package core
Industrial strength alternative to OCaml's standard library
Install
Dune Dependency
Authors
Maintainers
Sources
v0.17.0.tar.gz
sha256=b0e23c1b1049e48cbbaa596d49927c66e6026506031bd7f5b485af6e9475b4e3
doc/src/core.univ_map/univ_map_intf.ml.html
Source file univ_map_intf.ml
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233(** Universal/heterogeneous maps, useful for storing values of arbitrary type in a single map. In order to recover a value, it must be looked up with exactly the [Key.t] it was stored in. In other words, given different [Key.t]s from the same [string], one will not be able to recover the key stored in the other one. This is similar to [Univ] in spirit. *) open! Base module type Key = sig type 'a t [@@deriving sexp_of] (** For correct behavior of the map, [type_id] must return the same [Type_equal.Id] on different calls on the same input. *) val type_id : 'a t -> 'a Type_equal.Id.t end module type Data = sig type 'a t [@@deriving sexp_of] end module type Data1 = sig type ('s, 'a) t [@@deriving sexp_of] end module type S1 = sig (** The ['s] parameter is shared across all values stored in the map. *) type 's t [@@deriving sexp_of] module Key : Key type ('s, 'a) data val invariant : _ t -> unit val empty : _ t val singleton : 'a Key.t -> ('s, 'a) data -> 's t val is_empty : _ t -> bool val set : 's t -> key:'a Key.t -> data:('s, 'a) data -> 's t val mem : _ t -> _ Key.t -> bool val mem_by_id : _ t -> Type_equal.Id.Uid.t -> bool val find : 's t -> 'a Key.t -> ('s, 'a) data option val find_exn : 's t -> 'a Key.t -> ('s, 'a) data val add : 's t -> key:'a Key.t -> data:('s, 'a) data -> [ `Ok of 's t | `Duplicate ] val add_exn : 's t -> key:'a Key.t -> data:('s, 'a) data -> 's t val change : 's t -> 'a Key.t -> f:(('s, 'a) data option -> ('s, 'a) data option) -> 's t val change_exn : 's t -> 'a Key.t -> f:(('s, 'a) data -> ('s, 'a) data) -> 's t val update : 's t -> 'a Key.t -> f:(('s, 'a) data option -> ('s, 'a) data) -> 's t val remove : 's t -> 'a Key.t -> 's t val remove_by_id : 's t -> Type_equal.Id.Uid.t -> 's t module Packed : sig type 's t = T : 'a Key.t * ('s, 'a) data -> 's t end val key_id_set : 's t -> Set.M(Type_equal.Id.Uid).t val to_alist : 's t -> 's Packed.t list val of_alist_exn : 's Packed.t list -> 's t val find_packed_by_id : 's t -> Type_equal.Id.Uid.t -> 's Packed.t option val find_packed_by_id_exn : 's t -> Type_equal.Id.Uid.t -> 's Packed.t val type_equal : ('s t, 's Packed.t Map.M(Type_equal.Id.Uid).t) Type_equal.t end module type S = sig type t [@@deriving sexp_of] module Key : Key type 'a data include Invariant.S with type t := t val empty : t val singleton : 'a Key.t -> 'a data -> t val is_empty : t -> bool val set : t -> key:'a Key.t -> data:'a data -> t val mem : t -> 'a Key.t -> bool val mem_by_id : t -> Type_equal.Id.Uid.t -> bool val find : t -> 'a Key.t -> 'a data option val find_exn : t -> 'a Key.t -> 'a data val add : t -> key:'a Key.t -> data:'a data -> [ `Ok of t | `Duplicate ] val add_exn : t -> key:'a Key.t -> data:'a data -> t val change : t -> 'a Key.t -> f:('a data option -> 'a data option) -> t val change_exn : t -> 'a Key.t -> f:('a data -> 'a data) -> t val update : t -> 'a Key.t -> f:('a data option -> 'a data) -> t val remove : t -> 'a Key.t -> t val remove_by_id : t -> Type_equal.Id.Uid.t -> t module Packed : sig type 's t1 = T : 'a Key.t * 'a data -> 's t1 type t = unit t1 end val key_id_set : t -> Set.M(Type_equal.Id.Uid).t (** [to_alist t] returns all values in [t], in increasing order of key type-id name. *) val to_alist : t -> Packed.t list val of_alist_exn : Packed.t list -> t val find_packed_by_id : t -> Type_equal.Id.Uid.t -> Packed.t option val find_packed_by_id_exn : t -> Type_equal.Id.Uid.t -> Packed.t val type_equal : (t, Packed.t Map.M(Type_equal.Id.Uid).t) Type_equal.t end module type Univ_map = sig module type S = S module type S1 = S1 module type Key = Key module type Data = Data module Type_id_key : Key with type 'a t = 'a Type_equal.Id.t include S with type 'a data = 'a and module Key := Type_id_key (** This binding is convenient because existing call sites often refer to [Univ_map.Key.create]. *) module Key = Type_equal.Id module Make (Key : Key) (Data : Data) : S with type 'a data = 'a Data.t and module Key = Key module Make1 (Key : Key) (Data : Data1) : S1 with type ('s, 'a) data = ('s, 'a) Data.t and module Key = Key module Merge (Key : Key) (Input1_data : Data) (Input2_data : Data) (Output_data : Data) : sig type f = { f : 'a. key:'a Key.t -> [ `Left of 'a Input1_data.t | `Right of 'a Input2_data.t | `Both of 'a Input1_data.t * 'a Input2_data.t ] -> 'a Output_data.t option } (** The analogue of the normal [Map.merge] function. *) val merge : Make(Key)(Input1_data).t -> Make(Key)(Input2_data).t -> f:f -> Make(Key)(Output_data).t end module Merge1 (Key : Key) (Input1_data : Data1) (Input2_data : Data1) (Output_data : Data1) : sig type ('s1, 's2, 's3) f = { f : 'a. key:'a Key.t -> [ `Left of ('s1, 'a) Input1_data.t | `Right of ('s2, 'a) Input2_data.t | `Both of ('s1, 'a) Input1_data.t * ('s2, 'a) Input2_data.t ] -> ('s3, 'a) Output_data.t option } (** The analogue of the normal [Map.merge] function. *) val merge : 's1 Make1(Key)(Input1_data).t -> 's2 Make1(Key)(Input2_data).t -> f:('s1, 's2, 's3) f -> 's3 Make1(Key)(Output_data).t end (** keys with associated default values, so that [find] is no longer partial *) module With_default : sig module Key : sig type 'a t val create : default:'a -> name:string -> ('a -> Sexp.t) -> 'a t val id : 'a t -> 'a Type_equal.Id.t end val set : t -> key:'a Key.t -> data:'a -> t val find : t -> 'a Key.t -> 'a val change : t -> 'a Key.t -> f:('a -> 'a) -> t end (** keys that map to an accumulator value with an associated fold operation *) module With_fold : sig module Key : sig type ('a, 'b) t val create : init:'b -> f:('b -> 'a -> 'b) -> name:string -> ('b -> Sexp.t) -> ('a, 'b) t val id : ('a, 'b) t -> 'b Type_equal.Id.t end (** reset the accumulator *) val set : t -> key:('a, 'b) Key.t -> data:'b -> t (** the current accumulator *) val find : t -> ('a, 'b) Key.t -> 'b (** fold value into accumulator *) val add : t -> key:('a, 'b) Key.t -> data:'a -> t (** accumulator update *) val change : t -> ('a, 'b) Key.t -> f:('b -> 'b) -> t end (** list-accumulating keys with a default value of the empty list *) module Multi : sig module Key : sig type 'a t val create : name:string -> ('a -> Sexp.t) -> 'a t val id : 'a t -> 'a list Type_equal.Id.t end val set : t -> key:'a Key.t -> data:'a list -> t val find : t -> 'a Key.t -> 'a list val add : t -> key:'a Key.t -> data:'a -> t val change : t -> 'a Key.t -> f:('a list -> 'a list) -> t end end