package goblint

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Static analysis framework for C

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Dune Dependency

goblint.in.tum.de Readme Changelog Edit opam file Versions (8)

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goblint-2.3.0.tbz

sha256=b729c94adb383a39aea32eb005c988dfd44b92af22ee6a4eedf4239542ac6c26

sha512=643b98770e5fe5644324c95c9ae3a9f698f25c8b11b298f0751d524e0b20af368b2a465fc8200b75a73d48fc9a053fd90f5e8920d4db070927f93188bb8687e0

doc/goblint.lib/Goblint_lib/SetDomain/index.html

Module `Goblint_lib.SetDomain`

Set domains.

module Pretty = GoblintCil.Pretty

exception Unsupported of string

val unsupported : string -> 'a

module type S = sig ... end

A set domain must support all the standard library set operations. They have been copied instead of included since our empty has a different signature.

module type Elements = sig ... end

Subsignature of S, which is sufficient for Print.

module Print (E : Printable.S) (S : Elements with type elt = E.t) : sig ... end

Reusable output definitions for sets.

module Make
  (Base : Printable.S) : 
  S with type elt = Base.t and type t = BatSet.Make(Base).t

A functor for creating a simple set domain, there is no top element, and * calling top () will raise an exception

module SensitiveConf
  (C : Printable.ProdConfiguration)
  (Base : Lattice.S)
  (User : Printable.S) : 
  sig ... end

A functor for creating a path sensitive set domain, that joins the base * analysis whenever the user elements coincide. Just as above there is no top * element, and calling top () will raise an exception

module type ToppedSetNames = sig ... end

Auxiliary signature for naming the top element

module LiftTop
  (S : S)
  (N : ToppedSetNames) : 
  S with type elt = S.elt and type t = [ `Top | `Lifted of S.t ]

module ToppedSet
  (Base : Printable.S)
  (N : ToppedSetNames) : 
  S with type elt = Base.t and type t = [ `Top | `Lifted of Make(Base).t ]

Functor for creating artificially topped set domains.

module HeadlessSet (Base : Printable.S) : sig ... end

module Reverse (Base : S) : sig ... end

Reverses lattice order of a set domain while keeping the set operations same.

module type FiniteSetElems = sig ... end

module FiniteSet
  (E : Printable.S)
  (Elems : FiniteSetElems with type t = E.t) : 
  sig ... end

module Joined (E : Lattice.S) : S with type elt = E.t

Set abstracted by a single (joined) element.