ocaml/typing/ctype.mli

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(***********************************************************************)
(* *)
(* OCaml *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1996 Institut National de Recherche en Informatique et *)
(* en Automatique. All rights reserved. This file is distributed *)
(* under the terms of the Q Public License version 1.0. *)
(* *)
(***********************************************************************)
(* $Id$ *)
(* Operations on core types *)
open Asttypes
open Types
exception Unify of (type_expr * type_expr) list
exception Tags of label * label
exception Subtype of
(type_expr * type_expr) list * (type_expr * type_expr) list
exception Cannot_expand
exception Cannot_apply
exception Recursive_abbrev
exception Unification_recursive_abbrev of (type_expr * type_expr) list
val init_def: int -> unit
(* Set the initial variable level *)
val begin_def: unit -> unit
(* Raise the variable level by one at the beginning of a definition. *)
val end_def: unit -> unit
(* Lower the variable level by one at the end of a definition *)
val begin_class_def: unit -> unit
val raise_nongen_level: unit -> unit
val reset_global_level: unit -> unit
(* Reset the global level before typing an expression *)
val increase_global_level: unit -> int
val restore_global_level: int -> unit
(* This pair of functions is only used in Typetexp *)
val newty: type_desc -> type_expr
val newvar: ?name:string -> unit -> type_expr
val newvar2: ?name:string -> int -> type_expr
(* Return a fresh variable *)
val new_global_var: ?name:string -> unit -> type_expr
(* Return a fresh variable, bound at toplevel
(as type variables ['a] in type constraints). *)
val newobj: type_expr -> type_expr
val newconstr: Path.t -> type_expr list -> type_expr
val none: type_expr
(* A dummy type expression *)
val repr: type_expr -> type_expr
(* Return the canonical representative of a type. *)
val object_fields: type_expr -> type_expr
val flatten_fields:
type_expr -> (string * field_kind * type_expr) list * type_expr
(* Transform a field type into a list of pairs label-type *)
(* The fields are sorted *)
val associate_fields:
(string * field_kind * type_expr) list ->
(string * field_kind * type_expr) list ->
(string * field_kind * type_expr * field_kind * type_expr) list *
(string * field_kind * type_expr) list *
(string * field_kind * type_expr) list
val opened_object: type_expr -> bool
val close_object: type_expr -> unit
val row_variable: type_expr -> type_expr
(* Return the row variable of an open object type *)
val set_object_name:
Ident.t -> type_expr -> type_expr list -> type_expr -> unit
val remove_object_name: type_expr -> unit
val hide_private_methods: type_expr -> unit
val find_cltype_for_path: Env.t -> Path.t -> type_declaration * type_expr
val lid_of_path: ?sharp:string -> Path.t -> Longident.t
val sort_row_fields: (label * row_field) list -> (label * row_field) list
val merge_row_fields:
(label * row_field) list -> (label * row_field) list ->
(label * row_field) list * (label * row_field) list *
(label * row_field * row_field) list
val filter_row_fields:
bool -> (label * row_field) list -> (label * row_field) list
val generalize: type_expr -> unit
(* Generalize in-place the given type *)
val iterative_generalization: int -> type_expr list -> type_expr list
(* Efficient repeated generalization of a type *)
val generalize_expansive: Env.t -> type_expr -> unit
(* Generalize the covariant part of a type, making
contravariant branches non-generalizable *)
val generalize_global: type_expr -> unit
(* Generalize the structure of a type, lowering variables
to !global_level *)
val generalize_structure: type_expr -> unit
(* Same, but variables are only lowered to !current_level *)
val generalize_spine: type_expr -> unit
(* Special function to generalize a method during inference *)
val correct_levels: type_expr -> type_expr
(* Returns a copy with decreasing levels *)
val limited_generalize: type_expr -> type_expr -> unit
(* Only generalize some part of the type
Make the remaining of the type non-generalizable *)
val instance: ?partial:bool -> Env.t -> type_expr -> type_expr
(* Take an instance of a type scheme *)
(* partial=None -> normal
partial=false -> newvar() for non generic subterms
partial=true -> newty2 ty.level Tvar for non generic subterms *)
val instance_def: type_expr -> type_expr
(* use defaults *)
val instance_list: Env.t -> type_expr list -> type_expr list
(* Take an instance of a list of type schemes *)
val instance_constructor:
?in_pattern:Env.t ref * int ->
constructor_description -> type_expr list * type_expr
(* Same, for a constructor *)
val instance_parameterized_type:
type_expr list -> type_expr -> type_expr list * type_expr
val instance_parameterized_type_2:
type_expr list -> type_expr list -> type_expr ->
type_expr list * type_expr list * type_expr
val instance_declaration: type_declaration -> type_declaration
val instance_class:
type_expr list -> class_type -> type_expr list * class_type
val instance_poly:
?keep_names:bool ->
bool -> type_expr list -> type_expr -> type_expr list * type_expr
(* Take an instance of a type scheme containing free univars *)
val instance_label:
bool -> label_description -> type_expr list * type_expr * type_expr
(* Same, for a label *)
val apply:
Env.t -> type_expr list -> type_expr -> type_expr list -> type_expr
(* [apply [p1...pN] t [a1...aN]] match the arguments [ai] to
the parameters [pi] and returns the corresponding instance of
[t]. Exception [Cannot_apply] is raised in case of failure. *)
val expand_head_once: Env.t -> type_expr -> type_expr
val expand_head: Env.t -> type_expr -> type_expr
val try_expand_once_opt: Env.t -> type_expr -> type_expr
val expand_head_opt: Env.t -> type_expr -> type_expr
(** The compiler's own version of [expand_head] necessary for type-based
optimisations. *)
val full_expand: Env.t -> type_expr -> type_expr
val enforce_constraints: Env.t -> type_expr -> unit
val unify: Env.t -> type_expr -> type_expr -> unit
(* Unify the two types given. Raise [Unify] if not possible. *)
val unify_gadt: newtype_level:int -> Env.t ref -> type_expr -> type_expr -> unit
(* Unify the two types given and update the environment with the local constraints. Raise [Unify] if not possible. *)
val unify_var: Env.t -> type_expr -> type_expr -> unit
(* Same as [unify], but allow free univars when first type
is a variable. *)
val filter_arrow: Env.t -> type_expr -> label -> type_expr * type_expr
(* A special case of unification (with l:'a -> 'b). *)
val filter_method: Env.t -> string -> private_flag -> type_expr -> type_expr
(* A special case of unification (with {m : 'a; 'b}). *)
val check_filter_method: Env.t -> string -> private_flag -> type_expr -> unit
(* A special case of unification (with {m : 'a; 'b}), returning unit. *)
val occur_in: Env.t -> type_expr -> type_expr -> bool
val deep_occur: type_expr -> type_expr -> bool
val filter_self_method:
Env.t -> string -> private_flag -> (Ident.t * type_expr) Meths.t ref ->
type_expr -> Ident.t * type_expr
val moregeneral: Env.t -> bool -> type_expr -> type_expr -> bool
(* Check if the first type scheme is more general than the second. *)
val rigidify: type_expr -> type_expr list
(* "Rigidify" a type and return its type variable *)
val all_distinct_vars: Env.t -> type_expr list -> bool
(* Check those types are all distinct type variables *)
val matches : Env.t -> type_expr -> type_expr -> bool
(* Same as [moregeneral false], implemented using the two above
functions and backtracking. Ignore levels *)
type class_match_failure =
CM_Virtual_class
| CM_Parameter_arity_mismatch of int * int
| CM_Type_parameter_mismatch of (type_expr * type_expr) list
| CM_Class_type_mismatch of class_type * class_type
| CM_Parameter_mismatch of (type_expr * type_expr) list
| CM_Val_type_mismatch of string * (type_expr * type_expr) list
| CM_Meth_type_mismatch of string * (type_expr * type_expr) list
| CM_Non_mutable_value of string
| CM_Non_concrete_value of string
| CM_Missing_value of string
| CM_Missing_method of string
| CM_Hide_public of string
| CM_Hide_virtual of string * string
| CM_Public_method of string
| CM_Private_method of string
| CM_Virtual_method of string
val match_class_types:
?trace:bool -> Env.t -> class_type -> class_type -> class_match_failure list
(* Check if the first class type is more general than the second. *)
val equal: Env.t -> bool -> type_expr list -> type_expr list -> bool
(* [equal env [x1...xn] tau [y1...yn] sigma]
checks whether the parameterized types
[/\x1.../\xn.tau] and [/\y1.../\yn.sigma] are equivalent. *)
val match_class_declarations:
Env.t -> type_expr list -> class_type -> type_expr list ->
class_type -> class_match_failure list
(* Check if the first class type is more general than the second. *)
val enlarge_type: Env.t -> type_expr -> type_expr * bool
(* Make a type larger, flag is true if some pruning had to be done *)
val subtype: Env.t -> type_expr -> type_expr -> unit -> unit
(* [subtype env t1 t2] checks that [t1] is a subtype of [t2].
It accumulates the constraints the type variables must
enforce and returns a function that inforce this
constraints. *)
val nondep_type: Env.t -> Ident.t -> type_expr -> type_expr
(* Return a type equivalent to the given type but without
references to the given module identifier. Raise [Not_found]
if no such type exists. *)
val nondep_type_decl:
Env.t -> Ident.t -> Ident.t -> bool -> type_declaration ->
type_declaration
(* Same for type declarations. *)
val nondep_class_declaration:
Env.t -> Ident.t -> class_declaration -> class_declaration
(* Same for class declarations. *)
val nondep_cltype_declaration:
Env.t -> Ident.t -> class_type_declaration -> class_type_declaration
(* Same for class type declarations. *)
val correct_abbrev: Env.t -> Path.t -> type_expr list -> type_expr -> unit
val cyclic_abbrev: Env.t -> Ident.t -> type_expr -> bool
val normalize_type: Env.t -> type_expr -> unit
val closed_schema: type_expr -> bool
(* Check whether the given type scheme contains no non-generic
type variables *)
val free_variables: ?env:Env.t -> type_expr -> type_expr list
(* If env present, then check for incomplete definitions too *)
val closed_type_decl: type_declaration -> type_expr option
type closed_class_failure =
CC_Method of type_expr * bool * string * type_expr
| CC_Value of type_expr * bool * string * type_expr
val closed_class:
type_expr list -> class_signature -> closed_class_failure option
(* Check whether all type variables are bound *)
val unalias: type_expr -> type_expr
val signature_of_class_type: class_type -> class_signature
val self_type: class_type -> type_expr
val class_type_arity: class_type -> int
val arity: type_expr -> int
(* Return the arity (as for curried functions) of the given type. *)
val collapse_conj_params: Env.t -> type_expr list -> unit
(* Collapse conjunctive types in class parameters *)
val get_current_level: unit -> int