bddapron

Logico-numerical domain(s) based on BDDs and APRON
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Library
Module
Module type
Parameter
Class
Class type
Manual
type ('a, !'b) man = 'b ApronDD.man
type 'b t = 'b ApronDD.t
val make_man : ?global:bool -> 'b Apron.Manager.t -> ( 'a, 'b ) man
val size : ( 'a, 'b ) man -> 'b t -> int
val print : ?print_apron: ( ( int -> string ) -> Format.formatter -> 'b Apron.Abstract0.t -> unit ) -> 'a Env.t -> Format.formatter -> 'b t -> unit
val bottom : ( 'a, 'b ) man -> 'a Env.t -> 'b t
val top : ( 'a, 'b ) man -> 'a Env.t -> 'b t
val of_apron : ( 'a, 'b ) man -> 'a Env.t -> 'b Apron.Abstract0.t -> 'b t
val of_bddapron : ( 'a, 'b ) man -> 'a Env.t -> ('a Expr0.Bool.t * 'b Apron.Abstract0.t) list -> 'b t
val is_bottom : ( 'a, 'b ) man -> 'b t -> bool
val is_top : ( 'a, 'b ) man -> 'b t -> bool
val is_leq : ( 'a, 'b ) man -> 'b t -> 'b t -> bool
val is_eq : ( 'a, 'b ) man -> 'b t -> 'b t -> bool
val to_bddapron : ( 'a, 'b ) man -> 'b t -> ('a Expr0.Bool.t * 'b Apron.Abstract0.t) list
val meet : ( 'a, 'b ) man -> 'b t -> 'b t -> 'b t
val join : ( 'a, 'b ) man -> 'b t -> 'b t -> 'b t
val meet_condition : ( 'a, 'b ) man -> 'a Env.t -> 'a Cond.t -> 'b t -> 'a Expr0.Bool.t -> 'b t
val assign_lexpr : ?relational:bool -> ?nodependency:bool -> ( 'a, 'b ) man -> 'a Env.t -> 'a Cond.t -> 'b t -> 'a list -> 'a Expr0.t list -> 'b t option -> 'b t
val substitute_lexpr : ( 'a, 'b ) man -> 'a Env.t -> 'a Cond.t -> 'b t -> 'a list -> 'a Expr0.t list -> 'b t option -> 'b t
val forget_list : ( 'a, 'b ) man -> 'a Env.t -> 'b t -> 'a list -> 'b t
val forall_bool_list : ( 'a, 'b ) man -> 'a Env.t -> 'b t -> 'a list -> 'b t
val widening : ( 'a, 'b ) man -> 'b t -> 'b t -> 'b t
val widening_threshold : ( 'a, 'b ) man -> 'b t -> 'b t -> Apron.Lincons0.t array -> 'b t
val apply_change : bottom:'b t -> ( 'a, 'b ) man -> 'b t -> Env.change -> 'b t
val apply_permutation : ( 'a, 'b ) man -> 'b t -> (int array option * Apron.Dim.perm option) -> 'b t
module O : sig ... end