Field.t * t) list -> t

Record udpate

val eq : t -> t -> t

Build the equality of two terms.

val eqs : t list -> t

Build equalities with arbitrary arities.

val neq : t -> t -> t

Disequality

val distinct : t list -> t

Distinct constraints on terms.

val neg : t -> t

Negation.

val _and : t list -> t

Conjunction of formulas

val _or : t list -> t

Disjunction of formulas

val nand : t -> t -> t

Negated conjunction.

val nor : t -> t -> t

Negated disjunction.

val xor : t -> t -> t

Exclusive disjunction.

val imply : t -> t -> t

Implication

val implied : t -> t -> t

Reverse Implication

val equiv : t -> t -> t

Equivalence

val lam : (ty_var list * Dolmen_std.Expr.Term.Var.t list) -> t -> t

Create a local function. The first pair of arguments are the variables that are free in the resulting quantified formula, and the second pair are the variables bound.

val all : (ty_var list * Dolmen_std.Expr.Term.Var.t list) -> t -> t

Universally quantify the given formula over the type and terms variables. The first pair of arguments are the variables that are free in the resulting quantified formula, and the second pair are the variables bound.

val ex : (ty_var list * Dolmen_std.Expr.Term.Var.t list) -> t -> t

Existencially quantify the given formula over the type and terms variables. The first pair of arguments are the variables that are free in the resulting quantified formula, and the second pair are the variables bound.

val bind : Dolmen_std.Expr.Term.Var.t -> t -> t

Tag the given variable with the term, to mark it has been let-bound. Views might use that information to transparently replace a let-bound variable with its defining term.

val letin : (Dolmen_std.Expr.Term.Var.t * t) list -> t -> t

Sequential let-binding. Variables can be bound to either terms or formulas.

val letand : (Dolmen_std.Expr.Term.Var.t * t) list -> t -> t

Parrallel let-binding. Variables can be bound to either terms or formulas.

val ite : t -> t -> t -> t

ite condition then_t else_t creates a conditional branch.

val fv : t -> ty_var list * Dolmen_std.Expr.Term.Var.t list

Returns the list of free variables in the formula.

val subst : ?fix:bool -> Dolmen_std.Expr.Ty.subst -> subst -> t -> t

Substitution over terms.

val in_interval : t -> (bool * bool) -> t -> t -> t

Interger interval inclusion.

val maps_to : Dolmen_std.Expr.Term.Var.t -> t -> t

Variable mapping to term.

Integer operations.

Rational operations

Real operations

String operations

val pp : Stdlib.Format.formatter -> t -> unit
include sig ... end
val hash_fold_t : t Base.Hash.folder
module M : sig ... end
module S : sig ... end
module H : sig ... end
val sexp_of_t : t -> Base.Sexp.t
module Const : sig ... end
module Var : sig ... end
val free_vars : (Ty.Var.S.t * Var.S.t) -> t -> Ty.Var.S.t * Var.S.t
OCaml

Innovation. Community. Security.