package libzipperposition

You can search for identifiers within the package.

in-package search v0.2.0

Library for Zipperposition

Install

dune-project

Dependency

github.com Readme Changelog Edit opam file Versions (4)

Authors

Maintainers

S

simon.cruanes.2.17@m4x.org

Sources

2.1.tar.gz

md5=e72de75e9f0f87da9e6e8c0a4d4c89f9

sha512=81becfc9badd686ab3692cd9312172aa4c4e3581b110e81770bb01e0ffbc1eb8495d0dd6d43b98f3d06e6b8c8a338174c13ebafb4e9849a3ddf89f9a3a72c287

doc/libzipperposition.induction/Libzipperposition_induction/Make/argument-1-E/ProofState/UnitIndex/index.html

Module `ProofState.UnitIndex`

type t

module E : 
  Logtk.Index_intf.EQUATION
    with type t = Logtk.Term.t * Logtk.Term.t * bool * C.t
    with type rhs = Logtk.Term.t

Module that describes indexed equations

type rhs = E.rhs

Right hand side of equation

val empty : unit -> t

val is_empty : t -> bool

val add : t -> E.t -> t

Index the given (in)equation

val add_seq : t -> E.t Iter.t -> t

val add_list : t -> E.t list -> t

val remove : t -> E.t -> t

val remove_seq : t -> E.t Iter.t -> t

val size : t -> int

Number of indexed (in)equations

val iter : t -> (Logtk.Index_intf.term -> E.t -> unit) -> unit

Iterate on indexed equations

val retrieve : 
  ?subst:Logtk.Index_intf.subst ->
  sign:bool ->
  t Logtk.Scoped.t ->
  Logtk.Index_intf.term Logtk.Scoped.t ->
  (Logtk.Index_intf.term * rhs * E.t * Logtk.Index_intf.subst) Iter.t

retrieve ~sign (idx,si) (t,st) acc iterates on (in)equations l ?= r of given sign and substitutions subst, such that subst(l, si) = t. It therefore finds generalizations of the query term.

val to_dot : t CCFormat.printer

print the index in the DOT format