Tree (logger.Logger.Time.Span.Set.Tree)

type t =
  ( Core_kernel__.Time_float0.Span.Set.Elt.t,
    Core_kernel__.Time_float0.Span.Set.Elt.comparator_witness )
    Core_kernel__Set_intf.Tree.t

val compare : t -> t -> Core_kernel__.Import.int

type named =
  ( Core_kernel__.Time_float0.Span.Set.Elt.t,
    Core_kernel__.Time_float0.Span.Set.Elt.comparator_witness )
    Core_kernel__Set_intf.Tree.Named.t

val length : t -> int

val is_empty : t -> bool

val iter : t -> f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> unit ) -> unit

val fold : 
  t ->
  init:'accum ->
  f:( 'accum -> Core_kernel__.Time_float0.Span.Set.Elt.t -> 'accum ) ->
  'accum

val fold_result : 
  t ->
  init:'accum ->
  f:
    ( 'accum ->
      Core_kernel__.Time_float0.Span.Set.Elt.t ->
      ( 'accum, 'e ) Base__.Result.t ) ->
  ( 'accum, 'e ) Base__.Result.t

val exists : 
  t ->
  f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> bool ) ->
  bool

val for_all : 
  t ->
  f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> bool ) ->
  bool

val count : t -> f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> bool ) -> int

val sum : 
  (module Base__Container_intf.Summable with type t = 'sum) ->
  t ->
  f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> 'sum ) ->
  'sum

val find : 
  t ->
  f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> bool ) ->
  Core_kernel__.Time_float0.Span.Set.Elt.t option

val find_map : 
  t ->
  f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> 'a option ) ->
  'a option

val to_list : t -> Core_kernel__.Time_float0.Span.Set.Elt.t list

val to_array : t -> Core_kernel__.Time_float0.Span.Set.Elt.t array

val invariants : t -> bool

val mem : t -> Core_kernel__.Time_float0.Span.Set.Elt.t -> bool

val add : t -> Core_kernel__.Time_float0.Span.Set.Elt.t -> t

val remove : t -> Core_kernel__.Time_float0.Span.Set.Elt.t -> t

val union : t -> t -> t

val inter : t -> t -> t

val diff : t -> t -> t

val symmetric_diff : 
  t ->
  t ->
  ( Core_kernel__.Time_float0.Span.Set.Elt.t,
    Core_kernel__.Time_float0.Span.Set.Elt.t )
    Base__.Either.t
    Base__.Sequence.t

val compare_direct : t -> t -> int

val equal : t -> t -> bool

val is_subset : t -> of_:t -> bool

val are_disjoint : t -> t -> bool

module Named : sig ... end

val fold_until : 
  t ->
  init:'b ->
  f:
    ( 'b ->
      Core_kernel__.Time_float0.Span.Set.Elt.t ->
      ( 'b, 'final ) Base__Set_intf.Continue_or_stop.t ) ->
  finish:( 'b -> 'final ) ->
  'final

val fold_right : 
  t ->
  init:'b ->
  f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> 'b -> 'b ) ->
  'b

val iter2 : 
  t ->
  t ->
  f:
    ( [ `Both of
          Core_kernel__.Time_float0.Span.Set.Elt.t
          * Core_kernel__.Time_float0.Span.Set.Elt.t
      | `Left of Core_kernel__.Time_float0.Span.Set.Elt.t
      | `Right of Core_kernel__.Time_float0.Span.Set.Elt.t ] ->
      unit ) ->
  unit

val filter : t -> f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> bool ) -> t

val partition_tf : 
  t ->
  f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> bool ) ->
  t * t

val elements : t -> Core_kernel__.Time_float0.Span.Set.Elt.t list

val min_elt : t -> Core_kernel__.Time_float0.Span.Set.Elt.t option

val min_elt_exn : t -> Core_kernel__.Time_float0.Span.Set.Elt.t

val max_elt : t -> Core_kernel__.Time_float0.Span.Set.Elt.t option

val max_elt_exn : t -> Core_kernel__.Time_float0.Span.Set.Elt.t

val choose : t -> Core_kernel__.Time_float0.Span.Set.Elt.t option

val choose_exn : t -> Core_kernel__.Time_float0.Span.Set.Elt.t

val split : 
  t ->
  Core_kernel__.Time_float0.Span.Set.Elt.t ->
  t * Core_kernel__.Time_float0.Span.Set.Elt.t option * t

val group_by : 
  t ->
  equiv:
    ( Core_kernel__.Time_float0.Span.Set.Elt.t ->
      Core_kernel__.Time_float0.Span.Set.Elt.t ->
      bool ) ->
  t list

val find_exn : 
  t ->
  f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> bool ) ->
  Core_kernel__.Time_float0.Span.Set.Elt.t

val nth : t -> int -> Core_kernel__.Time_float0.Span.Set.Elt.t option

val remove_index : t -> int -> t

val to_tree : t -> t

val to_sequence : 
  ?order:[ `Decreasing | `Increasing ] ->
  ?greater_or_equal_to:Core_kernel__.Time_float0.Span.Set.Elt.t ->
  ?less_or_equal_to:Core_kernel__.Time_float0.Span.Set.Elt.t ->
  t ->
  Core_kernel__.Time_float0.Span.Set.Elt.t Base__.Sequence.t

val binary_search : 
  t ->
  compare:( Core_kernel__.Time_float0.Span.Set.Elt.t -> 'key -> int ) ->
  [ `First_equal_to
  | `First_greater_than_or_equal_to
  | `First_strictly_greater_than
  | `Last_equal_to
  | `Last_less_than_or_equal_to
  | `Last_strictly_less_than ] ->
  'key ->
  Core_kernel__.Time_float0.Span.Set.Elt.t option

val binary_search_segmented : 
  t ->
  segment_of:( Core_kernel__.Time_float0.Span.Set.Elt.t -> [ `Left | `Right ] ) ->
  [ `First_on_right | `Last_on_left ] ->
  Core_kernel__.Time_float0.Span.Set.Elt.t option

val merge_to_sequence : 
  ?order:[ `Decreasing | `Increasing ] ->
  ?greater_or_equal_to:Core_kernel__.Time_float0.Span.Set.Elt.t ->
  ?less_or_equal_to:Core_kernel__.Time_float0.Span.Set.Elt.t ->
  t ->
  t ->
  ( Core_kernel__.Time_float0.Span.Set.Elt.t,
    Core_kernel__.Time_float0.Span.Set.Elt.t )
    Base__Set_intf.Merge_to_sequence_element.t
    Base__.Sequence.t

val to_map : 
  t ->
  f:( Core_kernel__.Time_float0.Span.Set.Elt.t -> 'data ) ->
  ( Core_kernel__.Time_float0.Span.Set.Elt.t,
    'data,
    Core_kernel__.Time_float0.Span.Set.Elt.comparator_witness )
    Base.Map.t

val quickcheck_observer : 
  Core_kernel__.Time_float0.Span.Set.Elt.t Core_kernel__.Quickcheck.Observer.t ->
  t Core_kernel__.Quickcheck.Observer.t

val quickcheck_shrinker : 
  Core_kernel__.Time_float0.Span.Set.Elt.t Core_kernel__.Quickcheck.Shrinker.t ->
  t Core_kernel__.Quickcheck.Shrinker.t

val empty : t

val singleton : Core_kernel__.Time_float0.Span.Set.Elt.t -> t

val union_list : t list -> t

val of_list : Core_kernel__.Time_float0.Span.Set.Elt.t list -> t

val of_array : Core_kernel__.Time_float0.Span.Set.Elt.t array -> t

val of_sorted_array : 
  Core_kernel__.Time_float0.Span.Set.Elt.t array ->
  t Base__.Or_error.t

val of_sorted_array_unchecked : 
  Core_kernel__.Time_float0.Span.Set.Elt.t array ->
  t

val of_increasing_iterator_unchecked : 
  len:int ->
  f:( int -> Core_kernel__.Time_float0.Span.Set.Elt.t ) ->
  t

val stable_dedup_list : 
  Core_kernel__.Time_float0.Span.Set.Elt.t list ->
  Core_kernel__.Time_float0.Span.Set.Elt.t list

val map : 
  ( 'a, 'b ) Core_kernel__Set_intf.Tree.t ->
  f:( 'a -> Core_kernel__.Time_float0.Span.Set.Elt.t ) ->
  t

val filter_map : 
  ( 'a, 'b ) Core_kernel__Set_intf.Tree.t ->
  f:( 'a -> Core_kernel__.Time_float0.Span.Set.Elt.t option ) ->
  t

val of_tree : t -> t

val of_hash_set : 
  Core_kernel__.Time_float0.Span.Set.Elt.t Core_kernel__.Hash_set.t ->
  t

val of_hashtbl_keys : 
  ( Core_kernel__.Time_float0.Span.Set.Elt.t, 'a ) Core_kernel__.Hashtbl.t ->
  t

val of_map_keys : 
  ( Core_kernel__.Time_float0.Span.Set.Elt.t,
    'a,
    Core_kernel__.Time_float0.Span.Set.Elt.comparator_witness )
    Base.Map.t ->
  t

val quickcheck_generator : 
  Core_kernel__.Time_float0.Span.Set.Elt.t Core_kernel__.Quickcheck.Generator.t ->
  t Core_kernel__.Quickcheck.Generator.t

module Provide_of_sexp (Elt : sig ... end) : sig ... end

val t_of_sexp : Sexplib0__.Sexp.t -> t

val sexp_of_t : t -> Sexplib0__.Sexp.t