typer.mli 2.2 KB
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open Ident
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open Location
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exception NonExhaustive of Types.descr
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exception Constraint of Types.descr * Types.descr
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exception ShouldHave of Types.descr * string
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exception WrongLabel of Types.descr * label
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exception UnboundId of id * bool
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exception ShouldHave2 of Types.descr * string * Types.descr
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exception Error of string
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val warning: loc -> string -> unit
val error: loc -> string -> 'a
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include Custom.T
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val from_comp_unit: (Types.CompUnit.t -> t) ref

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val empty_env: t
val get_ns_table : t -> Ns.table
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val enter_ns : U.t -> Ns.t -> t -> t
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val enter_cu : U.t -> Types.CompUnit.t -> t -> t 
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val enter_value: id -> Types.t -> t -> t
val enter_values: (id * Types.t) list -> t -> t
val find_value: id -> t -> Types.t
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val iter_values: t -> (id -> Types.t -> unit) -> unit
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val enter_type: id -> Types.t -> t -> t
val enter_types: (id * Types.t) list -> t -> t
val find_type: id -> t -> Types.t
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val type_defs: t -> (id * Ast.ppat) list -> (id * Types.t) list
val typ: t -> Ast.ppat -> Types.Node.t
val pat: t -> Ast.ppat -> Patterns.node
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val dump_types: Format.formatter -> t -> unit
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val dump_type: Format.formatter -> t -> U.t -> unit
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val dump_schema_type:
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  Format.formatter -> (Schema_types.component_kind * U.t * U.t) -> unit
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val dump_ns: Format.formatter -> t -> unit
val set_ns_table_for_printer: t -> unit

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val type_expr: 
  t -> Ast.pexpr -> Typed.texpr * Types.descr

val type_let_decl: t -> Ast.ppat -> Ast.pexpr -> 
  t * Typed.let_decl * (id * Types.t) list

val type_let_funs: t -> Ast.pexpr list -> 
  t * Typed.texpr list * (id * Types.t) list
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  (* Assume that all the expressions are Abstractions *)
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val flatten: loc -> 
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  (Types.t -> bool -> Types.t) -> (Types.t -> bool -> Types.t)
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(** {2 Schema stuff} *)
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val register_schema: U.t -> Schema_types.schema -> unit
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val is_registered_schema: U.t -> bool
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val get_schema: U.t -> Schema_types.schema  (** lookup schema by name *)
val get_schema_names: unit -> U.t list  (** registered schema names *)
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(* Operators *)

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type type_fun = Types.t -> bool -> Types.t
val mk_unary_op: (string -> t -> int) ref
val typ_unary_op: (int -> loc -> type_fun -> type_fun) ref

val mk_binary_op: (string -> t -> int) ref
val typ_binary_op: (int -> loc -> type_fun -> type_fun -> type_fun) ref
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